Your search keyword '"Lufkin, Thomas"' showing total 53 results

1. Development and Degeneration of the Intervertebral Disc—Insights from Across Species.

Author

Murphy, Kathryn, Lufkin, Thomas, and Kraus, Petra

Subjects

INTERVERTEBRAL disk, SPECIES, MICE, RNA sequencing, NUCLEUS pulposus, RABBITS, BACKACHE

Abstract

Simple Summary: The intervertebral disc is an important organ providing structure, support and flexibility to the spine, yet it can degrade over an individual's lifetime resulting in a painful condition known as intervertebral disc degeneration. Historically, the degeneration or breakdown of the organ has been catalogued and studied in humans, mice and to some extent dogs, however research has expanded to rats, cows, horses, rabbits, cats, and monkeys in recent decades allowing for the application of new research methods. Expanded research has further clarified the mechanisms contributing to degeneration at a molecular and cellular level. This review examines stressors promoting degeneration, how the intervertebral disc responds to them, the variation in symptomatic presentation of intervertebral disc degeneration between species, physical differences in the disc at different levels in the spine and between animals, as well as how the cellular population of the disc changes over time. Examining these aspects both within and between species helps to characterize degenerative changes in the intervertebral disc necessary for development of treatment and therapy. Back pain caused by intervertebral disc (IVD) degeneration has a major socio-economic impact in humans, yet historically has received minimal attention in species other than humans, mice and dogs. However, a general growing interest in this unique organ prompted the expansion of IVD research in rats, rabbits, cats, horses, monkeys, and cows, further illuminating the complex nature of the organ in both healthy and degenerative states. Application of recent biotechnological advancements, including single cell RNA sequencing and complex data analysis methods has begun to explain the shifting inflammatory signaling, variation in cellular subpopulations, differential gene expression, mechanical loading, and metabolic stresses which contribute to age and stress related degeneration of the IVD. This increase in IVD research across species introduces a need for chronicling IVD advancements and tissue biomarkers both within and between species. Here we provide a comprehensive review of recent single cell RNA sequencing data alongside existing case reports and histo/morphological data to highlight the cellular complexity and metabolic challenges of this unique organ that is of structural importance for all vertebrates. [ABSTRACT FROM AUTHOR]

Published

2023

2. Tetratricopeptide repeat domain 9A knockout induces social anxiety and impairs offense behaviors in female mice.

Author

Wing Shan Yu, Li Guan, Shawn Zheng Kai Tan, Shrestha, Smeeta, Yu Zuan Or, Lufkin, Thomas, Lin, Valerie C. L., and Lee Wei Lim

Subjects

SOCIAL anxiety, ANXIETY disorders, AGGRESSION (Psychology), MICE, FEMALES, ANXIETY

Abstract

Objective(s): The involvement of tetratricopeptide repeat domain 9A (TTC9A) in anxiety-like behaviors through estrogen action has been reported in female mice, this study further investigated its effects on social anxiety and aggressive behaviors. Materials and Methods: Using female Ttc9a knockout (Ttc9a-/-) mice, the role of TTC9A in anxiety was investigated in non-social and social environments through home-cage emergence and social interaction tests, respectively, whereas aggressive behaviors were examined under the female intruder test. Results: We observed significant social behavioral deficits with pronounced social and non-social anxiogenic phenotypes in female Ttc9a-/-mice. When tested for aggressive-like behaviors, we found a reduction in offense in Ttc9a-/-animals, suggesting that TTC9A deficiency impairs the offense responses in female mice. Conclusion: Future study investigating mechanisms underlying the social anxiety-like behavioral changes in Ttc9a-/-mice may promote the understanding of social and anxiety disorders. [ABSTRACT FROM AUTHOR]

Published

2022

3. Stem cells in intervertebral disc regeneration-more talk than action?

Author

KRAUS, PETRA, SAMANTA, ANKITA, LUFKIN, SINA, and LUFKIN, THOMAS

Subjects

STEM cells, INTERVERTEBRAL disk, REGENERATIVE medicine, EXTRACELLULAR vesicles, EXOSOMES

Abstract

Pain and lifestyle changes are common consequences of intervertebral disc degeneration (IVDD) and affect a large part of the aging population. The stemness of cells is exploited in the field of regenerative medicine as key to treat degenerative diseases. Transplanted cells however often face delivery and survival challenges, especially in tissues with a naturally harsh microniche environment such as the intervertebral disc. Recent interest in the secretome of stem cells, especially cargo protected from microniche-related decay as frequently present in degenerating tissues, provides new means of rejuvenating ailing cells and tissues. Exosomes, a type of extracellular vesicles with purposeful cargo gained particular interest in conveying stem cell related attributes of rejuvenation, which will be discussed here in the context of IVDD. [ABSTRACT FROM AUTHOR]

Published

2022

4. Simultaneous detection of multiple mRNAs and proteins in bovine IVD cells and tissue with single cell resolution.

Author

Li, Kangning, Varden, Lara, Henderson, Althea, Lufkin, Thomas, and Kraus, Petra

Subjects

SINGLE cell proteins, MESSENGER RNA, CELL populations, INTERVERTEBRAL disk, NUCLEOTIDE sequence, PERICARDIUM

Abstract

Objectives: Interactions of cells with their neighbors and influences by the surrounding extracellular matrix (ECM) is reflected in a cells transcriptome and proteome. In tissues comprised of heterogeneous cell populations or cells depending on ECM signalling cues such as those of the intervertebral disc (IVD), this information is obscured or lost when cells are pooled for the commonly used transcript analysis by quantitative PCR or RNA sequencing. Instead, these cells require means to analyse RNA transcript and protein distribution at a single cell or subcellular level to identify different cell types and functions, without removing them from their surrounding signalling cues. Results: We developed a simple, sequential protocol combining RNA is situ hybridisation (RISH) and immunohistochemistry (IHC) for the simultaneous analysis of multiple transcripts alongside proteins. This allows one to characterize heterogeneous cell populations at the single cell level in the natural cell environment and signalling context, both in vivo and in vitro. This protocol is demonstrated on cells of the bovine IVD, for transcripts and proteins involved in mechanotransduction, stemness and cell proliferation. Conclusions: A simple, sequential protocol combining RISH and IHC is presented that allows for simultaneous information on RNA transcripts and proteins to characterize cells within a heterogeneous cell population and complex signalling environments such as those of the IVD. [ABSTRACT FROM AUTHOR]

Published

2021

5. Quantitative Single-Cell Transcript Assessment of Biomarkers Supports Cellular Heterogeneity in the Bovine IVD.

Author

Kangning Li, Kapper, Devin, Mondal, Sumona, Lufkin, Thomas, and Kraus, Petra

Subjects

INTERVERTEBRAL disk, MESSENGER RNA, CONFOCAL microscopy, BIOMARKERS, GAUSSIAN mixture models

Abstract

Severe and chronic low back pain is often associated with intervertebral disc (IVD) degeneration. While imposing a considerable socio-economic burden worldwide, IVD degeneration is also severely impacting on the quality of life of affected individuals. Cell-based regenerative medicine approaches have moved into clinical trials, yet IVD cell identities in the mature disc remain to be fully elucidated and tissue heterogeneity exists, requiring a better characterization of IVD cells. The bovine coccygeal IVD is an accepted research model to study IVD mechano-biology and disc homeostasis. Recently, we identified novel IVD biomarkers in the outer annulus fibrosus (AF) and nucleus pulposus (NP) of the mature bovine coccygeal IVD through RNA in situ hybridization (AP-RISH) and z-proportion test. Here we follow up on Lam1, Thy1, Gli1, Gli3, Noto, Ptprc, Scx, Sox2 and Zscan10 with fluorescent RNA in situ hybridization (FL-RISH) and confocal microscopy. This permits sub-cellular transcript localization and the addition of quantitative single-cell derived values of mRNA expression levels to our previous analysis. Lastly, we used a Gaussian mixture modeling approach for the exploratory analysis of IVD cells. This work complements our earlier cell population proportion-based study, confirms the previously proposed biomarkers and indicates even further heterogeneity of cells in the outer AF and NP of a mature IVD. [ABSTRACT FROM AUTHOR]

