Your search keyword '"Lac Operon"' showing total 176 results

1. Mef2c-F10N enhancer driven β-galactosidase (LacZ) and Cre recombinase mice facilitate analyses of gene function and lineage fate in neural crest cells

Author

Aoto, Kazushi, Sandell, Lisa L, Tjaden, Naomi E Butler, Yuen, Kobe C, Watt, Kristin E Noack, Black, Brian L, Durnin, Michael, and Trainor, Paul A

Subjects

Medical Biotechnology, Biomedical and Clinical Sciences, Genetics, Neurosciences, Pediatric, Stem Cell Research, Stem Cell Research - Nonembryonic - Non-Human, 1.1 Normal biological development and functioning, Underpinning research, Animals, Cell Differentiation, Cell Lineage, Cell Movement, Chickens, Enhancer Elements, Genetic, Gene Expression Regulation, Developmental, Genotype, Humans, Integrases, Lac Operon, Melanocytes, Mesoderm, Mice, Mice, Transgenic, Neural Crest, Neurons, Rabbits, Rats, Xenopus, Zebrafish, Neural crest cell, Mef2C enhancer, beta-galactosidase reporter, Cre recombinase, β-galactosidase reporter, Biological Sciences, Medical and Health Sciences, Developmental Biology, Biological sciences, Biomedical and clinical sciences, Health sciences

Abstract

Neural crest cells (NCC) comprise a multipotent, migratory stem cell and progenitor population that gives rise to numerous cell and tissue types within a developing embryo, including craniofacial bone and cartilage, neurons and glia of the peripheral nervous system, and melanocytes within the skin. Here we describe two novel stable transgenic mouse lines suitable for lineage tracing and analysis of gene function in NCC. Firstly, using the F10N enhancer of the Mef2c gene (Mef2c-F10N) linked to LacZ, we generated transgenic mice (Mef2c-F10N-LacZ) that express LacZ in the majority, if not all migrating NCC that delaminate from the neural tube. Mef2c-F10N-LacZ then continues to be expressed primarily in neurogenic, gliogenic and melanocytic NCC and their derivatives, but not in ectomesenchymal derivatives. Secondly, we used the same Mef2c-F10N enhancer together with Cre recombinase to generate transgenic mice (Mef2c-F10N-Cre) that can be used to indelibly label, or alter gene function in, migrating NCC and their derivatives. At early stages of development, Mef2c-F10N-LacZ and Mef2c-F10N-Cre label NCC in a pattern similar to Wnt1-Cre mice, with the exception that Mef2c-F10N-LacZ and Mef2c-F10N-Cre specifically label NCC that have delaminated from the neural plate, while premigratory NCC are not labeled. Thus, our Mef2c-F10N-LacZ and Mef2c-F10N-Cre transgenic mice provide new resources for tracing migratory NCC and analyzing gene function in migrating and differentiating NCC independently of NCC formation.

Published

2015

2. Cluap1 localizes preferentially to the base and tip of cilia and is required for ciliogenesis in the mouse embryo

Author

Toshiaki Hasegawa, Hiroshi Hamada, Kyosuke Shinohara, Hidetaka Shiratori, Yanick Botilde, Satoko Yoshiba, and Hiromi Nishimura

Subjects

Genotype, Down-Regulation, Hedgehog signaling, Mice, Transgenic, Biology, Mice, Genes, Reporter, Intraflagellar transport, Ciliogenesis, Morphogenesis, Animals, Basal body, Hedgehog Proteins, Cilia, Node, Molecular Biology, Body Patterning, Mice, Knockout, Cystic kidney, Cilium, Intracellular Signaling Peptides and Proteins, Left–right asymmetry, Gene Expression Regulation, Developmental, Cell Biology, Fibroblasts, Apical membrane, Hedgehog signaling pathway, Cell biology, Lac Operon, Mutation, NODAL, Signal Transduction, Developmental Biology

Abstract

Qilin is one of several genes in zebrafish whose mutation results in cystic kidney. We have now studied the role of its mouse ortholog, Cluap1, in embryonic development by generating Cluap1 knockout (Cluap1−/−) mice. Cluap1−/− embryos died mid-gestation manifesting impairment of ciliogenesis in various regions including the node and neural tube. The basal body was found to be properly docked to the apical membrane of cells in the mutant, but the axoneme failed to grow. Cluap1 is a ciliary protein and is preferentially localized at the base and tip of cilia. Hedgehog signaling, as revealed with a Pacthed1-lacZ reporter gene, was lost in Cluap1−/− embryos at embryonic day (E) 8.5 but was ectopically expanded at E9.0. The Cluap1 knockout embryos also failed to manifest left–right asymmetric expression of Nodal in the lateral plate, most likely as a result of the loss of Hedgehog signaling in node crown cells that in turn leads to pronounced down-regulation of Gdf1 expression in these cells. Crown cell-specific restoration of Cluap1 expression rescued Gdf1 expression in crown cells and left-sided Nodal expression in the lateral plate of mutant embryos. Our results suggest that Cluap1 contributes to ciliogenesis by regulating the intraflagellar transport (IFT) cycle at the base and tip of the cilium.

Published

2013

3. Isl1 is a direct transcriptional target of Forkhead transcription factors in second heart field-derived mesoderm

Author

Elisha Nathan, Brian L. Black, Jione Kang, Shan-Mei Xu, and Eldad Tzahor

Subjects

Transcription, Genetic, Mouse, LIM-Homeodomain Proteins, Molecular Sequence Data, Second heart field, Mice, Transgenic, Enhancer RNAs, Biology, FoxF1, Article, Transgenic, Mesoderm, Mice, 03 medical and health sciences, Fetal Heart, 0302 clinical medicine, Forkhead Transcription Factors, Cell Movement, Genes, Reporter, Sequence Homology, Nucleic Acid, Animals, FOXD3, Heart formation, Enhancer, Molecular Biology, Transcription factor, 030304 developmental biology, Homeodomain Proteins, 0303 health sciences, Base Sequence, Anterior heart field, Gene Expression Regulation, Developmental, FoxC2, Cell Biology, FoxA2, Isl1, Molecular biology, Enhancer Elements, Genetic, Forkhead box L2, Lac Operon, FOXA2, Sequence Alignment, 030217 neurology & neurosurgery, Protein Binding, Transcription Factors, Forkhead, Developmental Biology

Abstract

The cells of the second heart field (SHF) contribute to the outflow tract and right ventricle, as well as to parts of the left ventricle and atria. Isl1, a member of the LIM-homeodomain transcription factor family, is expressed early in this cardiac progenitor population and functions near the top of a transcriptional pathway essential for heart development. Isl1 is required for the survival and migration of SHF-derived cells into the early developing heart at the inflow and outflow poles. Despite this important role for Isl1 in early heart formation, the transcriptional regulation of Isl1 has remained largely undefined. Therefore, to identify transcription factors that regulate Isl1 expression in vivo, we screened the conserved noncoding sequences from the mouse Isl1 locus for enhancer activity in transgenic mouse embryos. Here, we report the identification of an enhancer from the mouse Isl1 gene that is sufficient to direct expression to the SHF and its derivatives. The Isl1 SHF enhancer contains three consensus Forkhead transcription factor binding sites that are efficiently and specifically bound by Forkhead transcription factors. Importantly, the activity of the enhancer is dependent on these three Forkhead binding sites in transgenic mouse embryos. Thus, these studies demonstrate that Isl1 is a direct transcriptional target of Forkhead transcription factors in the SHF and establish a transcriptional pathway upstream of Isl1 in the SHF.

Published

2009

4. Impaired skin and hair follicle development in Runx2 deficient mice

Author

Elazar Zelzer, Bjorn R. Olsen, and Donald J. Glotzer

Subjects

Male, Keratin 14, Mouse, Skin thickness, Core Binding Factor Alpha 1 Subunit, Mice, Runx2, Pregnancy, Hair cycle, Skin allograft, Sonic hedgehog, Skin, Mice, Knockout, integumentary system, biology, musculoskeletal, neural, and ocular physiology, Gene Expression Regulation, Developmental, Skin Transplantation, Hedgehog signaling pathway, Cell biology, Patched-1 Receptor, medicine.anatomical_structure, Lac Operon, embryonic structures, Female, Hair Follicle, Signal Transduction, Patched Receptors, musculoskeletal diseases, medicine.medical_specialty, Hair follicles, Mice, Transgenic, Receptors, Cell Surface, Development, Article, Follicle, stomatognathic system, GLI1, Internal medicine, medicine, Animals, Transplantation, Homologous, Hedgehog Proteins, Molecular Biology, Keratin-14, Cell Biology, Keratin 1, Hair follicle, Mice, Mutant Strains, Mice, Inbred C57BL, Endocrinology, Skin Abnormalities, biology.protein, Gene expression, Developmental Biology

Abstract

The transcription factor, Runx2, is known to play crucial roles in skeletal and tooth morphogenesis. Here we document that Runx2 has a regulatory role in skin and hair follicle development. The expression of Runx2 is restricted to hair follicles and is dynamic, pari passu with follicle development. Follicle maturation is delayed in the absence of Runx2 and overall skin and epidermal thickness of Runx2 null embryos is significantly reduced. The Runx2 null epidermis is hypoplastic, displaying reduced expression of Keratin 14, Keratin 1 and markers of proliferation. The expression pattern of Runx2 in the bulb epithelium of mature hair follicles is asymmetric and strikingly similar to that of Sonic hedgehog. This suggests that Runx2 may be a regulator of hedgehog signaling in skin as it is in bones and teeth. Supporting this possibility, we demonstrate that Sonic hedgehog, Patched1 and Gli1 transcripts are reduced in the skin of Runx2 null embryos. Moreover, we document Patched1 expression in epidermal basal cells and show that the skin of Sonic+/− embryos is thinner than that of wild-type littermates. These observations suggest that Runx2 and hedgehog signaling are involved in the well known, but unexplained, coupling of skin thickness to hair follicle development.

Published

2008

5. Analysis of mouse Cdh6 gene regulation by transgenesis of modified bacterial artificial chromosomes

Author

Hitomi Izumi, Shun Nakamura, Robb Krumlauf, Takayoshi Inoue, Yukiko U. Inoue, and Junko Asami

Subjects

Chromosomes, Artificial, Bacterial, Mouse, Neural crest cells, Rhombomere, Mice, Transgenic, Biology, Cdh6 (cadherin-6), Mice, Genes, Reporter, medicine, Animals, Homologous recombination, Promoter Regions, Genetic, Transposon, Molecular Biology, Gene, In Situ Hybridization, BAC, DNA Primers, Recombination, Genetic, Genetics, Regulation of gene expression, Bacterial artificial chromosome, Compartment, Base Sequence, Cadherin, Neural tube, Gene Expression Regulation, Developmental, Neural crest, Cell Biology, Hindbrain, Cadherins, Gene regulation, Cell biology, medicine.anatomical_structure, Lac Operon, Neural Crest, Forebrain, DNA Transposable Elements, Transcription Initiation Site, Developmental Biology

Abstract

Classic cadherins are cell adhesion molecules whose expression patterns are dynamically modulated in association with their diverse functions during morphogenesis. The large size and complexity of cadherin loci have made it a challenge to investigate the organization of cis-regulatory modules that control their spatiotemporal patterns of expression. Towards this end, we utilized bacterial artificial chromosomes (BACs) containing the Cdh6 gene, a mouse type II classic cadherin, to systematically identify cis-regulatory modules that govern its expression. By inserting a lacZ reporter gene into the Cdh6 BAC and generating a series of modified variants via homologous recombination or transposon insertions that have been examined in transgenic mice, we identified an array of genomic regions that contribute to specific regulation of the gene. These regions span approximately 350 kb of the locus between 161-kb upstream and 186-kb downstream of the Cdh6 transcription start site. Distinct modules independently regulate compartmental expression (i.e. forebrain, hindbrain rhombomeres, and spinal cord) and/or cell lineage-specific expression patterns (i.e. neural crest subpopulations such as Schwann cells) of Cdh6 at the early developmental stages. With respect to regulation of expression in neural crest cells, we have found that distinct regions contribute to different aspects of expression and have identified a short 79-bp region that is implicated in regulating expression in cells once they have emigrated from the neural tube. These results build a picture of the complex organization of Cdh6 cis-regulatory modules and highlight the diverse inputs that contribute to its dynamic expression during early mouse embryonic development.

Published

2008

6. Ciliary margin transdifferentiation from neural retina is controlled by canonical Wnt signaling

Author

Sherry Thurig, Hong Liu, Yaping Wang, Brenda L. K. Coles, Makoto Mark Taketo, Derek van der Kooy, Jian Ching Ren, Shunbin Xu, Valerie A. Wallace, and Chantal Mazerolle

Subjects

medicine.medical_specialty, Proliferation index, Mice, Transgenic, Ciliary body, BMP4, In Vitro Techniques, Biology, Retina, Transgenic, Mice, Wnt, 03 medical and health sciences, 0302 clinical medicine, Internal medicine, medicine, Animals, Microphthalmos, Ciliary margin, Molecular Biology, In Situ Hybridization, beta Catenin, DNA Primers, 030304 developmental biology, Li+, 0303 health sciences, Stem cell, Base Sequence, Neurogenesis, Transdifferentiation, Wnt signaling pathway, Gene Expression Regulation, Developmental, Cell Biology, β-catenin, Cell biology, Wnt Proteins, Endocrinology, medicine.anatomical_structure, Lac Operon, Ectopic expression, sense organs, Signal transduction, Msx1, 030217 neurology & neurosurgery, Signal Transduction, Developmental Biology

Abstract

The epithelial layers of the ciliary body (CB) and iris are non-neural structures that differentiate from the anterior region of the eyecup, the ciliary margin (CM). We show here that activation of the canonical Wnt signaling pathway is sufficient and necessary for the normal development of anterior eye structures. Pharmacological activation of beta-catenin signaling with lithium (Li(+)) treatment in retinal explants in vitro induced the ectopic expression of the CM markers Otx1 and Msx1. Cre-mediated stabilization of beta-catenin expression in the peripheral retina in vivo induced a cell autonomous upregulation of CM markers at the expense of neural retina (NR) markers and inhibited neurogenesis. Consistent with a cell autonomous conversion to peripheral eye fates, the proliferation index in the region of the retina that expressed stabilized beta-catenin was identical to the wild-type CM and there was an expansion of CB-like structures at later stages. Conversely, Cre-mediated inactivation of beta-catenin reduced CM marker expression as well as the size of the CM and CB/iris. Aberrant CB development in both mouse models was also associated with a reduction in the number of retinal stem cells in vitro. In summary, activation of canonical Wnt signaling is sufficient to promote the development of peripheral eyecup fates at the expense of the NR and is also required for the normal development of anterior eyecup structures.