Published

2019

6. Klhl14 Antisense RNA is a Target of Key Skeletogenic Transcription Factors in the Developing Intervertebral Disc.

Author

Kraus, Petra, Sivakamasundari, V., Olsen, Victoria, Villeneuve, Victoria, Hinds, Abbey, and Lufkin, Thomas

Published

2019

7. Potential biomarkers of the mature intervertebral disc identified at the single cell level.

Author

Li, Kangning, Kapper, Devin, Youngs, Brittany, Kocsis, Victoria, Mondal, Sumona, Kraus, Petra, and Lufkin, Thomas

Subjects

INTERVERTEBRAL disk, DEGENERATION (Pathology), MESENCHYMAL stem cells, NUCLEUS pulposus, TISSUE engineering

Abstract

Intervertebral disc (IVD) degeneration and trauma is a major socio‐economic burden and the focus of cell‐based regenerative medicine approaches. Despite numerous ongoing clinical trials attempting to replace ailing IVD cells with mesenchymal stem cells, a solid understanding of the identity and nature of cells in a healthy mature IVD is still in need of refinement. Although anatomically simple, the IVD is comprised of heterogeneous cell populations. Therefore, methods involving cell pooling for RNA profiling could be misleading. Here, by using RNA in situ hybridization and z proportion test, we have identified potential novel biomarkers through single cell assessment. We quantified the proportion of RNA transcribing cells for 50 genetic loci in the outer annulus fibrosus (AF) and nucleus pulposus (NP) in coccygeal bovine discs isolated from tails of four skeletally mature animals. Our data reconfirm existing data and suggest 10 novel markers such as Lam1 and Thy1 in the outer AF and Gli1, Gli3, Noto, Scx, Ptprc, Sox2, Zscan10 and LOC101904175 in the NP, including pluripotency markers, that indicate stemness potential of IVD cells. These markers could be added to existing biomarker panels for cell type characterization. Furthermore, our data once more demonstrate heterogeneity in cells of the AF and NP, indicating the need for single cell assessment by methods such as RNA in situ hybridization. Our work refines the molecular identity of outer AF and NP cells, which can benefit future regenerative medicine and tissue engineering strategies in humans. [ABSTRACT FROM AUTHOR]

Published

2019

8. A quantitative and qualitative RNA expression profiling assay for cell culture with single cell resolution.

Author

Kraus, Petra, Yerden, Rachel, Sipes, Darren, Sur, Shantanu, and Lufkin, Thomas

Abstract

Cells are often characterized by their gene expression profile. However, commonly used methods to detect mRNA require cell pooling and could therefore mask differences in gene expression within heterogeneous cell populations. q²PISH allows for the analysis of both qualitative and quantitative (q²) gene expression on cultured cells for quality control measures with single cell resolution. q²PISH was optimized for the subsequent use of two alkaline phosphatase substrates in combination with a cell nucleus count to allow for accurate quantification of gene expression per cell and simultaneously qualitative assessment of potential culture population drift or heterogeneity. As proof of principle the assay was applied to cell lines derived from different areas of the bovine intervertebral disc, showing significant difference in the expression of Col1a1, Col2a1, Acan and Sox9. Furthermore, the assay served to explore a potential impact on cultured cells when substituting a critical media component, fetal bovine serum (FBS), suggesting no significant difference in gene expression for the biomarkers analyzed. As a tool, q²PISH serves as an accurate quality control with single cell resolution for cultured cells. [ABSTRACT FROM AUTHOR]

Published

2018

9. An Integrative Developmental Genomics and Systems Biology Approach to Identify an In Vivo Sox Trio-Mediated Gene Regulatory Network in Murine Embryos.

Author

Lee, Wenqing Jean, Chatterjee, Sumantra, Yap, Sook Peng, Lim, Siew Lan, Xing, Xing, Kraus, Petra, Sun, Wenjie, Hu, Xiaoming, Sivakamasundari, V., Chan, Hsiao Yun, Kolatkar, Prasanna R., Prabhakar, Shyam, and Lufkin, Thomas

Subjects

ANIMAL experimentation, BIOLOGY, CELLULAR signal transduction, EMBRYOLOGY, GENES, MICE, PROTEINS, RESEARCH funding, TRANSCRIPTION factors, TRANSGENIC animals, GENOMICS, DATA analysis software, MICROARRAY technology

Abstract

Embryogenesis is an intricate process involving multiple genes and pathways. Some of the key transcription factors controlling specific cell types are the Sox trio, namely, Sox5, Sox6, and Sox9, which play crucial roles in organogenesis working in a concerted manner. Much however still needs to be learned about their combinatorial roles during this process. A developmental genomics and systems biology approach offers to complement the reductionist methodology of current developmental biology and provide a more comprehensive and integrated view of the interrelationships of complex regulatory networks that occur during organogenesis. By combining cell type-specific transcriptome analysis and in vivo ChIP-Seq of the Sox trio using mouse embryos, we provide evidence for the direct control of Sox5 and Sox6 by the transcriptional trio in the murine model and by Morpholino knockdown in zebrafish and demonstrate the novel role of Tgfb2, Fbxl18, and Tle3 in formation of Sox5, Sox6, and Sox9 dependent tissues. Concurrently, a complete embryonic gene regulatory network has been generated, identifying a wide repertoire of genes involved and controlled by the Sox trio in the intricate process of normal embryogenesis. [ABSTRACT FROM AUTHOR]

Published

2017

10. BAC Transgenic Zebrafish for Transcriptional Promoter and Enhancer Studies.

Author

Kraus, Petra, Winata, Cecilia L., and Lufkin, Thomas

Published

2015

11. Generating Mouse Lines for Lineage Tracing and Knockout Studies.

Author

Kraus, Petra, Sivakamasundari, V., Xing, Xing, and Lufkin, Thomas

Published

2014

12. Plate in situ hybridization (PISH) as a time and cost effective RNA expression assay to study phenotypic heterogeneity in a population of cultured murine cells at single cell resolution.

Author

Kraus, Petra, Kocsis, Victoria, Williams, Colette, Youngs, Brittany, and Lufkin, Thomas

Subjects

IN situ hybridization, RNA analysis, CELL culture, LABORATORY mice, PROTEIN expression

Abstract

Objectives: Regenerative medicine approaches using reprogrammed or transdifferentiated cells require efficient single cell expression profiling to analyze culture homogeneity for quality control and recipients' safety. Results: While antigen-antibody based systems have been developed for several proteins, probing at the mRNA level allows for more flexibility, faster adaption to the ever increasing new data from next generation sequencing and increased specificity, especially for genes of conserved gene families. Conclusions: We developed a time and cost effective expression profiling assay for monolayer cell culture in 96-well plates based on RNA in situ hybridization, termed PISH, at single cell resolution. [ABSTRACT FROM AUTHOR]

Published

2015

13. In vivo genome-wide analysis of multiple tissues identifies gene regulatory networks, novel functions and downstream regulatory genes for Bapx1 and its co-regulation with Sox9 in the mammalian vertebral column.