Published

2007

7. Identification and characterization of a novel Schwann and outflow tract endocardial cushion lineage-restricted periostin enhancer

Author

Andrew Lindsley, Paige Snider, Anthony B. Firulli, Rhonda Rogers, Jian Wang, Brenda Lilly, Simon J. Conway, Hong-Ming Zhou, John B.E. Burch, Shrinagesh V. Koushik, Agnieszka Kruzynska-Frejtag, and Michael A. Olaopa

Subjects

lacZ reporter mice, Lineage (genetic), Mesenchyme, Molecular Sequence Data, Schwann cell, Mice, Transgenic, Biology, Periostin, Mouse embryo, Heart development, Article, Cell Line, Mice, Fetal Heart, Lineage restricted promoter, Genes, Reporter, medicine, Animals, Amino Acid Sequence, Promoter Regions, Genetic, Enhancer, Molecular Biology, Conserved Sequence, YY1 Transcription Factor, Sequence Deletion, Binding Sites, Base Sequence, Sequence Homology, Amino Acid, Embryogenesis, Gene Expression Regulation, Developmental, Cell Biology, Embryonic stem cell, Molecular biology, Cell biology, Mice, Inbred C57BL, Enhancer Elements, Genetic, medicine.anatomical_structure, Lac Operon, Mutagenesis, Site-Directed, Schwann Cells, Peripheral nervous system, DNA Probes, Endocardial cushions, Cell Adhesion Molecules, Endocardium, Developmental Biology

Abstract

Periostin is a fasciclin-containing adhesive glycoprotein that facilitates the migration and differentiation of cells that have undergone epithelial–mesenchymal transformation during embryogenesis and in pathological conditions. Despite the importance of post-transformational differentiation as a general developmental mechanism, little is known how periostin's embryonic expression is regulated. To help resolve this deficiency, a 3.9-kb periostin proximal promoter was isolated and shown to drive tissue-specific expression in the neural crest-derived Schwann cell lineage and in a subpopulation of periostin-expressing cells in the cardiac outflow tract endocardial cushions. In order to identify the enhancer and associated DNA binding factor(s) responsible, in vitro promoter dissection was undertaken in a Schwannoma line. Ultimately a 304-bpperi enhancer was identified and shown to be capable of recapitulating 3.9 kbperi-lacZ in vivo spatiotemporal patterns. Further mutational and EMSA analysis helped identify a minimal 37-bp region that is bound by the YY1 transcription factor. The 37-bp enhancer was subsequently shown to be essential for in vivo 3.9 kbperi-lacZ promoter activity. Taken together, these studies identify an evolutionary-conserved YY1-binding 37-bp region within a 304-bp periostin core enhancer that is capable of regulating simultaneous novel tissue-specific periostin expression in the cardiac outflow-tract cushion mesenchyme and Schwann cell lineages.

Published

2007

8. GLP-1: A novel zinc finger protein required in somatic cells of the gonad for germ cell development

Author

Min Min Lu, Deying Zhou, Stephen R. Hammes, Shanru Li, and Edward E. Morrisey

Subjects

Male, endocrine system, Gonad, Somatic cell, Molecular Sequence Data, Repressor, Biology, Article, Mice, Zinc finger, medicine, Animals, GATA1 Transcription Factor, Amino Acid Sequence, Testes, Gene, Transcription factor, Molecular Biology, DNA Primers, Mice, Knockout, Base Sequence, Sequence Homology, Amino Acid, Gonad development, Reverse Transcriptase Polymerase Chain Reaction, urogenital system, Reproduction, Ovary, Cell Biology, Null allele, Molecular biology, Immunohistochemistry, Cell biology, medicine.anatomical_structure, Germ Cells, Lac Operon, Female, Germ cell, Developmental Biology

Abstract

Mouse gonadal development is regulated by a variety of transcription factors. Here we report the identification and characterization of a novel nuclear zinc finger protein called GATA like protein-1 (GLP-1), which is expressed at high levels in the somatic cells of the developing gonads, including Leydig cells in the testes and granulosa cells in the ovaries. Biochemical analysis of GLP-1 shows that it acts as a transcriptional repressor of GATA factor function. To determine the necessity of GLP-1 in gonadal development, a null allele in mice was generated by replacing all of the coding exons with the bacterial lacZ gene. GLP-1lacZ null mice are viable with no detectable defects in visceral organ development; however, both males and females are completely infertile. Loss of GLP-1 leads to defective sperm development in males with a marked reduction in mature spermatids observed as early as postnatal week 1. In females, loss of GLP-1 leads to a severe block in germ cell development as early as E17.5. Together, these data identify GLP-1 as a critical nuclear repressor in somatic cells of the gonad that is required for germ cell development, and highlight the importance of somatic-germ cell interactions in the regulation of this critical process.

Published

2007

9. A rat 8 kb dentin sialoprotein–phosphophoryn (DSP–PP) promoter directs spatial and temporal LacZ activity in mouse tissues

Author

Thomas L. Saunders, Xiu Rong Li, Valentina Godovikova, and Helena H. Ritchie

Subjects

Genetically modified mouse, Male, Time Factors, Sialoglycoproteins, Molecular Sequence Data, Mice, Transgenic, In situ hybridization, LacZ activity, Biology, Kidney, Bone and Bones, Mice, stomatognathic system, Species Specificity, cis-elements, Animals, RNA, Messenger, Protein Precursors, Bone, Promoter Regions, Genetic, Transcription factor, Molecular Biology, In Situ Hybridization, Extracellular Matrix Proteins, Expression vector, Base Sequence, Models, Genetic, Gene Expression Regulation, Developmental, Promoter, Cell Biology, Phosphoproteins, Molecular biology, Rats, Mice, Inbred C57BL, Rat DSP–PP promoter, Odontoblast, Developmental clock, Lac Operon, Dentinogenesis, Female, Tooth, Dentin sialoprotein, Developmental Biology

Abstract

Dentin sialoprotein (DSP) and phosphophoryn (PP) are two major dentin noncollagenous proteins that are encoded on a single DSP–PP transcript whose expression is tightly regulated during tooth dentinogenesis. The recent identification of this gene transcript in other tissues, including inner ear and jaw tissue, suggests that DSP and PP may have pleiotropic effects on other organs besides teeth. To identify candidate regulatory elements that control DSP–PP temporal and spatial expression, we constructed a −5 kb upstream region rat DSP–PP promoter into the β-galactosidase expression vector pnLacF plasmid and used this construct to prepare DSP–PP-LacZ transgenic mice. Multiple mouse tissues including teeth, bone, and kidney obtained from the six resulting transgenic mouse lines displayed strong LacZ activity. This spatial distribution was confirmed in several of these tissues by in situ hybridization studies. LacZ activity was transiently expressed in preameloblasts and continuously expressed in odontoblasts demonstrating that this −5 kb rat promoter-dependent LacZ expression mimics reported DSP–PP mRNA expression patterns. Interestingly, this −5 kb rat promoter construct drives LacZ expression according to the rat developmental clock. Based on identified transcription factors present in this −5 kb promoter region, we have identified several probable cis-regulatory modules whose interaction with one another could account for the spatial and temporal distribution of DSP–PP transcripts in developing tissues.

Published

2006

10. An enhancer element at the Igf2/H19 locus drives gene expression in both imprinted and non-imprinted tissues

Author

Trevelyan R. Menheniott, Ghislaine Dell, Andrew Ward, Luisa Dandolo, William Bennett, Sharon M. Kelly, and Marika Charalambous

Subjects

animal structures, Microinjections, endocrine system diseases, Mice, Transgenic, Biology, Insulator (genetics), Methylation, Epithelium, Genomic Imprinting, Mice, Insulin-Like Growth Factor II, Gene expression, Transgenic mice, Animals, Insulin-like growth factor, Transgenes, Imprinting (psychology), Enhancer, Gene, Molecular Biology, Conserved Sequence, Crosses, Genetic, In Situ Hybridization, DNA Primers, Regulation of gene expression, Base Sequence, Gene Expression Regulation, Developmental, Cell Biology, DNA Methylation, Molecular biology, female genital diseases and pregnancy complications, Enhancer Elements, Genetic, Lac Operon, DNA methylation, Choroid Plexus, Genomic imprinting, Developmental Biology

Abstract

The insulin-like growth factor 2 (Igf2) gene encodes a potent growth factor that is expressed in multiple tissues during embryonic development. Expression at this locus is mediated by genomic imprinting. In the developing endodermal tissues, imprinting of Igf2 is mediated by the interaction of a set of enhancers downstream of the linked H19 gene with a differentially methylated domain (DMD) that lies approximately 2–4 kb upstream of H19 that has a boundary or insulator function in the hypomethylated state. In the remainder of tissues that express Igf2 and H19, the cis elements that drive their correct expression and imprinting are not well understood. In addition, enhancers driving expression of Igf2 in the choroid plexus and leptomeninges, tissues where the gene is thought not to be imprinted, have not been isolated. Here we show that biallelic (non-imprinted) expression within the choroid plexus is restricted to the epithelium, and we provide evidence that a conserved intergenic region functions as an enhancer for Igf2 both in tissues where the gene is imprinted, and where Igf2 is biallelically expressed. The presence of an enhancer for imprinted tissues in the intergenic region argues for the existence of imprinting controls distinct from the DMD, which may be provided by differential methylation at sites proximal to Igf2.

Published

2004

11. Expression of Pax2 in the intermediate mesoderm is regulated by YY1

Author

Sanjeevkumar R. Patel and Gregory R. Dressler

Subjects

DNA Footprinting, Kidney, Mass Spectrometry, Conserved sequence, Mesoderm, Mice, 0302 clinical medicine, Genes, Reporter, Sequence Analysis, Protein, Intermediate mesoderm, Promoter Regions, Genetic, Nephric duct, Chromatography, High Pressure Liquid, YY1 Transcription Factor, Regulation of gene expression, 0303 health sciences, Ureteric bud, Gene Expression Regulation, Developmental, DNA-Binding Proteins, Lac Operon, embryonic structures, Erythroid-Specific DNA-Binding Factors, Electrophoresis, Polyacrylamide Gel, animal structures, Transgene, Blotting, Western, Green Fluorescent Proteins, Urogenital System, Mice, Transgenic, Biology, 03 medical and health sciences, Animals, Yin Yang 1, Enhancer, Transcription factor, Molecular Biology, DNA Primers, 030304 developmental biology, Pax2, Mesonephros, PAX2 Transcription Factor, Cell Biology, beta-Galactosidase, Molecular biology, Pronephros, Luminescent Proteins, 030217 neurology & neurosurgery, Transcription Factors, Developmental Biology

Abstract

The transcription factor Pax2 is essential for the development of the urogenital system. Pax2 expression can be detected by mouse embryonic day 8.5 (E8.5) in the region of intermediate mesoderm fated to become the nephric duct, pronephros, and mesonephros. Elements that direct Pax2 expression to nephrogenic precursor cells must be responding to positional information that controls nephrogenic fate. A 4.1-kb Pax2 promoter/enhancer fragment directs expression of a lacZ reporter to the nephrogenic region and the midbrain–hindbrain junction in transgenic mice. As kidney development proceeds, transgene expression is limited to the nephric duct and its derivatives, but not the metanephric mesenchyme. The early expression driven by the 4.1 promoter does not require the Pax2 protein, demonstrating that it receives positional information in the absence of a developing pro- or mesonephros. We have identified two DNAseI hypersensitive regions within this promoter, one at the start site of transcription initiation and a second approximately 2-kb upstream. Deletion of the more distal site significantly attenuates lacZ expression in the nephrogenic region but not in the midbrain–hindbrain region. DNA footprinting of this fragment revealed a highly conserved sequence between mouse and human Pax2 promoter sequences. Using fractionated nuclear extracts, we identified the transcription factor Yin Yang 1 (YY1) as the protein that binds to this conserved sequence. Deletion of the YY1 element significantly attenuated expression of a full-length 4.1 promoter. Moreover, inclusion of this YY1 binding element significantly enhanced expression of a minimal Pax2 promoter/enhancer transgene in E12 embryos. These data point to a novel role for YY1 in the establishment of high level tissue-specific expression within the intermediate mesoderm.

Published

2004

12. Progressive restriction of cell fates in relation to neuroepithelial cell mingling in the mouse cerebellum

Author

Jean-François Nicolas, Luc Mathis, Nicolas, Jean Francois Daniel, Cellectis, Immunologie de l'allergie cutanée et vaccination – Immunology of skin allergy and vaccination, Centre International de Recherche en Infectiologie (CIRI), École normale supérieure de Lyon (ENS de Lyon)-Université Claude Bernard Lyon 1 (UCBL), Université de Lyon-Université de Lyon-Université Jean Monnet - Saint-Étienne (UJM)-Institut National de la Santé et de la Recherche Médicale (INSERM)-Centre National de la Recherche Scientifique (CNRS)-École normale supérieure de Lyon (ENS de Lyon)-Université Claude Bernard Lyon 1 (UCBL), Université de Lyon-Université de Lyon-Université Jean Monnet - Saint-Étienne (UJM)-Institut National de la Santé et de la Recherche Médicale (INSERM)-Centre National de la Recherche Scientifique (CNRS), Centre International de Recherche en Infectiologie - UMR (CIRI), École normale supérieure - Lyon (ENS Lyon)-Université Claude Bernard Lyon 1 (UCBL), Université de Lyon-Université de Lyon-Institut National de la Santé et de la Recherche Médicale (INSERM)-Centre National de la Recherche Scientifique (CNRS)-École normale supérieure - Lyon (ENS Lyon)-Université Claude Bernard Lyon 1 (UCBL), and Université de Lyon-Université de Lyon-Institut National de la Santé et de la Recherche Médicale (INSERM)-Centre National de la Recherche Scientifique (CNRS)

Subjects

Cerebellum, [SDV]Life Sciences [q-bio], Neurogenesis, Mice, Transgenic, Biology, Mouse embryo, Cerebral Ventricles, Mice, Purkinje Cells, 03 medical and health sciences, 0302 clinical medicine, Cell Movement, Genes, Reporter, Clonal analysis, [SDV.BDD] Life Sciences [q-bio]/Development Biology, medicine, Animals, Transgenes, Progenitor cell, [SDV.BDD]Life Sciences [q-bio]/Development Biology, Molecular Biology, 030304 developmental biology, Neurons, Cell lineage, 0303 health sciences, Stem Cells, Neural tube, Cell Differentiation, Cell Biology, Anatomy, beta-Galactosidase, Granule cell, Clone Cells, Cell biology, Mice, Inbred C57BL, [SDV] Life Sciences [q-bio], Neuroepithelial cell, Deep nuclei, Neurulation, medicine.anatomical_structure, CXCL3, Lac Operon, laacZ, Biomarkers, 030217 neurology & neurosurgery, Developmental Biology

Abstract

International audience; Neurogenesis in the cerebellum proceeds through a temporal series of cell production from two separate epithelia, the ventricular zone (VZ) and the external granule cell layer (EGL). Using the laacZ cell lineage tracer in transgenic mice, we describe cellular clones whose dates of birth span the entire period of cerebellar development and deduce a sequence of cell dispersion leading to the final allocation of cells in the cerebellum. Clones probably labeled early during neural tube formation show that individual progenitors can give rise to all cerebellar cell types. The distribution of clonally related granule cells in these clones indicates a mediolateral organization of EGL progenitors already established before the allocation of the EGL progenitors to the cerebellum. Clones restricted to the cerebellar VZ show that the VZ derives progenitors for deep nuclei and multipotent cortical progenitors, which lose their systematic lineage relationship when longitudinal cell intermingling in the cerebellar VZ becomes more limited. The small clones also show that cell dispersion is radial in the internal granule layer and tangential in the molecular layer. Together, the data demonstrate the broad maintenance of the relative order of cells from neural tube stages to the adult cerebellum.