Author

Chatterjee, Sumantra, Sivakamasundari, V., Sook Peng Yap, Kraus, Petra, Kumar, Vibhor, Xing Xing, Siew Lan Lim, Joel Sng, Prabhakar, Shyam, and Lufkin, Thomas

Subjects

GENOMICS, GENE regulatory networks, REGULATOR genes, MORPHOGENESIS, TRANSCRIPTION factors

Abstract

Background: Vertebrate organogenesis is a highly complex process involving sequential cascades of transcription factor activation or repression. Interestingly a single developmental control gene can occasionally be essential for the morphogenesis and differentiation of tissues and organs arising from vastly disparate embryological lineages. Results: Here we elucidated the role of the mammalian homeobox gene Bapx1 during the embryogenesis of five distinct organs at E12.5 - vertebral column, spleen, gut, forelimb and hindlimb - using expression profiling of sorted wildtype and mutant cells combined with genome wide binding site analysis. Furthermore we analyzed the development of the vertebral column at the molecular level by combining transcriptional profiling and genome wide binding data for Bapx1 with similarly generated data sets for Sox9 to assemble a detailed gene regulatory network revealing genes previously not reported to be controlled by either of these two transcription factors. Conclusions: The gene regulatory network appears to control cell fate decisions and morphogenesis in the vertebral column along with the prevention of premature chondrocyte differentiation thus providing a detailed molecular view of vertebral column development. [ABSTRACT FROM AUTHOR]

Published

2014

14. A conditional mouse line for lineage tracing of Sox9 loss-of-function cells using enhanced green fluorescent protein.

Author

Chatterjee, Sumantra, Kraus, Petra, Sivakamasundari, V., Xing, Xing, Yap, Sook, Jie, Song, and Lufkin, Thomas

Subjects

GREEN fluorescent protein, KNOCKOUT mice, REPORTER genes, TISSUE fixation (Histology), ALLELES, EMBRYOLOGY

Abstract

Traditionally, conditional knockout studies in mouse have utilized the Cre or Flpe technology to activate the expression of reporter genes such as lacZ or PLAP. Employing these reporter genes, however, requires tissue fixation. To make way for downstream in vivo or in vitro applications, we have inserted enhanced green fluorescent protein (EGFP) into the endogenous Sox9 locus and generated a novel conditional Sox9 null allele, by flanking the entire Sox9 coding region with loxP sites and inserting an EGFP reporter gene into the 3′-UTR allowing for EGFP to be expressed upon Sox9 loss of function yet under the control of the endogenous Sox9 promoter. Mating this new allele to any Cre-expressing line, the fate of Sox9 null cells can be traced in the cell type of interest in vivo or in vitro after fluorescence-activated cell sorting. [ABSTRACT FROM AUTHOR]

Published

2013

15. Uniform, optimal signal processing of mapped deep-sequencing data.

Author

Kumar, Vibhor, Muratani, Masafumi, Rayan, Nirmala Arul, Kraus, Petra, Lufkin, Thomas, Ng, Huck Hui, and Prabhakar, Shyam

Subjects

NUCLEOTIDE sequence, SIGNAL processing, GENE mapping, ESTIMATION theory, ALGORITHMS, DATA analysis

Abstract

Despite their apparent diversity, many problems in the analysis of high-throughput sequencing data are merely special cases of two general problems, signal detection and signal estimation. Here we adapt formally optimal solutions from signal processing theory to analyze signals of DNA sequence reads mapped to a genome. We describe DFilter, a detection algorithm that identifies regulatory features in ChIP-seq, DNase-seq and FAIRE-seq data more accurately than assay-specific algorithms. We also describe EFilter, an estimation algorithm that accurately predicts mRNA levels from as few as 1-2 histone profiles (R ∼0.9). Notably, the presence of regulatory motifs in promoters correlates more with histone modifications than with mRNA levels, suggesting that histone profiles are more predictive of cis-regulatory mechanisms. We show by applying DFilter and EFilter to embryonic forebrain ChIP-seq data that regulatory protein identification and functional annotation are feasible despite tissue heterogeneity. The mathematical formalism underlying our tools facilitates integrative analysis of data from virtually any sequencing-based functional profile. [ABSTRACT FROM AUTHOR]

Published

2013

16. Pax1EGFP: New wildtype and mutant EGFP mouse lines for molecular and fate mapping studies.

Author

Sivakamasundari, V., Kraus, Petra, Jie, Song, and Lufkin, Thomas

Published

2013

17. Development of the "Three-step MACS": a Novel Strategy for Isolating Rare Cell Populations in the Absence of Known Cell Surface Markers from Complex Animal Tissue.

Author

Lee, Mathia Y. and Lufkin, Thomas

Subjects

CELL populations, CELL membranes, NERVE growth factor receptors, PROTEINS, BIOTIN, CELL separation

Abstract

To circumvent the difficulty of isolating specific cell populations by MACS from dissociated complex animal tissue, when their proportions reached levels similar to that of the background, we developed the "Three-step MACS" strategy. Cells of interest are defined by their expression of a particular gene(s) of interest rather by than their natural cell surface markers or size. A two-component transgenic cell surface protein, for two sequential rounds of MACS, is expressed under the promoter control of the endogenous gene of interest by means of gene targeting and the generation of transgenic tissue. An initial step to remove dead cells is also used. Here, we describe proof-of-concept experiments, using the biotin acceptor peptide (BAP)-low-affinity nerve growth factor receptor as the two-component protein. The first component, the BAP, can be biotinylated in specific subsets of cells expressing a particular gene by expressing the biotinylating enzyme, hBirA = humanized BirA (hBirA), under the promoter control of another gene defining the specific subpopulation. We showed that a rare population of cells (1.1% of the 13.5 days postcoital mouse embryo) could be enriched to a sufficiently high purity (84.4%). From another sample with 0.1% of our cells of interest, we achieved a 40.3% pure sample. The low cost, speed, and technical ease of the Three-step MACS also make it scalable and hence, an ideal method for preparing sufficient quantities of biological samples for sensitive, high-throughput assays. [ABSTRACT FROM AUTHOR]

Published

2012

18. Endogenous tagging of the murine transcription factor Sox5 with hemaglutinin for functional studies.

Author

Lee, Wenqing, Kraus, Petra, and Lufkin, Thomas

Abstract

Gene expression is usually studied at the transcript level rather than at the protein level due to the lack of a specific and sensitive antibody. A way to overcome this is to fuse to the protein of interest an immunoreactive tag that has well-characterized antibodies. This epitope tagging approach is often used for in vitro experiments but for in vivo studies, the success rate of protein tagging has not been extensively analyzed and our study seeks to cover the void. A small epitope, hemaglutinin derived from the influenza virus was used to tag a transcription factor, Sox5 at the N-terminal via homologous recombination in the mouse. Sox5 is part of the Sry-related high-mobility-group box gene family and plays multiple roles in essential biological processes. Understanding of its molecular function in relation to its biological roles remains incomplete. In our study, we show that the longer isoform of Sox5 can be tagged endogenously with hemaglutinin without affecting its biological function in vivo. The tagged protein is easily and specifically detected with an anti-hemaglutinin antibody using immunohistochemistry with its expression matching the endogenous expression of Sox5. Immunoprecipitation of Sox5 was also carried out successfully using an anti-hemaglutinin antibody. The transgenic line generated from this study is predicted to be useful for future experiments such as co-immunoprecipitation and chromatin immunoprecipitation, allowing the further understanding of Sox5. Lastly, this approach can be easily employed for the investigation of other transcription factors and proteins in vivo to overcome technical limitations such as antibody cross-reactivity and to perform isoform-specific studies. [ABSTRACT FROM AUTHOR]