Published

2003

13. Contribution of somitic cells to the avian ribs

Author

Darrell J. R. Evans

Subjects

musculoskeletal diseases, Avian, Vertebrae, Morphogenesis, Dermomyotome, Skeletal muscle, Ribs, Chick Embryo, Biology, Animals, Genetically Modified, 03 medical and health sciences, 0302 clinical medicine, Precursor cell, medicine, Compartment (development), Animals, Molecular Biology, 030304 developmental biology, Body Patterning, 0303 health sciences, Rib cage, Intercostal muscles, Gene Expression Regulation, Developmental, Anatomy, Cell Biology, Chick embryos, beta-Galactosidase, musculoskeletal system, Somite, medicine.anatomical_structure, Retroviridae, Lac Operon, Somites, Sclerotome, Resegmentation, 030217 neurology & neurosurgery, Developmental Biology

Abstract

The traditional view that all parts of the ribs originate from the sclerotome of the thoracic somites has recently been challenged by an alternative view suggesting that only the proximal rib derives from the sclerotome, while the distal rib arises from regions of the dermomyotome. In view of this continuing controversy and to learn more about the cell interactions during rib morphogenesis, this study aimed to reveal the precise contributions made by somitic cells to the ribs and associated tissues of the thoracic cage. A replication-deficient lacZ-encoding retrovirus was utilized to label cell populations within distinct regions of somites 19–26 in stage 13–18 chick embryos. Analysis of the subsequent contributions made by these cells revealed that the thoracic somites are the sole source of cells for the ribs. More precisely, it is the sclerotome compartment of the somites that contributes cells to both the proximal and distal elements of the ribs, confirming the traditional view of the origin of the ribs. Results also indicate that the precursor cells of the ribs and intercostal muscles are intimately associated within the somite, a relationship that may be essential for proper rib morphogenesis. Finally, the data from this study also show that the distal ribs are largely subject to resegmentation, although cell mixing may occur at the most sternal extremities.

Published

2003

14. Disruption of sonic hedgehog signaling alters growth and patterning of lingual taste papillae

Author

Joshua M.H Hall, Melanie L. Bell, and Thomas E. Finger

Subjects

medicine.medical_specialty, animal structures, Cyclopamine, Mouse tongue culture, Gestational Age, Mice, Transgenic, BMP4, Bone Morphogenetic Protein 4, Biology, Antibodies, Shh, Mice, chemistry.chemical_compound, Tongue, Culture Techniques, Internal medicine, Taste bud, medicine, Animals, Hedgehog Proteins, Sonic hedgehog, Lingual papilla, Molecular Biology, In Situ Hybridization, Mice, Knockout, Veratrum Alkaloids, Gene Expression Regulation, Developmental, Cell Biology, Taste Buds, Hedgehog signaling pathway, Cell biology, medicine.anatomical_structure, Endocrinology, Lac Operon, Bone morphogenetic protein 4, chemistry, Bone Morphogenetic Proteins, embryonic structures, Trans-Activators, biology.protein, 5E1, Signal Transduction, Morphogen, Fungiform papillae, Developmental Biology

Abstract

Taste buds on the anterior part of the tongue develop in conjunction with epithelial–mesenchymal specializations in the form of gustatory (taste) papillae. Sonic hedgehog (Shh) and Bone Morphogenetic Protein 4 (BMP4) are expressed in developing taste papillae, but the roles of these signaling molecules in specification of taste bud progenitors and in papillary morphogenesis are unclear. We show here that BMP4 is not expressed in the early tongue, but is precisely coexpressed with Shh in papillary placodes, which serve as a signaling center for both gustatory and papillary development. To elucidate the role of Shh, we used an in vitro model of mouse fungiform papillary development to determine the effects of two functional inhibitors of Shh signaling: anti-Shh (5E1) antibody and cyclopamine. Cultured E11.5 tongue explants express Shh and BMP4 LacZ in a pattern similar to that of intact embryos, localizing to developing papillary placodes after 2 days in culture. Tongues cultured with 5E1 antibody continue to express these genes in papillary patterns but develop more papillae that are larger and closer together than in controls. Tongues cultured with cyclopamine have a dose-dependent expansion of Shh and BMP4 LacZ expression domains. Both antibody-treated and cyclopamine-treated tongue explants also are smaller than controls. Taken together, these results suggest that, although Shh is not involved in the initial specification of papillary placodes, Shh does play two key roles during pmcry development: (1) as a morphogen that directs cells toward a nonpapillary fate, and (2) as a mitogen, causing expansion of the interplacodal epithelium and underlying mesenchyme.

Published

2003

15. Twist Plays an Essential Role in FGF and SHH Signal Transduction during Mouse Limb Development

Author

Richard R. Behringer, Patrick P.L. Tam, Meredith P. O'Rourke, Kenneth Soo, and Chi Chung Hui

Subjects

Apical ectodermal ridge, Time Factors, Ectoderm, Gli3, Fibroblast growth factor, SHH, Mesoderm, Twist transcription factor, Mice, FGF, Twist, In Situ Hybridization, Nuclear Proteins, Cell biology, medicine.anatomical_structure, Lac Operon, embryonic structures, limb bud, Protein Binding, Signal Transduction, medicine.medical_specialty, Heterozygote, animal structures, Fibroblast Growth Factor 8, Biology, Limb bud, Internal medicine, GLI3, medicine, In Situ Nick-End Labeling, Limb development, Animals, Hedgehog Proteins, RNA, Messenger, Receptor, Fibroblast Growth Factor, Type 2, Molecular Biology, mouse, Twist-Related Protein 1, Receptor Protein-Tyrosine Kinases, Extremities, Cell Biology, Receptors, Fibroblast Growth Factor, Protein Structure, Tertiary, Fibroblast Growth Factors, Mice, Inbred C57BL, Polydactyly, stomatognathic diseases, Endocrinology, Zone of polarizing activity, Mutation, Trans-Activators, Fibroblast Growth Factor 10, tissue patterning, Transcription Factors, Developmental Biology

Abstract

Loss of Twist gene function arrests the growth of the limb bud shortly after its formation. In the Twist(-/-) forelimb bud, Fgf10 expression is reduced, Fgf4 is not expressed, and the domain of Fgf8 and Fgfr2 expression is altered. This is accompanied by disruption of the expression of genes (Shh, Gli1, Gli2, Gli3, and Ptch) associated with SHH signalling in the limb bud mesenchyme, the down-regulation of Bmp4 in the apical ectoderm, the absence of Alx3, Alx4, Pax1, and Pax3 activity in the mesenchyme, and a reduced potency of the limb bud tissues to differentiate into osteogenic and myogenic tissues. Development of the hindlimb buds in Twist(-/-) embryos is also retarded. The overall activity of genes involved in SHH signalling is reduced.Fgf4 and Fgf8 expression is lost or reduced in the apical ectoderm, but other genes (Fgf10, Fgfr2) involved with FGF signalling are expressed in normal patterns. Twist(+/-);Gli3(+/XtJ) mice display more severe polydactyly than that seen in either Twist(+/-) or Gli3(+/XtJ) mice, suggesting that there is genetic interaction between Twist and Gli3 activity. Twist activity is therefore essential for the growth and differentiation of the limb bud tissues as well as regulation of tissue patterning via the modulation of SHH and FGF signal transduction.

Published

2002

16. JNK Signaling Pathway Is Required for Efficient Wound Healing in Drosophila

Author

Daniel Zachary, René Lanot, Pascal Manfruelli, and Mika Rämet

Subjects

Male, dorsal closure, Genes, Insect, wound healing, epithelial cell shape, Biology, Models, Biological, Animals, Genetically Modified, Gene expression, Phosphoprotein Phosphatases, Animals, Drosophila Proteins, epithelial morphogenetic process, Molecular Biology, JNK signaling, integumentary system, Kinase, Fos, Regeneration (biology), JNK Mitogen-Activated Protein Kinases, Genes, fos, Cell Biology, JUN kinase, Embryonic stem cell, Dorsal closure, Cell biology, Gene Expression Regulation, Lac Operon, puckered, Mutation, MAPK kinase pathway, Phosphorylation, Female, Drosophila, Mitogen-Activated Protein Kinases, Wound healing, dual specificity phosphatase, Signal Transduction, Developmental Biology

Abstract

Efficient wound healing including clotting and subsequent reepithelization is essential for animals ranging from insects to mammals to recover from epithelial injury. It is likely that genes involved in wound healing are conserved through the phylogeny and therefore, Drosophila may be an useful in vivo model system to identify genes necessary during this process. Furthermore, epithelial movement during specific developmental processes, such as dorsal closure, ressembles of those seen in mammalian wound healing. As puckered (puc) gene is a target of the JUN N-terminal kinase signaling pathway during dorsal closure, we investigated puc gene expression during wound healing in Drosophila. We showed that puc gene expression is induced at the edge of the wound in epithelial cells and Jun kinase is phosphorylated in wounded epidermal tissues, suggesting that the JUN N-terminal kinase signaling pathway is activated by a signal produced by an epidermal wound. In the absence of the Drosophila c-Fos homologue, puc gene expression is no longer induced. Finally, impaired epithelial repair in JUN N-terminal kinase deficient flies demonstrates that the JUN N-terminal kinase signaling is required to initiate the cell shape change at the onset of the epithelial wound healing. We conclude that the embryonic JUN N-terminal kinase gene cassette is induced at the edge of the wound. In addition, Drosophila appears as a good in vivo model to study morphogenetic processes requiring epithelial regeneration such as wound healing in vertebrates.

Published

2002

17. Regulatory Regions Driving Developmental and Tissue-Specific Expression of the Essential Pancreatic Gene pdx1

Author

Maureen Gannon, Christopher V.E. Wright, and Laura W. Gamer

Subjects

Male, Time Factors, endocrine system diseases, β cell, Mice, 0302 clinical medicine, Genes, Reporter, Gene expression, Tissue Distribution, Transgenes, Cells, Cultured, Regulation of gene expression, 0303 health sciences, islet, diabetes, Endoderm, Gene Expression Regulation, Developmental, pdx1, Lac Operon, Regulatory sequence, 030220 oncology & carcinogenesis, PDX1, Female, Beta cell, Heterozygote, endocrine system, organogenesis, Blotting, Western, Mice, Transgenic, Biology, digestive system, Islets of Langerhans, 03 medical and health sciences, Sex Factors, Animals, Humans, Genetic Predisposition to Disease, Pancreas, Molecular Biology, Transcription factor, Gene, Alleles, transgenic, 030304 developmental biology, Homeodomain Proteins, Reporter gene, Binding Sites, Models, Genetic, Cell Biology, Molecular biology, Protein Structure, Tertiary, Diabetes Mellitus, Type 2, Mutation, Trans-Activators, Transcription Factors, Developmental Biology

Abstract

pdx1 (pancreatic and duodenal homeobox gene-1), which is expressed broadly in the embryonic pancreas and, later, in a more restricted manner in the mature beta cells in the islets of Langerhans, is essential both for organ formation and beta cell gene expression and function. We carried out a transgenic reporter gene analysis to identify region- and cell type-specific regulatory regions in pdx1. A 14.5-kb pdx1 genomic fragment corrected the glucose intolerance of pdx1(+/-) animals but, moreover, fully rescued the severe gut and pancreas defects in pdx1(-/-) embryos. Sequences sufficient to direct reporter expression to the entire endogenous pdx1 expression domain lie within 4.3 kb of 5' flanking DNA. In this region, we identified two distinct fragments that drive reporter gene expression to different sets of islet neuroendocrine cells. One shows pan-endocrine cell specificity, the other is selectively activated in insulin-producing beta cells. The endocrine-specific regulatory regions overlap a localized region of 5' flanking DNA that is remarkably conserved in sequence between vertebrate pdx1 genes, and which has been associated with beta cell-selective expression in cultured cell lines. This region contains potential binding sites for several transcription factors implicated in endodermal development and the pathogenesis of some forms of type-2 diabetes. These results are consistent with our previous proposal that conserved upstream pdx1 sequences exert control over pdx1 during embryonic organogenesis and islet endocrine cell differentiation. We propose that mutations affecting the expression and/or activity of transcription factors operating via these sequences may predispose towards diabetes, at least in part by direct effects on endocrine pdx1 expression.