Published

2012

19. New Bapx1 Cre-EGFP mouse lines for lineage tracing and conditional knockout studies.

Author

Sivakamasundari, V., Yun Chan, Hsiao, Peng Yap, Sook, Xing, Xing, Kraus, Petra, and Lufkin, Thomas

Published

2012

20. Mouse strain specific gene expression differences for illumina microarray expression profiling in embryos.

Author

Kraus, Petra, Xing Xing, Siew Lan Lim, Fun, Max E., Sivakamasundari, V., Sook Peng Yap, Haixia Lee, Murthy Karuturi, R. Krishna, and Lufkin, Thomas

Subjects

GENE expression, GENETIC regulation, DNA microarrays, EMBRYOS, PREGNANCY, NERVOUS system

Abstract

Background: In the field of mouse genetics the advent of technologies like microarray based expression profiling dramatically increased data availability and sensitivity, yet these advanced methods are often vulnerable to the unavoidable heterogeneity of in vivo material and might therefore reflect differentially expressed genes between mouse strains of no relevance to a targeted experiment. The aim of this study was not to elaborate on the usefulness of microarray analysis in general, but to expand our knowledge regarding this potential "background noise" for the widely used Illumina microarray platform surpassing existing data which focused primarily on the adult sensory and nervous system, by analyzing patterns of gene expression at different embryonic stages using wild type strains and modern transgenic models of often non-isogenic backgrounds. Results: Wild type embryos of 11 mouse strains commonly used in transgenic and molecular genetic studies at three developmental time points were subjected to Illumina microarray expression profiling in a strain-by-strain comparison. Our data robustly reflects known gene expression patterns during mid-gestation development. Decreasing diversity of the input tissue and/or increasing strain diversity raised the sensitivity of the array towards the genetic background. Consistent strain sensitivity of some probes was attributed to genetic polymorphisms or probe design related artifacts. Conclusion: Our study provides an extensive reference list of gene expression profiling background noise of value to anyone in the field of developmental biology and transgenic research performing microarray expression profiling with the widely used Illumina microarray platform. Probes identified as strain specific background noise further allow for microarray expression profiling on its own to be a valuable tool for establishing genealogies of mouse inbred strains. [ABSTRACT FROM AUTHOR]

Published

2012

21. Filling the Silent Void: Genetic Therapies for Hearing Impairment.

Author

Joel Sng and Lufkin, Thomas

Abstract

The inner ear cytoarchitecture forms one of the most intricate and delicate organs in the human body and is vulnerable to the effects of genetic disorders, aging, and environmental damage. Owing to the inability of the mammalian cochlea to regenerate sensory hair cells, the loss of hair cells is a leading cause of deafness in humans. Millions of individuals worldwide are affected by the emotionally and financially devastating effects of hearing impairment (HI). This paper provides a brief introduction into the key role of genes regulating inner ear development and function. Potential future therapies that leverage on an improved understanding of these molecular pathways are also described in detail. [ABSTRACT FROM AUTHOR]

Published

2012

22. Nuclear Accumulation of an Uncapped RNA Produced by Drosha Cleavage of a Transcript Encoding miR-10b and HOXD4.

Author

Phua, Sze Lynn Calista, Sivakamasundari, V., Yu Shao, Xiaohan Cai, Li-Feng Zhang, Lufkin, Thomas, and Featherstone, Mark

Subjects

GENE expression, PROMOTERS (Genetics), LOCUS (Genetics), EXONS (Genetics), GENOMICS

Abstract

Patterning of the animal embryo's antero-posterior (AP) axis is dependent on spatially and temporally regulated Hox gene expression. The murine Hoxd4 gene has been proposed to harbour two promoters, an upstream promoter P2, and a downstream promoter P1, that lie 5.2 and 1.1 kilobase pairs (kb) upstream of the coding region respectively. The evolutionarily conserved microRNA-10b (miR-10b) gene lies in the Hoxd4 genomic locus in the intron separating the non-coding exons 4 and 5 of the P2 transcript and directly adjacent to the proposed P1 promoter. Hoxd4 transcription is regulated by a 3' neural enhancer that harbours a retinoic acid response element (RARE). Here, we show that the expression profiles of Hoxd4 and miR-10b transcripts during neural differentiation of mouse embryonal carcinoma (EC) P19 cells are coordinately regulated, suggesting that both Hoxd4 and miR-10b expression is governed by the neural enhancer. Our observation that P1 transcripts are uncapped, together with the mapping of their 59 ends, strongly suggests that they are generated by Drosha cleavage of P2 transcripts rather than by transcriptional initiation. This is supported by the colocalization of P1 and P2 transcripts to the same posterior expression domain in the mouse embryo. These uncapped P1 transcripts do not appear to possess an Internal Ribosomal Entry Site (IRES), but accumulate within multiple punctate bodies within the nucleus suggesting that they play a functional role. Finally, similar uncapped Drosha-cleaved P1-like transcripts originating from the paralogous Hoxb4/miR-10a locus were also identified. We propose that these transcripts may belong to a novel class of regulatory RNAs. [ABSTRACT FROM AUTHOR]

Published

2011

23. Dlx6 regulates molecular properties of the striatum and central nucleus of the amygdala.

Author

Wang, Bei, Lufkin, Thomas, and Rubenstein, John L. R.

Abstract

We describe here the prenatal telencephalic expression of Dlx6 RNA and β-galactosidase driven from a mutant Dlx6 locus. The mutant Dlx6 allele, which we believe is either a null or severe hypomorph, has an IRES-lacZ-neomycin resistance cassette inserted into the Dlx6 homeobox coding sequence ( Dlx6 [ABSTRACT FROM AUTHOR]

Published

2011

24. Generation of mice with a novel conditional null allele of the Sox9 gene.

Author

Yap, Sook, Xing, Xing, Kraus, Petra, Sivakamasundari, V., Chan, Hsiao, and Lufkin, Thomas

Subjects

CAMPOMELIC dysplasia, GENETIC mutation, LABORATORY mice, EXONS (Genetics), GENETIC disorders

Abstract

Sox9 is expressed in multiple tissues during mouse development and adulthood. Mutations in the Sox9 gene or changes in expression levels can be attributed to many congenital diseases. Heterozygous loss-of-function mutations in the human SOX9 gene cause Campomelic dysplasia, a semi-lethal skeletal malformation syndrome. Disruption of Sox9 by conventional gene targeting leads to perinatal lethality in heterozygous mice, hence hampering the feasibility to obtain the homozygous Sox9 null mice for in vivo functional studies. In this study, we generated a conditional allele of Sox9 ( Sox9) by flanking exon 1 with loxP sites. Homozygous mice for the Sox9 allele ( Sox9) are viable, fertile and indistinguishable from wildtype (WT) mice, indicating that the Sox9 allele is a fully functional Sox9 allele. Furthermore, we demonstrated that Cre-mediated recombination using a Col2a1- Cre line resulted in specific ablation of Sox9 activity in cartilage tissues. [ABSTRACT FROM AUTHOR]

Published

2011

25. Embryonic stem cells: protein interaction networks.

Author

Miang-Lon Ng, Patricia and Lufkin, Thomas

Subjects

EMBRYONIC stem cell research, PROTEIN-protein interactions, HELA cells, BLASTOCYST, BIOLOGICAL research, MASS spectrometry, RNA, TRANSCRIPTION factors, GENE expression