Published

2001

18. Connexin31-Deficiency in Mice Causes Transient Placental Dysmorphogenesis but Does Not Impair Hearing and Skin Differentiation

Author

Juergen Lautermann, Gaby Hallas, Boris Rosentreter, Achim Plum, Elke Winterhager, Klaus Willecke, Joerg Pesch, Claus Herberhold, and Otto Traub

Subjects

Male, inner ear, Cytoplasm, Time Factors, Connexin, Connexins, gene targeting, Mice, Erythrokeratodermia variabilis, Hearing, Genes, Reporter, Testis, Protein Isoforms, Skin, Mice, Knockout, Genetics, Stem Cells, Gene targeting, Cell Differentiation, Ear, Embryo, Immunohistochemistry, Gjb3, Blotting, Southern, medicine.anatomical_structure, Lac Operon, embryonic structures, Female, Cell Division, Connexin31, Gene isoform, Genotype, placenta, Offspring, Blotting, Western, Biology, Andrology, Audiometry, Placenta, medicine, Animals, Molecular Biology, Alleles, Crosses, Genetic, gap junctions, Placentation, Cell Biology, Blotting, Northern, Embryo, Mammalian, medicine.disease, Microscopy, Fluorescence, Connexin 43, Epidermis, Developmental Biology

Abstract

Mutations in the human GJB3 gene that codes for Connexin31 (Cx31), a protein subunit of gap junction channels, have recently been reported to cause deafness and the skin disorder erythrokeratodermia variabilis. To study the function of this gene in mice, we generated animals with targeted replacement of the Cx31 gene (Gjb3) by a lacZ reporter gene. Although homozygous Cx31-deficient adult mice (Gjb3(-/-)) were found among the offspring of heterozygous Cx31-deficient parents (Gjb3(+/-)), 60% of the animals expected according to Mendelian inheritance were lost between ED 10.5 and 13.5. Placentas of Gjb3(-/-) embryos at ED 9.5 were smaller than controls as a result of severely reduced labyrinth and spongiotrophoblast size. From ED 10.5 onward, placentas of surviving Gjb3(-/-) embryos recovered progressively and reached normal size and morphology by ED 18.5. This corresponds to a time period in which another connexin isoform, Connexin43, is upregulated in spongiotrophoblast cells of Cx31-deficient and control placentas. No morphological or functional defects of skin or inner ear were observed in surviving adult Gjb3(-/-) mice. We conclude that Cx31 is essential for early placentation but can be compensated for by other connexins in the embryo proper and adult mouse.

Published

2001

19. Functional Analysis of Spermatogonial Stem Cells in Steel and Cryptorchid Infertile Mouse Models

Author

Mary R. Avarbock, Takashi Shinohara, and Ralph L. Brinster

Subjects

Male, cryptorchid, medicine.medical_specialty, Time Factors, Cellular differentiation, Mutant, Cell, Mice, Transgenic, Biology, Mice, 03 medical and health sciences, 0302 clinical medicine, primordial germ cells (PGCs), Internal medicine, Cryptorchidism, Testis, medicine, Animals, Molecular Biology, Infertility, Male, 030304 developmental biology, spermatogonial stem cells, 0303 health sciences, 030219 obstetrics & reproductive medicine, Dose-Response Relationship, Drug, Cell Biology, Spermatozoa, Spermatogonia, Cell biology, Transplantation, Endocrinology, medicine.anatomical_structure, Lac Operon, Steel, Tissue Transplantation, Laminin, Stem cell, Spermatogenesis, Function (biology), Adult stem cell, Developmental Biology

Abstract

Spermatogenesis is a complex and productive process that originates from stem cell spermatogonia and ultimately results in formation of mature spermatozoa. The stem cell undergoes self-renewal throughout life, but study of its biological characteristics has been difficult because a very small number (2 to 3 in 104 cells) exist in the testis and they can only be identified by function. Although the development of the spermatogonial transplantation technique has provided an assay system for stem cells, efficient methods to enrich stem cells have not been available. Here, we examined two infertile mouse models, Steel/SteelDickie(Sl/Sld) and experimental cryptorchid, as a source of testis cell populations enriched in stem cells. The Sl/Sld testis showed little enrichment, which raises questions about how adult stem cell number is determined and about the currently accepted belief that adult stem cells are independent of Sl factor. The cells recovered from cryptorchid testes were enriched for stem cells 25-fold (colonies) or 50-fold (area) compared to wild-type testes. The cryptorchid condition does not affect stem cell activity, but eliminates almost all differentiated cells, and about 1 in 200 cells is a stem cell. Thus, cryptorchid testes provide an important approach for purification and characterization of spermatogonial stem cells.

Published

2000

20. Extrinsic Modulation of Retinal Ganglion Cell Projections: Analysis of the Albino Mutation in Pigmentation Mosaic Mice

Author

Robert W. Williams, Kristin Hamre, Seong-Seng Tan, Benjamin E. Reese, P.T. Johnson, Dan Goldowitz, and Dennis S. Rice

Subjects

Retinal Ganglion Cells, Genotype, genetic structures, Albinism, decussation, Tyrosinase, Optic chiasm, Mice, Inbred Strains, Giant retinal ganglion cells, tyrosinase, Biology, Retinal ganglion, Translocation, Genetic, chimera, Mice, 03 medical and health sciences, chemistry.chemical_compound, 0302 clinical medicine, medicine, Animals, Transgenes, Pigment Epithelium of Eye, Molecular Biology, 030304 developmental biology, 0303 health sciences, Retinal pigment epithelium, Histocytochemistry, Monophenol Monooxygenase, transgene, Retinal, Cell Biology, beta-Galactosidase, Molecular biology, eye diseases, Ganglion, mosaicism, medicine.anatomical_structure, Lac Operon, Retinal ganglion cell, chemistry, X-inactivation, sense organs, 030217 neurology & neurosurgery, Developmental Biology

Abstract

Tyrosinase is a key enzyme involved in the synthesis of melanin in the retinal pigment epithelium (RPE). Mice that are homozygous for the albino allele at the tyrosinase locus have fewer retinal ganglion cells with uncrossed projections at the optic chiasm. To determine the site of the albino gene action we studied the projections of retinal ganglion cells in two types of pigmentation mosaic mice. First, we generated mosaic mice that contain a translocated allele of the wild-type tyrosinase on one X chromosome but that also have the lacZ reporter transgene on the opposite X chromosome. In these lacZ/tyrosinase mice, which are homozygous for the albino allele on chromosome 7, X-inactivation ensures that tyrosinase cannot be functional within 50% of the retinal ganglion cells and that these individual cells can be identified by their expression of the lacZ reporter gene product, β-galactosidase. The proportion of uncrossed retinal ganglion cells expressing β-galactosidase was found to be identical to the proportion that did not express it, indicating that the albino mutation associated with axonal behavior at the optic chiasm must affect ganglion cells in a cell-extrinsic manner. Second, to determine whether the RPE is the source of the extrinsic signal, we generated aggregation chimeras between pigmented and albino mice. In these mosaic mice, the extent of the uncrossed projection corresponded with the amount of pigmented cells within the RPE, but did not correspond with the genotypes of neural retinal cells. These studies demonstrate that the albino mutation acts indirectly upon retinal ganglion cells, which in turn respond by making axonal guidance errors at the optic chiasm.

Published

1999

21. Multiple Developmental Roles of VEGF Suggested by a LacZ-Tagged Allele

Author

Lucile Miquerol, Janet Rossant, Andras Nagy, Kendraprasad Harpal, and Marina Gertsenstein

Subjects

Vascular Endothelial Growth Factor A, Endothelium, Angiogenesis, Recombinant Fusion Proteins, Neovascularization, Physiologic, Vascular permeability, Endothelial Growth Factors, IRES-lacZ knock-in, Biology, Cardiovascular System, gene targeting, vasculogenesis, Mice, angiogenesis, chemistry.chemical_compound, Vasculogenesis, Genes, Reporter, medicine, Animals, Receptors, Growth Factor, Embryo Implantation, Molecular Biology, Alleles, Embryonic Induction, Lymphokines, vascular endothelial growth factor, Vascular Endothelial Growth Factors, Ovary, Receptor Protein-Tyrosine Kinases, Cell migration, Genitalia, Female, Cell Biology, Molecular biology, Mice, Mutant Strains, endothelial cells, Cell biology, Vascular endothelial growth factor, Vascular endothelial growth factor A, Receptors, Vascular Endothelial Growth Factor, medicine.anatomical_structure, Lac Operon, chemistry, embryonic development, Female, Endothelium, Vascular, Developmental Biology

Abstract

Vascular endothelial growth factor (VEGF) is an angiogenic factor and a potent stimulator of microvascular permeability. It is a mitogen specific for endothelial cells. The expression of VEGF and its two receptors, Flk-1 and Flt-1, is pivotal for the proper formation of blood vessels in embryogenesis as shown by gene-targeting experiments. Interestingly, the loss of even a single allele of VEGF led to embryonic lethality between day E9.5 and day E10.5 in the mouse. To assess the role of VEGF during embryonic development we decided to tag VEGF expression with LacZ, by inserting an IRES (internal ribosome entry site)–LacZ reporter cassette into the 3′ untranslated region of the gene. This alteration enabled us to monitor VEGF expression throughout embryonic development at single-cell resolution. β-Galactosidase expression from the altered VEGF locus was first observed prior to gastrulation and was detectable at all stages of vascular development in the embryo. Later, the specific cellular distribution and the level of VEGF expression indicated its pleiotropic role in development. High expression levels seemed to be associated with vasculogenesis and permeability, whereas lower levels were associated with angiogenesis and cell migration. In addition, we found VEGF expression in a subtype of endothelial cells present in the endocardium. We believe that the LacZ-tagged allele we have generated offers a precise means of detecting VEGF expression under a variety of physiological and pathological conditions.

Published

1999

22. A Crucial Role forPax3in the Development of the Hypaxial Musculature and the Long-Range Migration of Muscle Precursors

Author

Denise Paulin, Frank Schubert, Susanne Dietrich, Mathias Mericskay, Patrick Tremblay, and Zhenlin Li

Subjects

Mesoderm, Appendicular skeleton, PAX3, desmin, β-galactosidase, Dermomyotome, Mice, Transgenic, Biology, migration, mouse mutant, Splotch, skeleton development, Embryonic and Fetal Development, Mice, muscle precursors, medicine, Paraxial mesoderm, Animals, Paired Box Transcription Factors, Myocyte, Transgenes, Muscle, Skeletal, PAX3 Transcription Factor, development, Molecular Biology, Bone Development, Pax3, Histocytochemistry, Pax genes, Gene Expression Regulation, Developmental, Anatomy, Cell Biology, musculoskeletal system, dermis, DNA-Binding Proteins, medicine.anatomical_structure, Lac Operon, Mutation, embryonic structures, muscle development, Desmin, paired box, Transcription Factors, Developmental Biology

Abstract

Activated by dorsalizing and lateralizing signals, the Pax3 gene is an early marker for the entire paraxial mesoderm and its dorsal derivative, the dermomyotome. Later, its expression becomes restricted to the lateral dermomyotome and to the migratory muscle precursors giving rise to the hypaxial musculature. To understand better the role that Pax3 plays during development of paraxial mesoderm-derived structures, we followed the development of the musculature and skeleton in the murine Pax3 mutant Splotch. We found that the mutant dermomyotomes and myotomes failed to organize and to elongate medially and laterally, leading to the reduction and malformation of the entire trunk musculature. Mutants lacked ventral aspects of the body wall musculature and muscles derived from migratory myoblasts, suggesting a crucial function for Pax3 in the long-range migration of muscle precursors giving rise to the ventral hypaxial musculature. In addition, severe malformations were detected in the skeleton. The axial and appendicular skeleton displayed malformations and in particular multiple bone fusions.

Published

1998

23. Sertoli Cell Differentiation and Y-Chromosome Activity: A Developmental Study of X-Linked Transgene Activity in Sex-Reversed X/XSxraMouse Embryos

Author

Patrick P.L. Tam, Robyn V. Jamieson, Peter Koopman, Sheila X. Zhou, and Susan C. Wheatley

Subjects

Male, endocrine system, X Chromosome, Somatic cell, Genetic Linkage, Transgene, Morphogenesis, Disorders of Sex Development, Mice, Transgenic, Biology, Y chromosome, Polymerase Chain Reaction, Mice, Dosage Compensation, Genetic, Y Chromosome, Testis, medicine, Animals, Genitalia, Molecular Biology, X chromosome, DNA Primers, Sertoli Cells, Base Sequence, urogenital system, Sertoli cell differentiation, Mosaicism, Nuclear Proteins, Cell Differentiation, Cell Biology, Sertoli cell, Molecular biology, Mice, Mutant Strains, Sex-Determining Region Y Protein, DNA-Binding Proteins, Mice, Inbred C57BL, medicine.anatomical_structure, Lac Operon, Mice, Inbred DBA, Female, Germ line development, Transcription Factors, Developmental Biology

Abstract

The requirement of Y-chromosome activity for the differentiation of somatic cells and germ cells was studied in the fetal gonads of X/XSxra mouse embryos where the activity of the Sxra fragment of the Y chromosome is influenced by the inactivation and reactivation of the X chromosome. In the interstitial somatic cells, random inactivation of the X and the XSxra chromosomes took place which was revealed by the mosaic expression of an X-linked lacZ transgene. The Sertoli cells, however, displayed a preferentially active XSxra chromosome and the presence of Sxra-active Sertoli cells was associated with the morphogenesis of testicular tubules in the sex-reversed gonads. The activity of the Y-chromosome fragment is therefore necessary for the differentiation of the Sertoli cells which may direct the development of the testis. The expression pattern of the X-linked transgene in X/XSxra germ cells suggests that both the X and the XSxra chromosomes are active. This finding suggests that the presence of Sxra has no impact on the reactivation of the X chromosome in the germ cells and that the X chromosome can be reactivated even though the germ cells are found in the testicular environment. Our results are consistent with the concept that the activity of genes on the XSxra fragment is essential for the differentiation of Sertoli cells and the morphogenesis of the testis, but not for premeiotic differentiation of germ cells in sex-reversed mice.