Abstract

Embryonic stem cells have the ability to differentiate into nearly all cell types. However, the molecular mechanism of its pluripotency is still unclear. Oct3/4, Sox2 and Nanog are important factors of pluripotency. Oct3/4 (hereafter referred to as Oct4), in particular, has been an irreplaceable factor in the induction of pluripotency in adult cells. Proteins interacting with Oct4 and Nanog have been identified via affinity purification and mass spectrometry. These data, together with iterative purifications of interacting proteins allowed a protein interaction network to be constructed. The network currently includes 77 transcription factors, all of which are interconnected in one network. In-depth studies of some of these transcription factors show that they all recruit the NuRD complex. Hence, transcription factor clustering and chromosomal remodeling are key mechanism used by embryonic stem cells. Studies using RNA interference suggest that more pluripotency genes are yet to be discovered via protein-protein interactions. More work is required to complete and curate the embryonic stem cell protein interaction network. Analysis of a saturated protein interaction network by system biology tools can greatly aid in the understanding of the embryonic stem cell pluripotency network. [ABSTRACT FROM AUTHOR]

Published

2011

26. In silico tandem affinity purification refines an Oct4 interaction list.

Author

Cheong, Clara Yujing, Patricia Miang Lon Ng, Ponnampalam, Rhonda, Heng-Hang Tsai, Bourque, Guillaume, and Lufkin, Thomas

Subjects

TRANSCRIPTION factors, GENE targeting, GERM cells, CELL culture, CELL nuclei

Abstract

Introduction: Octamer-binding transcription factor 4 (Oct4) is a master regulator of early mammalian development. Its expression begins from the oocyte stage, becomes restricted to the inner cell mass of the blastocyst and eventually remains only in primordial germ cells. Unearthing the interactions of Oct4 would provide insight into how this transcription factor is central to cell fate and stem cell pluripotency. Methods: In the present study, affinity-tagged endogenous Oct4 cell lines were established via homologous recombination gene targeting in embryonic stem (ES) cells to express tagged Oct4. This allows tagged Oct4 to be expressed without altering the total Oct4 levels from their physiological levels. Results: Modified ES cells remained pluripotent. However, when modified ES cells were tested for their functionality, cells with a large tag failed to produce viable homozygous mice. Use of a smaller tag resulted in mice with normal development, viability and fertility. This indicated that the choice of tags can affect the performance of Oct4. Also, different tags produce a different repertoire of Oct4 interactors. Conclusions: Using a total of four different tags, we found 33 potential Oct4 interactors, of which 30 are novel. In addition to transcriptional regulation, the molecular function associated with these Oct4-associated proteins includes various other catalytic activities, suggesting that, aside from chromosome remodeling and transcriptional regulation, Oct4 function extends more widely to other essential cellular mechanisms. Our findings show that multiple purification approaches are needed to uncover a comprehensive Oct4 protein interaction network. [ABSTRACT FROM AUTHOR]

Published

2011

27. Determinants of generic drug substitution in Switzerland.

Author

Decollogny, Anne, Eggli, Yves, Halfon, Patricia, and Lufkin, Thomas M.

Subjects

GENERIC drug substitution, DRUG prescribing, LOGISTIC regression analysis, REGRESSION analysis

Abstract

Background: Since generic drugs have the same therapeutic effect as the original formulation but at generally lower costs, their use should be more heavily promoted. However, a considerable number of barriers to their wider use have been observed in many countries. The present study examines the influence of patients, physicians and certain characteristics of the generics' market on generic substitution in Switzerland. Methods: We used reimbursement claims' data submitted to a large health insurer by insured individuals living in one of Switzerland's three linguistic regions during 2003. All dispensed drugs studied here were substitutable. The outcome (use of a generic or not) was modelled by logistic regression, adjusted for patients' characteristics (gender, age, treatment complexity, substitution groups) and with several variables describing reimbursement incentives (deductible, co-payments) and the generics' market (prices, packaging, co-branded original, number of available generics, etc.). Results: The overall generics' substitution rate for 173,212 dispensed prescriptions was 31%, though this varied considerably across cantons. Poor health status (older patients, complex treatments) was associated with lower generic use. Higher rates were associated with higher out-of-pocket costs, greater price differences between the original and the generic, and with the number of generics on the market, while reformulation and repackaging were associated with lower rates. The substitution rate was 13% lower among hospital physicians. The adoption of the prescribing practices of the canton with the highest substitution rate would increase substitution in other cantons to as much as 26%. Conclusions: Patient health status explained a part of the reluctance to substitute an original formulation by a generic. Economic incentives were efficient, but with a moderate global effect. The huge interregional differences indicated that prescribing behaviours and beliefs are probably the main determinant of generic substitution. [ABSTRACT FROM AUTHOR]

Published

2011

28. Molecular conservation of estrogen-response associated with cell cycle regulation, hormonal carcinogenesis and cancer in zebrafish and human cancer cell lines.

Author

Siew Hong Lam, Lee, Serene G. P., Lin, Chin Y., Thomsen, Jane S., Fu, Pan Y., Murthy, Karuturi R. K., Haixia Li, Govindarajan, Kunde R., Nick, Lin C. H., Bourque, Guillaume, Zhiyuan Gong, Lufkin, Thomas, Liu, Edison T., and Mathavan, Sinnakaruppan

Subjects

ESTROGEN, CELL cycle, STEROID hormones, ZEBRA danio, CELL lines, CELL culture, CANCER cells

Abstract

Background: The zebrafish is recognized as a versatile cancer and drug screening model. However, it is not known whether the estrogen-responsive genes and signaling pathways that are involved in estrogen-dependent carcinogenesis and human cancer are operating in zebrafish. In order to determine the potential of zebrafish model for estrogen-related cancer research, we investigated the molecular conservation of estrogen responses operating in both zebrafish and human cancer cell lines. Methods: Microarray experiment was performed on zebrafish exposed to estrogen (17β-estradiol; a classified carcinogen) and an anti-estrogen (ICI 182,780). Zebrafish estrogen-responsive genes sensitive to both estrogen and anti-estrogen were identified and validated using real-time PCR. Human homolog mapping and knowledge-based data mining were performed on zebrafish estrogen responsive genes followed by estrogen receptor binding site analysis and comparative transcriptome analysis with estrogen-responsive human cancer cell lines (MCF7, T47D and Ishikawa). Results: Our transcriptome analysis captured multiple estrogen-responsive genes and signaling pathways that increased cell proliferation, promoted DNA damage and genome instability, and decreased tumor suppressing effects, suggesting a common mechanism for estrogen-induced carcinogenesis. Comparative analysis revealed a core set of conserved estrogen-responsive genes that demonstrate enrichment of estrogen receptor binding sites and cell cycle signaling pathways. Knowledge-based and network analysis led us to propose that the mechanism involving estrogen-activated estrogen receptor mediated down-regulation of human homolog HES1 followed by up-regulation cell cycle-related genes (human homologs E2F4, CDK2, CCNA, CCNB, CCNE), is highly conserved, and this mechanism may involve novel crosstalk with basal AHR. We also identified mitotic roles of polo-like kinase as a conserved signaling pathway with multiple entry points for estrogen regulation. Conclusion: The findings demonstrate the use of zebrafish for characterizing estrogen-like environmental carcinogens and anti-estrogen drug screening. From an evolutionary perspective, our findings suggest that estrogen regulation of cell cycle is perhaps one of the earliest forms of steroidal-receptor controlled cellular processes. Our study provides first evidence of molecular conservation of estrogen-responsiveness between zebrafish and human cancer cell lines, hence demonstrating the potential of zebrafish for estrogen-related cancer research. [ABSTRACT FROM AUTHOR]

Published

2011

29. The Sound of Silence: Mouse Models for Hearing Loss.

Author

Chatterjee, Sumantra and Lufkin, Thomas

Abstract

Sensorineural hearing loss is one of the most common disabilities in humans. It is estimated that about 278 million people worldwide have slight to extreme hearing loss in both ears, which results in an economic loss for the country and personal loss for the individual. It is thus critical to have a deeper understanding of the causes for hearing loss to bettermanage and treat the affected individuals. The mouse serves as an excellent model to study and recapitulate some of these phenotypes, identify new genes which cause deafness, and to study their roles in vivo and in detail. Mutant mice have been instrumental in elucidating the function and mechanisms of the inner ear. The development and morphogenesis of the inner ear from an ectodermal layer into distinct auditory and vestibular components depends on well-coordinated gene expression and well-orchestrated signaling cascades within the otic vesicle and interactions with surrounding layers of tissues. Any disruption in these pathways can lead to hearing impairment. This review takes a look at some of the genes and their corresponding mice mutants that have shed light on the mechanism governing hearing impairment (HI) in humans [ABSTRACT FROM AUTHOR]

Published

2011

30. A genome-wide RNAi screen reveals determinants of human embryonic stem cell identity.

Author

Na-Yu Chia, Yun-Shen Chan, Bo Feng, Xinyi Lu, Orlov, Yuriy L., Moreau, Dimitri, Kumar, Pankaj, Lin Yang, Jianming Jiang, Mei-Sheng Lau, Huss, Mikael, Boon-Seng Soh, Kraus, Petra, Li, Pin, Lufkin, Thomas, Lim, Bing, Clarke, Neil D., Bard, Frederic, and Ng, Huck-Hui

Subjects

EMBRYONIC stem cells, BLASTOCYST, RNA, FIBROBLASTS, CHROMATIN, SOMATIC cells, TRANSCRIPTION factors

Abstract

The derivation of human ES cells (hESCs) from human blastocysts represents one of the milestones in stem cell biology. The full potential of hESCs in research and clinical applications requires a detailed understanding of the genetic network that governs the unique properties of hESCs. Here, we report a genome-wide RNA interference screen to identify genes which regulate self-renewal and pluripotency properties in hESCs. Interestingly, functionally distinct complexes involved in transcriptional regulation and chromatin remodelling are among the factors identified in the screen. To understand the roles of these potential regulators of hESCs, we studied transcription factor PRDM14 to gain new insights into its functional roles in the regulation of pluripotency. We showed that PRDM14 regulates directly the expression of key pluripotency gene POU5F1 through its proximal enhancer. Genome-wide location profiling experiments revealed that PRDM14 colocalized extensively with other key transcription factors such as OCT4, NANOG and SOX2, indicating that PRDM14 is integrated into the core transcriptional regulatory network. More importantly, in a gain-of-function assay, we showed that PRDM14 is able to enhance the efficiency of reprogramming of human fibroblasts in conjunction with OCT4, SOX2 and KLF4. Altogether, our study uncovers a wealth of novel hESC regulators wherein PRDM14 exemplifies a key transcription factor required for the maintenance of hESC identity and the reacquisition of pluripotency in human somatic cells. [ABSTRACT FROM AUTHOR]

Published

2010

31. Transcriptional repression in ES cells.

Author

Cheong, Clara Y. and Lufkin, Thomas

Published

2010

32. Dlx5 and Dlx6 Regulate the Development of Parvalbumin-Expressing Cortical Interneurons.

Author

Yanling Wang, Dye, Catherine A., Sohal, Vikaas, Long, Jason E., Estrada, Rosanne C., Roztocil, Tomas, Lufkin, Thomas, Deisseroth, Karl, Baraban, Scott C., and Rubenstein, John L. R.

Subjects

NEURONS, CEREBRAL cortex, GENES, BASAL ganglia, INTERNEURONS, SPASMS

Abstract

Dlx5 and Dlx6 homeobox genes are expressed in developing and mature cortical interneurons. Simultaneous deletion of Dlx5 and 6 results in exencephaly of the anterior brain; despite this defect, prenatal basal ganglia differentiation appeared largely intact, while tangential migration of Lhx6+and Mafb+ interneurons to the cortex was reduced and disordered. The migration deficits were associated with reduced CXCR4 expression. Transplantation of mutant immature interneurons into a wild-type brain demonstrated that loss of either Dlx5 or Dlx5&6 preferentially reduced the number of mature parvalbumin + interneurons; those parvalbumin + interneurons that were present had increased dendritic branching. Dlx5/6+/-mice, which appear normal histologically, show spontaneous electrographic seizures and reduced power of gamma oscillations. Thus, Dlx5&6 appeared to be required for development and function of somal innervating (parvalbumin+) neocortical interneurons. This contrasts with Dlx1, whose function is required for dendrite innervating (calretinin+, somatostatin+, and neuropeptide Y+interneurons (Cobos et al., 2005). [ABSTRACT FROM AUTHOR]

Published

2010

33. The role of post-transcriptional RNA processing and plasmid vector sequences on transient transgene expression in zebrafish.

Author

Chatterjee, Sumantra, Lin Min, Murthy Karuturi, R. Krishna, and Lufkin, Thomas

Abstract

A tissue-specific transgenic model was employed to test the effects of intron and vector sequences on transgene expression in zebrafish after microinjection. In this model, the 2.3 kb promoter taken from the 50 upstream region of the transcription initiation site of keratin 4 (krt4) was used to drive the enhanced green fluorescence protein (EGFP) reporter gene in a transgenic vector. For assaying the strength of EGFP expression, the effects of including an intron before the EGFP coding region or using different forms of DNA, including circular plasmid, linear full-length plasmid, and the linear transgene coding region without any prokaryotic vector sequence, were tested. After microinjection, the transgene expression was analyzed using transient assays. Consequently, further comparative analysis supported by Fisher's exact test was performed based on the data generated by analyzing the strength of the transgene expression. It was shown that inclusion of an intron in the construct increases the transgene expression in a transient transgenic zebrafish assay. Furthermore, the circular plasmid containing the transgene produced the strongest EGFP expression. [ABSTRACT FROM AUTHOR]

Published

2010

34. Deletion of the WD40 Domain of LRRK2 in Zebrafish Causes Parkinsonism-Like Loss of Neurons and Locomotive Defect.

Author

Donglai Sheng, Dianbo Qu, Ken Hon Hung Kwok, Seok Shin Ng, Adrian Yin Ming Lim, Aw, Sharon Siqi, Charlie Wah Heng Lee, Wing Kin Sung, Eng King Tan, Lufkin, Thomas, Jesuthasan, Suresh, Sinnakaruppan, Mathavan, and Jianjun Liu