Published

1998

24. Dynamic Patterns of Retinoic Acid Synthesis and Response in the Developing Mammalian Heart

Author

Nadia Rosenthal, Sara M. Nayeem, José Xavier-Neto, Michael D. Shapiro, Ursula C. Dräger, Peter McCaffery, and Jennifer Barnett Moss

Subjects

medicine.medical_specialty, Retinal dehydrogenase, Response element, Morphogenesis, Retinoic acid, Aorta, Thoracic, Mice, Transgenic, Tretinoin, In Vitro Techniques, Regulatory Sequences, Nucleic Acid, Biology, Gene Expression Regulation, Enzymologic, Bulbus cordis, Mice, 03 medical and health sciences, chemistry.chemical_compound, 0302 clinical medicine, Cytochrome P-450 Enzyme System, Internal medicine, medicine, Animals, Tissue Distribution, Molecular Biology, Endocardium, 030304 developmental biology, Regulation of gene expression, 0303 health sciences, Heart development, Gene Expression Regulation, Developmental, Retinal Dehydrogenase, Heart, Cell Biology, Retinoic Acid 4-Hydroxylase, beta-Galactosidase, Aldehyde Oxidoreductases, Recombinant Proteins, Cell biology, Isoenzymes, Teratogens, Endocrinology, Lac Operon, chemistry, embryonic structures, Oxygenases, 030217 neurology & neurosurgery, Developmental Biology

Abstract

Retinoic acid (RA) has been implicated in cardiac morphogenesis by its teratogenic effects on the heart, although its role in normal cardiogenesis remains unknown. To define the parameters of RA action in cardiac morphogenesis, we analyzed the patterns of ligand synthesis, response, and inactivation in the developing mouse heart. Activation of a lacZ transgene controlled by an RA response element (RARE) was compared to the localization of the retinaldehyde-oxidizing dehydrogenase RALDH2, the earliest RA synthetic enzyme in the mouse embryo, and to the expression of a gene encoding an RA-degrading enzyme (P450RA). We observed that RALDH2 localization and RA response were virtually superimposable throughout heart development. Initially, both RALDH2 and RARE-LacZ activity were restricted to the sinus venosa in unlooped hearts, but were high in the dorsal mesocardium, while P450RA expression was restricted to the endocardium. Later stages were characterized by a sequential, noncontiguous progression of RALDH2 accumulation and RA response, from the sinus venosa to atria, dorsal–medial conotruncus, aortic arches, and the epicardium. This dynamic pattern of RA response was a direct result of localized RALDH2, since hearts of cultured embryos were uniformly competent to respond to an exogenous RA challenge. These observations support a model in which the influence of endogenous RA on heart development depends upon localized presentation of the ligand, with only limited diffusion from the source of its synthesis.

Published

1998

25. The slug gene is not essential for mesoderm or neural crest development in mice

Author

Yu Lan, John P. Sundberg, Christine R. Norton, Thomas Gridley, and Rulang Jiang

Subjects

Male, Mesoderm, animal structures, Slug, Molecular Sequence Data, Mice, Pregnancy, medicine, Animals, Amino Acid Sequence, Cloning, Molecular, Molecular Biology, Genetics, biology, Primitive streak, Embryogenesis, Neural crest, Zinc Fingers, Cell Biology, biology.organism_classification, medicine.anatomical_structure, Lac Operon, Neural Crest, Mutation, embryonic structures, Mesoderm formation, Female, Snail Family Transcription Factors, PAX7, NODAL, Transcription Factors, Developmental Biology

Abstract

The Slug gene encodes a zinc finger protein, homologous to the product of the Drosophila Snail gene, that is implicated in the generation and migration of both mesoderm and neural crest cells in several vertebrate species. We describe here the cloning and genetic analysis of the mouse Slug (Slugh) gene. Slugh encodes a 269-amino-acid protein that shares 92% amino acid identity with the product of the chicken Slug gene. We have characterized Slugh gene expression during early mouse embryogenesis by whole mount in situ hybridization of Slugh mRNA and through detection of β-galactosidase expression from an in-frame SlughlacZ allele generated through homologous recombination. Slugh expression is first detected in extraembryonic mesoderm and is later detected in many mesodermal subsets, although it is not detected in the primitive streak. In contrast to many other vertebrates, the mouse Slug gene is not expressed in premigratory neural crest cells but is expressed in migratory neural crest cells. Analysis of a targeted null mutation that deleted all Slugh coding sequences revealed that Slugh is not required for mesoderm formation or for neural crest generation, migration, or development in mice. These results indicate that neither the expression pattern nor the biological function of the Slug gene is conserved among all vertebrates. These data also raise interesting questions about the regulation of neural crest generation, which is one of the distinguishing characteristics of the vertebrate subphylum.

Published

1998

26. GDNF Induces Branching and Increased Cell Proliferation in the Ureter of the Mouse

Author

Carmen Pepicelli, Andreas Kispert, Andrew P. McMahon, and David H. Rowitch

Subjects

Male, medicine.medical_specialty, Mesenchyme, animal diseases, Mice, Transgenic, Nerve Tissue Proteins, SOX9, Models, Biological, Mice, Organ Culture Techniques, Downregulation and upregulation, Internal medicine, medicine, Glial cell line-derived neurotrophic factor, Animals, Glial Cell Line-Derived Neurotrophic Factor, Nerve Growth Factors, Receptor, Transcription factor, Molecular Biology, Glycoproteins, Regulation of gene expression, biology, Cell growth, urogenital system, Gene Expression Regulation, Developmental, Cell Biology, Up-Regulation, Cell biology, Mice, Inbred C57BL, Wnt Proteins, Endocrinology, medicine.anatomical_structure, Lac Operon, nervous system, Mice, Inbred CBA, biology.protein, Female, Ureter, Cell Division, Developmental Biology

Abstract

The secreted signaling molecule GDNF is expressed in the metanephric mesenchyme and has recently been implicated as a factor necessary for development of the metanephric kidney. We have examined the effects of GDNF on mouse kidney explants. We show that GDNF increases cell proliferation in ureter tips. There is an increase in the number of ureter tips and expansion and fusion of adjacent tips and some tips appear to grow toward the source of GDNF. These events are accompanied by transcriptional upregulation of several genes localized to the tips, including its own receptor,c-ret,the transcription factorSox9,and the signalWnt-11.These results support a model in which GDNF supplied by the mesenchyme regulates growth and branching in the metanephric kidney through the local regulation of ureter tip-specific factors.

Published

1997

27. TPromoter Activity in the Absence of Functional T Protein during Axis Formation and Elongation in the Mouse

Author

David Stott, Christel Schmidt, Valerie Wilson, and Rosa S. P. Beddington

Subjects

Fetal Proteins, Mesoderm, Brachyury, Fibroblast Growth Factor 4, Biology, Fibroblast growth factor, FGF and mesoderm formation, Cell Line, Embryonic and Fetal Development, Mice, Proto-Oncogene Proteins, medicine, Animals, Promoter Regions, Genetic, Molecular Biology, Axis elongation, Transcription factor, Chimera, Primitive streak, Gene Expression Regulation, Developmental, Gastrula, Cell Biology, Molecular biology, Clone Cells, DNA-Binding Proteins, Fibroblast Growth Factors, Mice, Inbred C57BL, Gastrulation, medicine.anatomical_structure, Lac Operon, Mice, Inbred CBA, T-Box Domain Proteins, Transcription Factors, Developmental Biology

Abstract

The T (Brachyury) gene, which encodes a transcription factor, is involved in the formation of posterior mesoderm. Although studies in Xenopus have shown that T gene expression is responsive to mesoderm inducing factors and furthermore suggest the existence of an autoregulatory loop involving T itself, eFGF, and the FGF receptor, little is known about the regulation of T expression in the mouse. We report here that in the mouse the expression of fgf-4, the putative homologue of Xenopus efgf, is not dependent on the presence of T protein during the first 48 hr of gastrulation. Furthermore, we address the question of autoregulation using a chimeric approach. Introduction of a T promoter-lacZ construct into T/T ES cells results in T promoter activity in the primitive streak and tail bud in the absence of functional T protein. Therefore, we suggest that a direct FGF and T autoregulatory loop is unlikely to operate during gastrulation and axis elongation in the mouse.

Published

1997

28. Developmental Potential of Rat L6 Myoblastsin VivoFollowing Injection into Regenerating Muscles

Author

Christopher L. Pin and Peter Merrifield

Subjects

Gene isoform, Cellular differentiation, Muscle Fibers, Skeletal, Fluorescent Antibody Technique, Biology, Muscle Development, Cell Line, In vivo, Myosin, Animals, Regeneration, Myocyte, Rats, Wistar, Muscle, Skeletal, Neural Cell Adhesion Molecules, Molecular Biology, Myosin Heavy Chains, Antibodies, Monoclonal, Cell Differentiation, Cell Biology, beta-Galactosidase, musculoskeletal system, Immunohistochemistry, Molecular biology, Embryonic stem cell, Rats, Lac Operon, Cell culture, Neural cell adhesion molecule, tissues, Developmental Biology

Abstract

To examine the relative importance of myoblast lineage and environmental influences on the development of muscle fiber types in vivo, the phenotype of muscle fibers formed from rat L6 myoblasts was examined following their injection into different regenerating adult muscles. Myoblasts were infected with a retroviral vector carrying a LacZ reporter gene and their fate in vivo was examined using a panel of antibodies against various myosin heavy chain (MyHC) isoforms. Since L6 myoblasts express IIX MyHC following differentiation in vitro, we wanted to determine if they would form IIX muscle fibers in vivo and whether innervation would alter this fate. Following injection, L6 cells either fused with each other to form homotypic fibers or fused with host muscle cells to form heterotypic fibers. Initially, homotypic fibers expressed embryonic MyHC-similar to L6 myotubes in vitro. However, by 4 weeks postinjection IIX MyHC had replaced embryonic MyHC as the predominant isoform. Single fiber analysis using an antibody specific for NCAM indicated that this transition was independent of innervation. Analysis of heterotypic fibers resulting from the incorporation of donor L6 myoblasts into host fast IIA and IIB fibers revealed that L6-derived nuclei express embryonic and IIX MyHCs for up to 8 weeks postinjection, often as nuclear domains surrounding L6 nuclei. These results suggest that MyHC expression in muscle fibers derived from L6 myoblasts is regulated, in part, by intrinsic factors that limit the fiber type potential of these cells in vivo.

Published

1997

29. Analysis of Neural Crest Cell Migration in Splotch Mice Using a Neural Crest-Specific LacZ Reporter

Author

George N. Serbedzija and Andrew P. McMahon

Subjects

Male, animal structures, Organogenesis, Chick Embryo, Biology, Mice, Mice, Neurologic Mutants, Cell Movement, Pregnancy, Proto-Oncogene Proteins, medicine, Animals, Paired Box Transcription Factors, PAX3 Transcription Factor, Molecular Biology, Neural fold, Neural tube, Neural crest, Cell Biology, Anatomy, Zebrafish Proteins, Embryo, Mammalian, beta-Galactosidase, Cell biology, DNA-Binding Proteins, Wnt Proteins, Somite, medicine.anatomical_structure, Neurulation, Lac Operon, Neural Crest, Mutation, embryonic structures, Female, Mitogens, Neural crest cell migration, Neural plate, Transcription Factors, Developmental Biology

Abstract

Studies on the mouseSplotch(Sp) mutation, a deletion in the transcription factor Pax-3, have revealed that Pax-3 is essential for normal development of the neural crest. We have investigated the defect in neural crest development using a Wnt-l::LacZ reporter construct to mark neural crest cells. Staining embryos for β-galactosidase activity at different developmental stages revealed a severe reduction in the number of neural crest cells which emigrated from the neural tube at the vagal and rostral trunk levels. At the caudal thoracic, lumbar, and sacral levels there was a complete loss of neural crest cell emigration. In contrast to previous work in culture, we saw no evidence for any delay in the onset of neural crest cell migration at anterior levels. Pax-3 is expressed in the dorsal neural tube, where the neural crest cells originate, in migrating neural crest cells, and in somitic cells along the migratory pathway. Hence, it is not clear which aspect of the Pax-3 expression accounts for the observed phenotype. We addressed this problem by transplanting neural tissue between mouse and chick embryos. Our studies indicate that the defect in theSplotchmutation is not intrinsic to the neural crest cells themselves, but appears to reflect inappropriate cell interactions either within the neural tube or between the neural tube and the somite.

Published

1997

30. Multiplecis-Acting Elements Act Cooperatively in Directing Trochoblast-Specific Expression of the α-tubulin-4 Gene inPatellaEmbryos

Author

André E. van Loon and Wim G.M. Damen

Subjects

Functional assay, Cell type, Molecular Sequence Data, Polymerase Chain Reaction, Evolution, Molecular, Genes, Reporter, Tubulin, Animals, Promoter Regions, Genetic, Gene, Molecular Biology, Sequence (medicine), Sequence Deletion, Genetics, biology, Base Sequence, Models, Genetic, Genetic Complementation Test, Gene Expression Regulation, Developmental, Embryo, DNA, Cell Biology, Expression (computer science), Lac Operon, Oligodeoxyribonucleotides, Mollusca, biology.protein, Cis-regulatory element, Developmental Biology

Abstract

During early embryogenesis of the mollusc Patella vulgata the alpha-tubulin-4 gene is specifically expressed in the differentiation process of a particular cell type, the trochoblasts. The 5' region of the gene has been analysed for elements that are required for the regulation of the cell-type-specific activation of the gene. In a functional assay, seven elements that play a role in the spatiotemporal activation of the gene were detected in the promoter sequence. They are not required all together at the same time. A core of two elements, together with two or three auxiliary elements, are sufficient in controlling trochoblast-specific expression of the gene in the Patella embryo. One of the core elements is always required, without it, the gene is not expressed at all. The other core element acts as a positive element in trochoblasts and as a negative element in non-trochoblasts and thus is involved in directing the cell-type specificity of expression. The seven elements act cooperatively, and at least some of them can substitute for each other. Sequence comparison revealed that six of the seven fragments contain the sequence element GTTAA, including one of the core elements. Both core elements seem to play a crucial role in the expression of the alpha-tubulin-4 gene during the differentiation process of trochoblasts in the Patella embryo. A model for the regulation of the cell-type specificity of the gene during trochoblast differentiation is proposed.

Published

1996

31. The cAMP Receptor Subtype cAR2 Is Restricted to a Subset of Prestalk Cells duringDictyosteliumDevelopment and Displays Unexpected DIF-1 Responsiveness

Author

Chris Haynes, Yimin Yu, Andrea L. Bauman, Cheryl Jones, and Charles L. Saxe

Subjects

Molecular Sequence Data, Cell, Fluorescent Antibody Technique, lac operon, Receptors, Cyclic AMP, Fusion gene, Gene expression, Hydrocarbons, Chlorinated, Extracellular, medicine, Animals, Dictyostelium, Amino Acid Sequence, Caenorhabditis elegans Proteins, Receptor, Gene, Molecular Biology, biology, fungi, Proteins, Helminth Proteins, Cell Biology, biology.organism_classification, Cell biology, Hexanones, medicine.anatomical_structure, Immunology, Carrier Proteins, Plasmids, Developmental Biology

Abstract

Dictyostelium discoidium cells express a family of cell surface cAMP receptors, and these G-protein-coupled receptors are each expressed with unique spatial and temporal patterns. One of these receptors, cAR2, is present during the postaggregative stages of development and our previous work suggests that it is preferentially expressed in prestalk cells. We report here the isolation of the promoter for carB, the gene which encodes cAR2. Using this fragment to generate a carB::lacZ gene fusion construct, we investigated carB expression in detail. Expression is first detected at the tight aggregate stage and subsequently in a pattern reminiscent of the prestalk-specific gene ecmA. There are subtle differences, however, with ecmA being expressed significantly in the anterior-like cells of the migrating pseudoplasmodium and in the basal disc and lower cup supporting the sorus during terminal development. carB is not expressed in any of these places. The presence of these different prestalk cell subtypes was confirmed by double indirect immunofluorescence using anti-cAR2 and antib-galactosidase antibodies. While virtually all cAR2-expressing cells also express ecmA::lacZ, a substantial fraction of ecmA::lacZ-positive cells do not express cAR2. We also found the regulation of carB gene expression to differ from that of ecmA. carB expression is induced in vitro by extracellular cAMP, but surprisingly, not by DIF-1, a soluble molecule thought to be essential for the initiation of prestalk differentiation. Thus, cAR2 appears to be a cAMP receptor present on a restricted subset of prestalk cells and whose expression does not respond typically to the prestalk inducer DIF-1. DIF-1 sensitivity may, therefore, not be characteristic of all early prestalk differentiation. q 1996 Academic Press, Inc.

Published

1996

32. The Distal Human myoD Enhancer Sequences Direct Unique Muscle-Specific Patterns of lacZ Expression during Mouse Development

Author

Alexander Faerman, Moshe Shani, David J. Goldhamer, Raisa Puzis, and Charles P. Emerson

Subjects

Genetically modified mouse, Transgene, Mice, Transgenic, Biology, MyoD, Mice, Pregnancy, Myotome, medicine, Animals, Humans, Enhancer, Molecular Biology, MyoD Protein, Regulation of gene expression, PITX2, Muscles, Gene Expression Regulation, Developmental, Cell Biology, beta-Galactosidase, Molecular biology, Somite, Enhancer Elements, Genetic, medicine.anatomical_structure, Lac Operon, Female, Developmental Biology

Abstract

Transgenic mice carrying the bacterial lacZ reporter gene under the control of the regulatory elements of the human myoD gene have been produced. The developmental expression of the myoD reporter transgene in somites, limb buds, visceral arches, and cephalocervical regions was studied in transgenic embryos by β-gal staining. In somites, the spatiotemporal pattern of transgene expression was different from other muscle-specific regulatory and structural genes and revealed that myoD-expressing cells arise in distinct patterns in somites that are dependent on position along the anterior-posterior (AP) body axis (occipital and cervical vs thoracic and more posterior myotomes). Transgene expression did not follow a strict anterior to posterior sequence of activation and therefore was not strictly correlated with somite developmental age. Moreover, the pattern of transgene expression along the dorsal-ventral myotomal axis was dependent on somite position along the anterior-posterior axis. While myoD expression is first detected after the myotome is well-formed, transgene expression in the dorsal and ventral medial lips of the dermatome suggests a function for myoD in the expansion of the myotome. Whole-mount in situ hybridization confirmed that these unique patterns of transgene expression in somites, as well as expression in limb buds, visceral arches, and other myogenic centers, are concordant with the distribution of endogenous myoD transcripts. These results shed new light on the developmental differences between myotomes at different positions along the AP and DV axis and demonstrate a unique axial pattern of somitic myoD expression, suggesting a specific role of myoD in myotome lineage determination and differentiation.

Published

1995

33. A Cell-Autonomous, Ubiquitous Marker for the Analysis of Drosophila Genetic Mosaics

Author

Patrick H. O'Farrell, Jean-Paul Vincent, and Charles H. Girdham

Subjects

Transgene, Molecular Sequence Data, Stem cell marker, Fusion gene, biology.animal, Drosophilidae, Animals, Drosophila Proteins, Molecular Biology, Gene, Armadillo Domain Proteins, Genetics, Base Sequence, biology, Mosaicism, Proteins, Cell Biology, biology.organism_classification, Lac Operon, Armadillo, Trans-Activators, Drosophila, Developmental biology, Drosophila Protein, Transcription Factors, Developmental Biology

Abstract

Mosaic analysis, the study of animals containing cells of two different genotypes, has been used to address a wealth of questions in developmental biology. Up to now, the cell markers used to distinguish cells of the two genotypes have only been applicable to specific experimental situations (e.g., only in adult wings). We have designed a general purpose cell marker for mosaic analysis. It consists of the bacterial LacZ gene expressed under the control of the constitutive promoter of the Drosophila armadillo gene. Transformants carrying this fusion gene express beta-galactosidase in all tissue and at all stages analyzed. Zygotic expression is detectable as early as gastrulation. In mosaics obtained by nuclear transplantation, cells carrying the transgene are easily distinguished from beta-galactosidase-negative host cells. The marker should also be useful for mosaics generated with the "Flp technique."

Published

1994

34. ES-cells Carrying Two Inactivated myf-5 Alleles Form Skeletal Muscle Cells: Activation of an Alternative myf-5-Independent Differentiation Pathway

Author

Hans-Henning Arnold and Thomas Braun

Subjects

Muscle Proteins, Embryoid body, Biology, MyoD, Mice, medicine, Animals, Myocyte, Molecular Biology, Alleles, Cells, Cultured, MyoD Protein, Myogenesis, Muscles, Stem Cells, Skeletal muscle, Cell Differentiation, Cell Biology, Embryo, Mammalian, Embryonic stem cell, Molecular biology, DNA-Binding Proteins, medicine.anatomical_structure, P19 cell, Lac Operon, Mutation, Trans-Activators, Myogenin, Myogenic Regulatory Factor 5, Stem cell, Developmental Biology

Abstract

Both alleles of the myogenic regulatory gene myf-5 have been inactivated in mouse embryonic stem cells by different strategies involving either consecutive gene targeting with neomycin and hygromycin replacement vectors or spontaneous loss of heterozygosity in cells targeted with the neomycin replacement vector alone. Both selection schemes provided homozygous myf-5 mutant ES-cells with normal developmental potential in vitro. Embryoid bodies differentiated into skeletal muscle cells as assessed by their typical morphology and skeletal muscle markers. The extent of differentiation in homozygous mutant myf-5 embryonic stem cells was virtually indistinguishable from control cultures, suggesting that myf-5 is not required for the early steps of myogenic development in vitro. While myocyte populations derived from wild-type and heterozygous myf-5 mutant ES-cells contained myoD-positive and myoD-negative cells, no myoD-negative muscle cells were found among myf-5 homozygous mutants. Differentiated myf-5 double-knockout cells also showed a premature expression of myoD. These results indicate a compensatory role of myoD and myf-5 during early myocyte development and suggest a possible down-regulation of myoD by myf-5 during early myogenesis.

Published

1994

35. Directed Overexpression of Suppressor 2 of zeste and Posterior Sex Combs Results in Bristle Abnormalities in Drosophila melanogaster

Author

Paul N. Adler, Elisabeth Martin, and Edward J. Sharp

Subjects

Genetics, Polytene chromosome, biology, Sense organ, Chromosome Mapping, Cell Biology, biology.organism_classification, Bristle, Molecular biology, Posterior Sex Combs, Congenital Abnormalities, White (mutation), Drosophila melanogaster, Gene Expression Regulation, Lac Operon, Drosophilidae, Mutation, Animals, Enhancer trap, Molecular Biology, Heat-Shock Proteins, Developmental Biology

Abstract

Three dominant second-chromosome rearrangement mutations in Drosophila melanogaster, Aristapedioid1 (Arp), vestigial-Depilate (vgD), and vestigial62 (vg62), result in developmental abnormalities of the bristle sense organs on the notum, abdomen, legs, and wing margin. The bristle abnormalities are associated with overexpression of Suppressor 2 of zeste (Su(z)2). We constructed and transformed into flies Hsp70:cDNA constructs for Su(z)2 and the related and neighboring Polycomb group (Pc-G) gene Posterior Sex Combs (Psc). Heat shock-induced overexpression of these two genes (hs-Su(z)2 and hs-Psc) resulted in similar bristle abnormalities that in a developmental stage-specific manner mimicked those seen with the three rearrangement mutations. In addition, hs-Psc overexpression at white prepupae was lethal. The bristle abnormalities are reminiscent of those seen with reduced function of Notch, a neurogenic gene. We found that hs-Su(z)2 overexpression reduced the expression of a lac z enhancer trap in the neurogenic gene neuralized. Previous experiments found that loss of function mutations in Su(z)2 resulted in no bristle abnormalities. Analysis of Psc mitotic clones revealed no essential function of Psc in bristle development. Antibody staining of salivary gland polytene chromosomes showed that after heat shock induction of hs-Psc, Psc protein binds ectopically to hundreds of polytene chromosome loci. These data suggest that the bristle abnormalities seen with overexpression of Su(z)2 and Psc may result from altered expression of genes involved in bristle sense organ development that are not normal regulatory targets of these genes.

Published

1994

36. A Complete Culture System for Avian Transgenesis, Supporting Quail Embryos from the Single-Cell Stage to Hatching

Author

Kiyokazu Agata, Tamao Ono, Makoto Mizutani, Makoto Mochii, Katsumasa Otsuka, Taro Murakami, Goro Eguchi, Motoyoshi Ohta, Motokazu Yoshida, and Katsutoshi Kino

Subjects

animal structures, food.ingredient, Gene Expression, Coturnix, Animals, Genetically Modified, Andrology, Organ Culture Techniques, food, biology.animal, Yolk, Animals, Eggshell, Molecular Biology, biology, Hatching, Embryogenesis, Embryo culture, Embryo, Cell Biology, Anatomy, Actins, Quail, Transgenesis, Lac Operon, embryonic structures, Female, Developmental Biology

Abstract

We report here a method to produce quail hatchlings by culture in vitro from the single-cell stage. The culture is composed of three steps. In the first step, the fertilized ovum surrounded by thick albumen obtained from the magnum is cultured for 24 hr at 41.5 degrees C in a tightly sealed 20-ml plastic cup with chicken thin albumen added to the equator level of the ovum (System Q1). In the second step, a quail egg shell, cut horizontally and emptied, is used as a bed shell. After the thick albumen is removed, the embryo with egg yolk is transferred to the bed shell and thin albumen from chicken eggs is added to fill the shell. Then, the embryo is cultured for an additional 52 hr at 37.5 degrees C while being rocked at an angle of 90 degrees at 30-min intervals (System Q2). The embryo is transferred again to a chicken bed shell and cultured at 37.5 degrees C with rocking at a 30-degree angle (System Q3). Just before hatching, the rocking of embryos is stopped. The procedure yielded a hatchability of 25%. For transgenesis, a plasmid construct containing a beta-actin-lacZ hybrid gene (pMiwZ) is microinjected into the ovum at the single-cell stage, which is cultured in vitro for 85-90 hr using Systems Q1 and Q2 consecutively. Seven out of 17 surviving embryos exhibited lacZ gene expression in embryonic tissues as detected by histochemistry. The procedure described here should be highly applicable for the production of transgenic birds.

Published

1994

37. lacZ Expression in Germline Transgenic Zebrafish Can Be Detected in Living Embryos

Author

Samuel Yang, Shuo Lin, and Nancy Hopkins

Subjects

biology, Transgene, Xenopus, Gene Expression, Embryo, Cell Biology, biology.organism_classification, Molecular biology, Germline, Midblastula, Animals, Genetically Modified, Lac Operon, embryonic structures, Gene expression, Animals, Female, Molecular Biology, Gene, Zebrafish, Developmental Biology

Abstract

Use of transgenic technology in zebrafish has been limited by the inability to efficiently express transgenes in early embryos of F1 and subsequent generations and to rapidly detect transgenic fish. We generated transgenic fish by injecting fertilized eggs with the Escherichia coli lacZ gene under the control of the Xenopus elongation factor 1α transcriptional regulatory element. Four of five lines of transgenic fish we obtained express the lacZ gene in early embryos. The pattern of expression was distinct for each line, with two lines showing extensive expression beginning at approximately the midblastula transition, one showing patchy expression and one showing expression almost exclusively in motor neurons. Expression patterns were stable through the F2 generation in the three lines studied to date. The availability of these lines facilitated the development of a reliable and rapid method for live-staining lacZ-expressing embryos using the substrate fluorescein-di-β- d -galactopyranoside (FDG). Positive embryos of the two most highly lacZ-expressing lines could be identified after 2-3 min of staining in FDG and then picked out and raised. These observations should prove useful for a variety of studies in zebrafish.

Published

1994

38. The Expression of the Drosophila awd Gene during Normal Development and in Neoplastic Brain Tumors Caused by lgl Mutations

Author

Jing Xu, Elizabeth Woodhouse, Lian-Zheng Liu, Evelyn Hersperger, Lisa Timmons, and Allen Shearn

Subjects

Transcription, Genetic, Mutant, Gene Expression, Biology, Transcription (biology), Gene expression, Animals, Drosophila Proteins, Molecular Biology, Gene, Genetics, Reporter gene, Brain Neoplasms, Kinase, fungi, Brain, Cell Biology, Molecular biology, Nucleoside-diphosphate kinase, Imaginal disc, Lac Operon, Insect Hormones, Nucleoside-Diphosphate Kinase, Mutation, Drosophila, Developmental Biology

Abstract

The abnormal wing discs (awd) gene of Drosophila is homologous to the nm23 gene of mammals, a gene whose expression is altered in metastatic tumors. Both awd and nm23 encode nucleoside diphosphate kinases (NDP kinases). We have examined the accumulation of AWD/NDP kinase during normal development by assaying enzyme activity in extracts. There is a nearly constant level of activity throughout larval and pupal development. We have examined the tissue-specific transcription of the awd gene by RNA in situ hybridization and by reporter gene expression. In imaginal discs and brains there is no detectable awd gene expression until the beginning of the third larval instar, despite the constant level of enzyme activity measured in extracts of larvae and pupae. The most intense awd gene expression in imaginal discs and brains occurs after the end of larval development. We have also examined awd gene expression in neoplastic brain tumors caused by mutations in the lethal giant larvae (lgl) gene. In lgl mutant brains, as in normal brains, awd gene expression begins during the third larval instar. No tumors form in brains from lgl-; awd- double mutant larva, so awd gene expression is required for tumor formation and/or proliferation. There is more accumulation of AWD/NDP kinase in lgl- mutant brains than there is in normal brains. Using an awd reporter gene, we show that this is a consequence of an increased proportion of awd gene-expressing cells in mutant brains. Using the same awd reporter gene as a marker of donor cells, we have confirmed the invasiveness of lgl-induced neuroblastomas.