Subjects

NEURONS, ZEBRA danio, HOMOLOGY (Biology), DIENCEPHALON, PARKINSON'S disease

Abstract

LRRK2 plays an important role in Parkinson's disease (PD), but its biological functions are largely unknown. Here, we cloned the homolog of human LRRK2, characterized its expression, and investigated its biological functions in zebrafish. The blockage of zebrafish LRRK2 (zLRRK2) protein by morpholinos caused embryonic lethality and severe developmental defects such as growth retardation and loss of neurons. In contrast, the deletion of the WD40 domain of zLRRK2 by morpholinos targeting splicing did not induce severe embryonic developmental defects; rather it caused Parkinsonism-like phenotypes, including loss of dopaminergic neurons in diencephalon and locomotion defects. These neurodegenerative and locomotion defects could be rescued by over-expressing zLRRK2 or hLRRK2 mRNA. The administration of L-dopa could also rescue the locomotion defects, but not the neurodegeneration. Taken together, our results demonstrate that zLRRK2 is an ortholog of hLRRK2 and that the deletion of WD40 domain of zLRRK2 provides a disease model for PD. [ABSTRACT FROM AUTHOR]

Published

2010

35. Tbx3 improves the germ-line competency of induced pluripotent stem cells.

Author

Jianyong Han, Ping Yuan, Henry Yang, Jinqiu Zhang, Boon Seng Soh, Pin Li, Siew Lan Lim, Suying Cao, Junliang Tay, Orlov, Yuriy L., Lufkin, Thomas, Huck-Hui Ng, Wai-Leong Tam, and Bing Lim

Subjects

STEM cells, SOMATIC cells, GENE expression, FIBROBLASTS, MOSAICISM, ANTIBODY diversity, GENOMES, GERM cells, CHROMATIN

Abstract

Induced pluripotent stem (iPS) cells can be obtained by the introduction of defined factors into somatic cells. The combination of Oct4 (also known as Pou5f1), Sox2 and Klf4 (which we term OSK) constitutes the minimal requirement for generating iPS cells from mouse embryonic fibroblasts. These cells are thought to resemble embryonic stem cells (ESCs) on the basis of global gene expression analyses; however, few studies have tested the ability and efficiency of iPS cells to contribute to chimaerism, colonization of germ tissues, and most importantly, germ-line transmission and live birth from iPS cells produced by tetraploid complementation. Using genomic analyses of ESC genes that have roles in pluripotency and fusion-mediated somatic cell reprogramming, here we show that the transcription factor Tbx3 significantly improves the quality of iPS cells. iPS cells generated with OSK and Tbx3 (OSKT) are superior in both germ-cell contribution to the gonads and germ-line transmission frequency. However, global gene expression profiling could not distinguish between OSK and OSKT iPS cells. Genome-wide chromatin immunoprecipitation sequencing analysis of Tbx3-binding sites in ESCs suggests that Tbx3 regulates pluripotency-associated and reprogramming factors, in addition to sharing many common downstream regulatory targets with Oct4, Sox2, Nanog and Smad1. This study underscores the intrinsic qualitative differences between iPS cells generated by different methods, and highlights the need to rigorously characterize iPS cells beyond in vitro studies. [ABSTRACT FROM AUTHOR]

Published

2010

36. A symphony of inner ear developmental controlgenes.

Author

Chatterjee, Sumantra, Kraus, Petra, and Lufkin, Thomas

Subjects

INNER ear, VERTEBRATES, GENE expression, MORPHOGENESIS, ECTODERMAL dysplasia

Abstract

The inner ear is one of the most complex and detailed organs in the vertebrate body and provides us with the priceless ability to hear and perceive linear and angular acceleration (hence maintain balance). The development and morphogenesis of the inner ear from an ectodermal thickening into distinct auditory and vestibular components depends upon precise temporally and spatially coordinated gene expression patterns and well orchestrated signaling cascades within the otic vesicle and upon cellular movements and interactions with surrounding tissues. Gene loss of function analysis in mice has identified homeobox genes along with other transcription and secreted factors as crucial regulators of inner ear morphogenesis and development. While otic induction seems dependent upon fibroblast growth factors, morphogenesis of the otic vesicle into the distinct vestibular and auditory components appears to be clearly dependent upon the activities of a number of homeobox transcription factors. The Pax2 paired-homeobox gene is crucial for the specification of the ventral otic vesicle derived auditory structures and the Dlx5 and Dlx6 homeobox genes play a major role in specification of the dorsally derived vestibular structures. Some Micro RNAs have also been recently identified which play a crucial role in the inner ear formation. [ABSTRACT FROM AUTHOR]

Published

2010

37. Reprogramming of fibroblasts into induced pluripotent stem cells with orphan nuclear receptor Esrrb.

Author

Bo Feng, Jianming Jiang, Petra Kraus, Jia-Hui Ng, Jian-Chien Dominic Heng, Yun-Shen Chan, Lai-Ping Yaw, Weiwei Zhang, Yuin-Han Loh, Jianyong Han, Vinsensius B. Vega, Cacheux-Rataboul, Valere, Bing Lim, Lufkin, Thomas, and Huck-Hui Ng

Subjects

FIBROBLASTS, STEM cell research, EMBRYONIC stem cells, NUCLEAR receptors (Biochemistry), TRANSCRIPTION factors, MOSAICISM, SOMATIC cells

Abstract

The dominant effect of transcription factors in imparting expanded potency is best exemplified by the reprogramming of fibroblasts to pluripotent cells using retrovirus-mediated transduction of defined transcription factors. In the murine system, Oct4, Sox2, c-Myc and Klf4 are sufficient to convert fibroblasts to induced pluripotent stem (iPS) cells that have many characteristics of embryonic stem (ES) cells. Here we show that the orphan nuclear receptor Esrrb functions in conjunction with Oct4 and Sox2 to mediate reprogramming of mouse embryonic fibroblasts (MEFs) to iPS cells. Esrrb-reprogrammed cells share similar expression and epigenetic signatures as ES cells. These cells are also pluripotent and can differentiate in vitro and in vivo into the three major embryonic cell lineages. Furthermore, these cells contribute to mouse chimaeras and are germline transmissible. In ES cells, Esrrb targets many genes involved in self-renewal and pluripotency. This suggests that Esrrb may mediate reprogramming through the upregulation of ES-cell-specific genes. Our findings also indicate that it is possible to reprogram MEFs without exogenous Klf transcription factors and link a nuclear receptor to somatic cell reprogramming. [ABSTRACT FROM AUTHOR]

Published

2009

38. MicroRNA-134 Modulates the Differentiation of Mouse Embryonic Stem Cells, Where It Causes Post-Transcriptional Attenuation of Nanog and LRH1.

Author

TAY, YVONNE M.-S., WAI-LEONG TAM, YEN-SIN ANG, GAUGHWIN, PHILIP M., YANG, HENRY, WEIJIA WANG, LIU, RUBING, GEORGE, JOSHY, HUCK-HUI NG, PERERA, RANJAN J., LUFKIN, THOMAS, RIGOUTSOS, ISIDORE, THOMSON, ANDREW M., and LIM, BING

Subjects

RNA, CELL differentiation, EMBRYONIC stem cells, TRANSCRIPTION factors, GENE expression, CELL growth, TRETINOIN

Abstract

Hundreds of microRNAs (miRNAs) are expressed in mammalian cells, where they aid in modulating gene expression by mediating mRNA transcript cleavage and/or regulation of translation rate. Functional studies to date have demonstrated that several of these miRNAs are important during development. However, the role of miRNAs in the regulation of stem cell growth and differentiation is not well understood. We show herein that microRNA (miR)-134 levels are maximally elevated at day 4 after retinoic acid-induced differentiation or day 2 after N2B27-induced differentiation of mouse embryonic stem cells (mESCs), but this change is not observed during embryoid body differentiation. The elevation of miR-134 levels alone in mESCs enhances differentiation toward ectodermal lineages, an effect that is blocked by a miR-134 antagonist. The promotion of mESC differentiation by miR-134 is due, in part, to its direct translational attenuation of Nanog and LRH1, both of which are known positive regulators of Oct4/POU5F1 and mESC growth. Together, the data demonstrate that miR-134 alone can enhance the differentiation of mESCs to ectodermal lineages and establish a functional role for miR-134 in modulating mESC differentiation through its potential to target and regulate multiple mRNAs. [ABSTRACT FROM AUTHOR]

Published

2008

39. Homeobox gene Sax2 deficiency causes an imbalance in energy homeostasis.

Author

Simon, Ruth, Lufkin, Thomas, and Bergemann, Andrew D.