Published

1993

39. Enhancer Regions Responsible for Temporal and Cell-Type-Specific Expression of a Spore Coat Gene in Dictyostelium

Author

William F. Loomis and Kathy Fosnaugh

Subjects

Recombinant Fusion Proteins, Genes, Fungal, Molecular Sequence Data, Protozoan Proteins, lac operon, Regulatory Sequences, Nucleic Acid, Polymerase Chain Reaction, Dictyostelium discoideum, Fungal Proteins, Gene expression, Extracellular, Animals, Dictyostelium, Enhancer, Molecular Biology, Gene, Sequence Deletion, Genetics, Base Sequence, biology, fungi, Cell Biology, Spores, Fungal, beta-Galactosidase, biology.organism_classification, Cell biology, Kinetics, Enhancer Elements, Genetic, Oligodeoxyribonucleotides, Regulatory sequence, Developmental Biology

Abstract

The extracellular spore coat of Dictyostelium discoideum is composed of three major proteins, SP96, SP70, and SP60, encoded by the cotA, cotB, and cotC genes, respectively. The spore coat proteins are coordinately synthesized in prespore cells shortly after aggregation, stored in prespore vesicles during the slug stage, and secreted during encapsulation of spores. We have ligated various portions of the upstream region of cotB to lacZ such that a protein consisting of the first nine amino acids of SP70 fused to beta-galactosidase is synthesized in prespore cells. Individual cells that accumulate the enzyme can be observed in situ during early aggregation due to the sensitivity of the assay. We have found that prespore cells first appear in a random distribution throughout the aggregates with no indication of spatial localization. They subsequently sort out from prestalk cells that form a tip on the aggregates. The cotB regulatory region was subdivided into a proximal and a distal region, each of which could independently direct proper temporal and cell-type control. Transcriptional activity directed by these two regions appears to be additive in the full-length regulatory region. The proximal region was shown to be complex in that removal of certain portions partially reduced transcriptional activity while removal of other portions abolished all activity. Nevertheless, cells transformed with constructs showing attenuated activity expressed the fusion gene at the proper time in development and the activity was localized to prespore cells. The cis-acting regions responsible for all aspects of cotB regulation appear to be closely opposed within the minimal essential sequence of the proximal region.

Published

1993

40. Positive and negative DNA elements of the Drosophila grimshawi s18 chorion gene assayed in Drosophila melanogaster

Author

Candace Swimmer, Gloria Mao, Helena Kashevsky, and Fotis C. Kafatos

Subjects

Regulation of gene expression, Base Sequence, Transcription, Genetic, biology, Molecular Sequence Data, DNA, Cell Biology, biology.organism_classification, Molecular biology, Drosophila melanogaster, Gene Expression Regulation, Lac Operon, Transcription (biology), Regulatory sequence, Drosophilidae, Genes, Regulator, Melanogaster, Animals, Drosophila, Drosophila grimshawi, Molecular Biology, Gene, Developmental Biology

Abstract

Germ line transformation has been used to map the cis regulatory DNA elements responsible for the precise and evolutionarily stable developmental expression of the s18 chorion gene. Constructs containing chimeric combinations of Drosophila melanogaster and D. grimshawi DNA regions, as well as D. grimshawi sequences alone, can direct expression in the follicular epithelium, in an s18-specific temporal and spatial pattern. The results indicate that both positive and negative regulatory elements can function when transferred from D. grimshawi to D. melanogaster. The first ca. 100 bp of the 5'-flanking DNA region constitute a minimal, developmentally regulated promoter, expression of which is inhibited by the next 100-bp DNA segment and activated by positive elements located further upstream. Expression of the minimal promoter can also be enhanced by more distant chorion regulatory elements, provided the inhibitory DNA segment is absent.

Published

1992

41. Transgenic mice expressing a constitutively active retinoic acid receptor in the lens exhibit ocular defects

Author

Wayne Balkan, Gordon K. Klintworth, Elwood Linney, and Cheryl B. Bock

Subjects

Receptors, Retinoic Acid, medicine.drug_class, Recombinant Fusion Proteins, Transgene, Molecular Sequence Data, Retinoic acid, Gene Expression, Mice, Transgenic, Tretinoin, Biology, Cataract, Fusion gene, Mice, chemistry.chemical_compound, Lens, Crystalline, Gene expression, medicine, Animals, Microphthalmos, Retinoid, Receptor, neoplasms, Molecular Biology, Base Sequence, Cell Biology, Molecular biology, Fusion protein, Retinoic acid receptor, Lac Operon, chemistry, embryonic structures, Trans-Activators, Carrier Proteins, Developmental Biology

Abstract

Retinoic acid receptors (RARs) modulate gene expression following association with retinoic acid (RA). In transient transfection, an RARα-β-galactosidase fusion protein (RAR-LacZ) was able to transactivate expression in the absence of RA. When expressed in the ocular lens of transgenic mice, this constitutively active RAR-LacZ fusion gene resulted in founder and progeny animals that exhibited cataracts and microphthalmia, both being characteristics of retinoid-in-duced teratogenesis. The transgenic phenotypes indicate that retinoid teratogenesis can be mimicked by expression of a constitutively active RAR-LacZ fusion protein in retinoid-sensitive tissues.

Published

1992

42. Characterization of a distinct subpopulation of striatal projection neurons expressing the Dlx genes in the basal ganglia through the activity of the I56ii enhancer

Author

Man Yu, John L.R. Rubenstein, Noël Ghanem, Marc Ekker, and Luc Poitras

Subjects

Ganglionic eminence, Interneuron, Dlx genes, LIM-Homeodomain Proteins, Subventricular zone, Progenitors, Mice, Transgenic, Biology, Globus Pallidus, Basal Ganglia, 03 medical and health sciences, Diencephalon, Mice, 0302 clinical medicine, Cell Movement, Genes, Reporter, Enhancers, medicine, Homeobox, Animals, Regulatory Elements, Transcriptional, 10. No inequality, Enhancer, Molecular Biology, Migration, 030304 developmental biology, Homeodomain Proteins, Neurons, 0303 health sciences, GABAergic neurons, Cerebrum, Gene Expression Regulation, Developmental, Anatomy, Cell Biology, DLX5, Cell biology, medicine.anatomical_structure, Enhancer Elements, Genetic, nervous system, Lac Operon, embryonic structures, 030217 neurology & neurosurgery, Striatal projection neurons, Developmental Biology, Transcription Factors

Abstract

Regulation of region-specific neuronal differentiation and migration in the embryonic forebrain is a complex mechanism that involves a variety of transcription factors such as the Dlx genes. At least four cis-acting regulatory elements (CREs) are responsible for the Dlx transcriptional regulation in the subcortical telencephalon and the rostral diencephalon. These include I12b and URE2 in the Dlx1/2 bigene cluster, and, I56i and I56ii in the Dlx5/6 cluster. We previously reported that URE2, I12b, and I56i, mark different progenitor cell populations in the ganglionic eminences as well as different subtypes of adult cortical interneurons. Here, we carried out a detailed spatial and temporal analysis of the I56ii CRE activity in the developing telencephalon between E10.5 and E15.5, and compared its activity with the other three Dlx CREs using lacZ reporter genes in transgenic mice. We show that I56ii marks distinct group(s) of neurons located in the superficial mantle of the LGE and MGE between E11.5 and E13.5. The I56ii-positive cells are Dlx- and GABA-immunoreactive. However, unlike the other CREs, I56ii does not label interneuron progenitors in the basal ganglia, nor tangentially migrating cells to the cortex at E13.5. Instead, I56ii-positive cells mark a subpopulation(s) of post-mitotic projection neurons that tangentially migrate from the LGE to the deep mantle of the MGE and reside between the subventricular zone and the globus pallidus during midgestation. The majority of these neurons express the striatal markers Meis2 and Islet1. Moreover, both Meis2 and Islet1 activate transcription of a reporter gene containing the I56ii sequence in co-transfection assays, indicating that these transcriptional factors may be potential upstream modulators of the Dlx genes in vivo.

Published

2008

43. Regulatory elements from the related spec genes of Strongylocentrotus purpuratus yield different spatial patterns with a lacZ reporter gene

Author

Lin Gan, Gary M. Wessel, and William H. Klein

Subjects

Ectoderm, Regulatory Sequences, Nucleic Acid, Transfection, Fusion gene, Plasmid, Culture Techniques, Gene expression, medicine, Animals, Cloning, Molecular, Molecular Biology, Gene, Genetics, Reporter gene, Staining and Labeling, biology, Cell Differentiation, DNA, Cell Biology, beta-Galactosidase, biology.organism_classification, Strongylocentrotus purpuratus, Cell biology, medicine.anatomical_structure, Gene Expression Regulation, Lac Operon, Sea Urchins, embryonic structures, Endoderm, Developmental Biology

Abstract

The Spec1 and Spec2 genes of Strongylocentrotus purpuratus are closely associated with the differentiation of aboral ectoderm. To examine cis-regulatory elements involved in the spatial expression of the Spec genes, we fused the Escherichia coli lacZ gene containing a nuclear targeting signal to 5'flanking DNA plus 5' untranslated leader sequences from Spec1, Spec2a, and Spec2c. All three genes contain 700 bp of highly conserved DNA in their upstream regions, but in Spec1 and Spec2c large insertions interrupt the conserved regions. The Spec-lacZ reporter gene plasmids were microinjected into eggs of S. purpuratus, Lytechinus variegatus, and L. pictus, and beta-galactosidase activity was determined in situ by X-gal staining. The Spec2a-lacZ fusion gene, which contained 1516 bp of 5' flanking DNA and 18 bp of 5' untranslated leader sequence, was preferentially expressed in aboral ectoderm cells in all three species. The Spec1-lacZ fusion gene was expressed in a strikingly different fashion--preferentially in primary and secondary mesenchyme cells, occasionally in aboral ectoderm cells, and less often in oral ectoderm and endoderm cells. The staining pattern was the same in either homologous or heterologous embryos. The Spec2c-lacZ fusion gene, like Spec2a-lacZ, was preferentially expressed in aboral ectoderm, but staining of other cell types was frequently observed. To further delineate sequences required for correct spatial expression, we deleted 800 bp of 5' flanking DNA from the Spec2a-lacZ fusion gene, resulting in a delta Spec2a-lacZ fusion gene that contained only the conserved DNA region. This gene fusion showed preferential expression in aboral ectoderm cells. However, the cell type specificity was not as great as with the parental Spec2a-lacZ plasmid. These experiments implied that the conserved DNA region, associated with all Spec genes examined, was insufficient for complete aboral ectoderm specificity, and suggested that a spatial repressor element existed between -1516 and -697 bp in the 5' flanking DNA of Spec2a.

Published

1990

44. Fgf10 dosage is critical for the amplification of epithelial cell progenitors and for the formation of multiple mesenchymal lineages during lung development

Author

Frederic G. Sala, Parviz Minoo, Suresh K. Ramasamy, Saverio Bellusci, Stijn De Langhe, Pierre-Marie Del Moral, Francisca Mata, Lisa K. Kelly, Varsha V. Gupte, Robert G. Kelly, Eli Keshet, Wei Shia, Arnaud Mailleux, Jacqueline M. Veltmaat, David Warburton, and Sara Parsa

Subjects

Genetically modified mouse, Male, Vascular Endothelial Growth Factor A, Heterozygote, Myocytes, Smooth Muscle, Gene Dosage, Lung emphysema, Mice, Transgenic, Biology, Article, Mesoderm, Mice, Pregnancy, medicine, Myocyte, Animals, Progenitor cell, Molecular Biology, Lung, Embryonic Stem Cells, Mice, Knockout, Platelet-Derived Growth Factor, Vascularization, Wnt signaling pathway, Gene Expression Regulation, Developmental, Epithelial Cells, Cell Biology, respiratory system, Cell biology, Fgf10 hypomorph, Wnt Proteins, Vascular endothelial growth factor A, stomatognathic diseases, medicine.anatomical_structure, Phenotype, Mesenchymal differentiation, Smooth muscle cells, Animals, Newborn, Lac Operon, Knockout mouse, Immunology, Female, Fibroblast Growth Factor 10, Developmental Biology

Abstract

The key role played by of Fgf10 during early lung development is clearly illustrated in Fgf10 knockout mice, which exhibit complete lung agenesis. However, Fgf10 is continuously expressed throughout lung development suggesting extended as well as additional roles for FGF10 at later stages of lung organogenesis. We previously reported that the enhancer trap Mlcv1v-nLacZ-24 transgenic mouse strain functions as a reporter for Fgf10 expression and displays decreased endogenous Fgf10 expression (Mailleux et al., 2005). In this paper, we have generated an allelic series to determine the impact of Fgf10 dosage on lung development. We report that 80% of the newborn Fgf10 hypomorphic mice die within 24 hours of respiratory failure. These mutant lungs display severe hypoplasia, dilation of the distal airways and large hemorrhagic areas. Epithelial differentiation and proliferation studies indicate a specific decrease in the percentile of TTF1 and SP-B expressing cells correlating with reduced epithelial cell proliferation and associated with a decrease in activation of the canonical Wnt signaling in the epithelium. Analysis of vascular development shows a reduction in PECAM expression at E14.5, which is associated with a simplification of the vascular tree at E18.5. We also show a decrease in α-SMA expression in the respiratory airway suggesting defective formation of the alveolar smooth muscle cells. At the molecular level, these defects are associated with a decrease in Vegfa and Pdgfa expression likely resulting from the decrease of the epithelium/mesenchymal ratio in the Fgf10 hypomorphic lungs. Thus, our results indicate that FGF10 plays a pivotal role in maintaining epithelial progenitor cell proliferation as well as coordinating alveolar smooth muscle cell formation and vascular development.

Published

2006

45. Analysis of the Otd-dependent transcriptome supports the evolutionary conservation of CRX/OTX/OTD functions in flies and vertebrates

Author

Francesca Pignoni, Elizabeth C. McDonald, Donghui Yang-Zhou, Swati Ranade, Sek Won Kong, and Tiffany Cook

Subjects

Male, Evolution of the eye, Genes, Insect, Visual transduction, Conserved sequence, Animals, Genetically Modified, 0302 clinical medicine, Drosophila Proteins, Bilateria, Oligonucleotide Array Sequence Analysis, Genetics, 0303 health sciences, Otx Transcription Factors, Vertebrate, Gene Expression Regulation, Developmental, Circadian Rhythm, Lac Operon, Vertebrates, Oc, Drosophila, Female, Photoreceptor Cells, Invertebrate, Drosophila Protein, Photoreceptor Cells, Vertebrate, Light Signal Transduction, Orthodenticle, Biology, Article, Evolution, Molecular, 03 medical and health sciences, Species Specificity, biology.animal, Gene family, Animals, Circadian rhythms, Molecular Biology, 030304 developmental biology, Homeodomain Proteins, Photoreceptor, Ocelliless, Gene Expression Profiling, Cell Biology, biology.organism_classification, Photoreceptor development, Gene expression profiling, Phototransduction, Mutation, Trans-Activators, Homeobox, Eye evolution, 030217 neurology & neurosurgery, Developmental Biology

Abstract

Homeobox transcription factors of the vertebrate CRX/OTX family play critical roles in photoreceptor neurons, the rostral brain and circadian processes. In mouse, the three related proteins, CRX, OTX1, and OTX2, fulfill these functions. In Drosophila, the single founding member of this gene family, called orthodenticle (otd), is required during embryonic brain and photoreceptor neuron development. We have used global gene expression analysis in late pupal heads to better characterize the post-embryonic functions of Otd in Drosophila. We have identified 61 genes that are differentially expressed between wild type and a viable eye-specific otd mutant allele. Among them, about one-third represent potentially direct targets of Otd based on their association with evolutionarily conserved Otd-binding sequences. The spectrum of biological functions associated with these gene targets establishes Otd as a critical regulator of photoreceptor morphology and phototransduction, as well as suggests its involvement in circadian processes. Together with the well-documented role of otd in embryonic patterning, this evidence shows that vertebrate and fly genes contribute to analogous biological processes, notwithstanding the significant divergence of the underlying genetic pathways. Our findings underscore the common evolutionary history of photoperception-based functions in vertebrates and invertebrates and support the view that a complex nervous system was already present in the last common ancestor of all bilateria.

Published

2006

46. Angiogenic factors stimulate tubular branching morphogenesis of sonic hedgehog-deficient lungs

Author

Minke van Tuyl, Dick Tibboel, Jinxia Wang, Frederick Groenman, Maciej Kuliszewski, Martin Post, Jason Liu, Obstetrics and gynaecology, Pediatric Surgery, Anesthesiology, and Internal Medicine

Subjects

Vascular Endothelial Growth Factor A, Angiogenesis, Fgf2, Fibroblast growth factor, chemistry.chemical_compound, Mice, 0302 clinical medicine, Vasculogenesis, Morphogenesis, Sonic hedgehog, Angiogenic Proteins, Lung, Mice, Knockout, 0303 health sciences, biology, Angiopoietin receptor, Hedgehog signaling pathway, 3. Good health, Cell biology, Vascular endothelial growth factor, Vascular endothelial growth factor B, Platelet Endothelial Cell Adhesion Molecule-1, Lac Operon, 030220 oncology & carcinogenesis, embryonic structures, Lung development, Signal Transduction, medicine.medical_specialty, animal structures, Smooth muscle cell differentiation, Kruppel-Like Transcription Factors, Neovascularization, Physiologic, Mice, Transgenic, Zinc Finger Protein Gli2, Vegf, Zinc Finger Protein GLI1, 03 medical and health sciences, Internal medicine, medicine, Animals, Hedgehog Proteins, Molecular Biology, 030304 developmental biology, Cell Biology, Endocrinology, chemistry, biology.protein, Angiopoietins, Developmental Biology

Abstract

Sonic Hedgehog (Shh)-deficient mice have a severe lung branching defect. Recent studies have shown that hedgehog signaling is involved in vascular development and it is possible that the diminished airway branching in Shh-deficient mice is due to abnormal pulmonary vasculature formation. Therefore, we investigated the role of Shh in pulmonary vascular development using Shh/Tie2lacZ compound mice, which exhibit endothelial cell-specific LacZ expression, and Pecam-1 immunohistochemistry. In E11.5–13.5 Shh-deficient mice, the pulmonary vascular bed is decreased, but appropriate to the decrease in airway branching. However, when E12.5 Shh-deficient lungs were cultured for 4–6 days, the vascular network deteriorated compared to wild-type lungs. The expression of vascular endothelial growth factor (Vegf) or its receptor Vegfr2 (KDR/Flk-1) was not different between E12.5–13.5 Shh-deficient and wild-type lungs. In contrast, angiopoietin-1 (Ang1), but not Ang2 or the angiopoietin receptor Tie2, mRNA expression was downregulated in E12.5–E13.5 lungs of Shh null mutants. Recombinant Ang1 alone was unable to restore in vitro branching morphogenesis in Shh-deficient lungs. Conversely, the angiogenic factor fibroblast growth factor (Fgf)-2 alone or in combination with Ang1, increased vascularization and tubular growth and branching of Shh-deficient lungs in vitro. The angiogenic factors did not overcome the reduced smooth muscle cell differentiation in the Shh null lungs. These data indicate that early vascular development, mediated by Vegf/Vegfr2 signaling proceeds normally in Shh-deficient mice, while later vascular development and stabilization of the primitive network mediated by the Ang/Tie2 signaling pathway are defective, resulting in an abnormal vascular network. Stimulation of vascularization with angiogenic factors such as Fgf2 and Ang1 partially restored tubular growth and branching in Shh-deficient lungs, suggesting that vascularization is required for branching morphogenesis.

Published

2005

47. Localized repressors delineate the neurogenic ectoderm in the early Drosophila embryo

Author

Michael Levine and Angelike Stathopoulos

Subjects

Mesoderm, animal structures, Embryo, Nonmammalian, Amino Acid Motifs, Molecular Sequence Data, Vnd, Repressor, Ectoderm, Biology, Dorsoventral patterning, Dorsal, Sequence Homology, Nucleic Acid, Gene expression, medicine, Gene silencing, Animals, Gene Silencing, Enhancer, Molecular Biology, In Situ Hybridization, Body Patterning, Neurons, Binding Sites, Neuroectoderm, Base Sequence, Models, Genetic, Computational Biology, Gene Expression Regulation, Developmental, Cell Biology, Schnurri, Oligonucleotides, Antisense, Silencer, Molecular biology, Neurogenic ectoderm, Ind, medicine.anatomical_structure, Drosophila melanogaster, Enhancer Elements, Genetic, Lac Operon, embryonic structures, RNA, Drosophila, Developmental Biology, Plasmids

Abstract

The Dorsal gradient produces sequential patterns of gene expression across the dorsoventral axis of early embryos, thereby establishing the presumptive mesoderm, neuroectoderm, and dorsal ectoderm. Spatially localized repressors such as Snail and Vnd exclude the expression of neurogenic genes in the mesoderm and ventral neuroectoderm, respectively. However, no repressors have been identified that establish the dorsal limits of neurogenic gene expression. To investigate this issue, we have conducted an analysis of the ind gene, which is selectively expressed in lateral regions of the presumptive nerve cord. A novel silencer element was identified within the ind enhancer that is essential for eliminating expression in the dorsal ectoderm. Evidence is presented that the associated repressor can function over long distances to silence neighboring enhancers. The ind enhancer also contains a variety of known activator and repressor elements. We propose a model whereby Dorsal and EGF signaling, together with the localized Schnurri repressor, define a broad domain of ind expression throughout the entire presumptive neuroectoderm. The ventral limits of gene expression are defined by the Snail and Vnd repressors, while the dorsal border is established by the newly defined silencer element.

Published

2005

48. Involvement of Pax6 and Otx2 in the forebrain-specific regulation of the vertebrate homeobox gene ANF/Hesx1

Author

Marion Köprunner, Erez Raz, Nicole Bäumer, Lars Wittler, Michal Reichman-Fried, Ulrike Teichmann, Michael Kessel, Jürg Stebler, and Derek Spieler

Subjects

Mouse, PAX6 Transcription Factor, Molecular Sequence Data, lac operon, Nerve Tissue Proteins, Chick Embryo, Chick, Conserved sequence, Mice, Prosencephalon, Basic Helix-Loop-Helix Transcription Factors, Animals, Paired Box Transcription Factors, Amino Acid Sequence, Binding site, DNA binding, Eye Proteins, Promoter Regions, Genetic, Zebrafish, Gene, Molecular Biology, Conserved Sequence, Regulation of gene expression, Homeodomain Proteins, Otx Transcription Factors, biology, Base Sequence, Genes, Homeobox, Promoter, Gene Expression Regulation, Developmental, Cell Biology, Zebrafish Proteins, biology.organism_classification, Molecular biology, Repressor Proteins, embryonic structures, Trans-Activators, Homeobox, Transcription Factor HES-1, PAX6, sense organs, Transcription, Developmental Biology

Abstract

During early vertebrate development, ANF homeobox genes are expressed in the prospective forebrain. Their regulation is essential for correct morphogenesis and function of the prosencephalon. We identified a 1-kb fragment upstream of the chicken GANF gene sufficient to drive lac Z expression in the endogenous expression domain. Concordant with the high conservation of this sequence in five investigated species, this element is also active in the corresponding expression domain of the zebrafish orthologue. In vivo analysis of two in vitro-identified Otx2 binding sites in this conserved sequence revealed their necessity for activation of the chicken ANF promoter. In addition, we identified a Pax6 -binding site close to the transcriptional start site that is occupied in vivo by Pax6 protein. Pax6 and GANF exhibit mutually exclusive expression domains in the anterior embryonic region. Overexpression of Pax6 in chick embryos inhibited the endogenous GANF expression, and in Pax6 −/− mice the expression domain of the murine ANF orthologue Hesx1 was expanded and sustained, indicating inhibitory effects of Pax6 on GANF . However, a mutation of the Pax6 site did not abolish reporter activity from an electroporated vector. We conclude that Otx2 and Pax6 are key molecules involved in conserved mechanisms of ANF gene regulation.

Published

2004

49. A novel inducible element, activated by contact with Rathke's pouch, is present in the regulatory region of the Rpx/Hesx1 homeobox gene

Author

Edit Hermesz, Lisa Williams-Simons, and Kathleen A. Mahon

Subjects

Prechordal plate, Pituitary gland, Hypothalamus, Mice, Transgenic, Biology, Regulatory Sequences, Nucleic Acid, Induction, Mice, Hesx1, Genes, Reporter, Rpx, medicine, Transgenic mice, Animals, Transgenes, Molecular Biology, Sequence Deletion, Rathke’s pouch, Hypothalamic development, Genetics, Embryonic Induction, Homeodomain Proteins, Base Sequence, Gastrulation, Genes, Homeobox, Gene Expression Regulation, Developmental, Cell Biology, Gastrula, Rathke's pouch, Cell biology, medicine.anatomical_structure, Pituitary, Lac Operon, Pituitary Gland, Homeobox, Endoderm, Pouch, Neural plate, Developmental Biology

Abstract

Reciprocal inductive interactions are postulated to play a role in the determination and differentiation of the pituitary gland and the ventral hypothalamus. The homeobox gene Rpx/Hesxl is expressed during gastrulation in the anterior endoderm, prechordal plate, and the prospective cephalic neural plate, and at later stages of development in Rathke’s pouch, the primordium of the pituitary. We have defined the regulatory elements necessary for proper spatial and temporal expression during development in transgenic mice using lacZ reporter genes. Proper spatial and temporal expression in the anterior endoderm prechordal plate and anterior neural plate can be recapitulated with as little as 568 bp of upstream sequence and intragenic sequence containing the first exon and intron. Late-stage expression in Rathke’s pouch requires additional negative and positive regulatory elements. Interestingly, deletion analysis uncovered an element that directs transgene expression to a region of the hypothalamus that lies in direct contact with Rathke’s pouch. In vitro tissue recombination experiments have established that this expression is induced by contact with the pouch. We propose that this element may be present in other genes that normally respond to signals emanating from the pouch during the development of the hypothalamic–pituitary axis. The Rpx–lacZ transgenic mice provide a novel model system for the molecular dissection of inductive cell signaling during pituitary development.

Published

2003

50. Spatial and temporal contribution of somitic myoblasts to avian hind limb muscles

Author

Darrell J. R. Evans, Robert D. Young, and Elaine Rees

Subjects

Mesoderm, animal structures, Dermomyotome, Hindlimb, Chick Embryo, Biology, Animals, Genetically Modified, Myoblasts, Limb bud, Cell Movement, medicine, Paraxial mesoderm, Limb development, Myocyte, Animals, Muscle, Skeletal, Molecular Biology, Body Patterning, Myogenesis, Gene Expression Regulation, Developmental, Anatomy, Cell Biology, musculoskeletal system, Cell biology, medicine.anatomical_structure, Retroviridae, Lac Operon, Somites, Developmental Biology

Abstract

Skeletal muscles of the avian limb are derived from mononucleated myogenic precursor cells (myoblasts) that migrate into the somatopleural mesoderm of the developing limb bud from the ventrolateral dermomyotome of limb adjacent somites. In the present study, we utilized replication-deficient lacZ-encoding retroviruses to elucidate the source of myoblasts for all hind limb muscles in the chick and define the distinct patterns of myoblast distribution within the limb. We also examined, using the same marker, whether the time of migration from the somites into the limb dictates the spatial contribution the myoblasts make to the developing musculature, particularly in relation to the proximodistal and dorsovental axes. Finally, we used these investigations to examine whether the precursors of both primary and secondary myotubes are derived from somitic mesoderm, a presumption, which up until now, has not been demonstrated in vivo. Overall, the results of our studies demonstrate that individual somites have a selective spatial pattern of participation in the development of the avian hind limb musculature and contribute to both primary and secondary myotubes. We also show that both early and later migrating myoblasts can contribute fully to the formation of the appendicular muscles.

Published

2003