Abstract

The brain, in particular the hypothalamus and the brainstem, plays a critical role in the regulation of energy homeostasis by incorporating signals from the periphery and translating them into feeding behavior. Here we show that the homeobox gene Sax2, which is expressed predominantly in the brainstem, in the vicinity of serotonergic neurons, contributes to this physiological balance. Sax2 deficiency results in a decrease of fat and glycogen storage, reduced blood glucose levels, and raised serotonin levels in the hindbrain. Surprisingly, in the brainstem the expression levels of pro-opiomelanocortin and neuropeptide Y were indicative of a fasting condition, opposed to the observed high serotonin levels implying satiation. Furthermore, Sax2-directed lacZ expression reveals a dramatic change of the distribution of Sax2 -expressing cells in the null mutant occurring during perinatal development. These data strongly suggest that Sax2 is required for the coordinated crosstalk of factors involved in the maintenance of energy homeostasis. Developmental Dynamics 236:2792-2799, 2007. © 2007 Wiley-Liss, Inc. [ABSTRACT FROM AUTHOR]

Published

2007

40. Zfp206 Is a Transcription Factor That Controls Pluripotency of Embryonic Stem Cells.

Author

Zheng-Xu Wang, Kueh, Jacqueline L. L., Christina Hui-Leng Teh, Rossbach, Michael, Lim, Linda, Pin Li, Kee-Yew Wong, Lufkin, Thomas, Robson, Paul, and Stanton, Lawrence W.

Subjects

TRANSCRIPTION factors, EMBRYONIC stem cells, CELL differentiation, GENE expression, EMBRYOLOGY, TRETINOIN, CELL culture, THERAPEUTICS

Abstract

Zfp206 (ZNF206 in human) encodes a zinc finger- and SCAN domain-containing protein that is highly expressed in pluripotent ESC. Upon differentiation of human and mouse ESC, Zfp206 expression is quickly repressed. Zfp206 was found to be expressed throughout embryogenesis but absent in adult tissues except testis. We have identified a role for Zfp206 in controlling ESC differentiation. ESC engineered to overexpress Zfp206 were found to be resistant to differentiation induced by retinoic acid. In addition, ESC with knocked-down expression of Zfp206 were more sensitive to differentiation by retinoic acid treatment. We found that Zfp206 was able to enhance expression from its own promoter and also activate transcription of the Oct4 and Nanog promoters. Our results show that Zfp206 is an embryonic transcription factor that plays a role in regulating pluripotency of embryonic stem cells. [ABSTRACT FROM AUTHOR]

Published

2007

41. Sall4 modulates embryonic stem cell pluripotency and early embryonic development by the transcriptional regulation of Pou5f1.

Author

Zhang, Jinqiu, Tam, Wai-Leong, Tong, Guo Qing, Wu, Qiang, Chan, Hsiao-Yun, Soh, Boon-Seng, Lou, Yuefei, Yang, Jianchang, Ma, Yupo, Chai, Li, Ng, Huck-Hui, Lufkin, Thomas, Robson, Paul, and Lim, Bing

Subjects

EMBRYONIC stem cells, EMBRYOLOGY, GENE expression, GENETIC regulation, GENETIC transcription, SMALL interfering RNA, TROPHOBLAST, ZYGOTES

Abstract

Embryonic stem (ES) cells are pluripotent cells that can self-renew or differentiate into many cell types. A unique network of transcription factors and signalling molecules are essential for maintaining this capability. Here, we report that a spalt family member, Sall4, is required for the pluripotency of ES cells. Similarly to Oct4, a reduction in Sall4 levels in mouse ES cells results in respecification, under the appropriate culture conditions, of ES cells to the trophoblast lineage. Sall4 regulates transcription of Pou5f1 which encodes Oct4. Sall4 binds to the highly conserved regulatory region of the Pou5f1 distal enhancer and activates Pou5f1 expression in vivo and in vitro. Microinjection of Sall4 small interfering (si) RNA into mouse zygotes resulted in reduction of Sall4 and Oct4 mRNAs in preimplantation embryos and significant expansion of Cdx2 expression into the inner cell mass. These results demonstrate that Sall4 is a transcriptional activator of Pou5f1 and has a critical role in the maintenance of ES cell pluripotency by modulating Oct4 expression. The data also indicates that Sall4 is important for early embryonic cell-fate decisions. [ABSTRACT FROM AUTHOR]

Published

2006

42. Genetic Variation in Bone Growth Patterns Defines Adult Mouse Bone Fragility.

Author

Price, Christopher, Herman, Brad C, Lufkin, Thomas, Goldman, Haviva M, and Jepsen, Karl J

Published

2005

43. Transcriptome Analysis of Zebrafish Embryogenesis Using Microarrays.

Author

Mathavan, Sinnakaruppan, Lee, Serene G. P., Mak, Alicia, Miller, Lance D., Murthy, Karuturi Radha Krishna, Govindarajan, Kunde R., Yan Tong, Yi Lian Wu, Siew Hong Lam, Yang, Henry, Ruan, Yijun, Korzh, Vladimir, Zhiyuan Gong, Liu, Edison T., Lufkin, Thomas, and Mullins, Mary

Subjects

ANIMAL genetics, ZEBRA danio, MORPHOGENESIS, GENES, GENE expression, GENOMES

Abstract

Zebrafish (Danio rerio) is a well-recognized model for the study of vertebrate developmental genetics, yet at the same time little is known about the transcriptional events that underlie zebrafish embryogenesis. Here we have employed microarray analysis to study the temporal activity of developmentally regulated genes during zebrafish embryogenesis. Transcriptome analysis at 12 different embryonic time points covering five different developmental stages (maternal, blastula, gastrula, segmentation, and pharyngula) revealed a highly dynamic transcriptional profile. Hierarchical clustering, stage-specific clustering, and algorithms to detect onset and peak of gene expression revealed clearly demarcated transcript clusters with maximum gene activity at distinct developmental stages as well as co-regulated expression of gene groups involved in dedicated functions such as organogenesis. Our study also revealed a previously unidentified cohort of genes that are transcribed prior to the mid-blastula transition, a time point earlier than when the zygotic genome was traditionally thought to become active. Here we provide, for the first time to our knowledge, a comprehensive list of developmentally regulated zebrafish genes and their expression profiles during embryogenesis, including novel information on the temporal expression of several thousand previously uncharacterized genes. The expression data generated from this study are accessible to all interested scientists from our institute resource database (http://giscompute.gis.a-star.edu.sg/~govind/zebrafish/data_download.html). [ABSTRACT FROM AUTHOR]

Published

2005

44. Postnatal Lethality in Mice Lacking the Sax2 Homeobox Gene Homologous to Drosophila S59/slouch: Evidence for Positive and Negative Autoregulation.

Author

Simon, Ruth and Lufkin, Thomas

Subjects

HOMEOBOX genes, GENETIC transcription, DEVELOPMENTAL biology, MORPHOGENESIS, EMBRYOLOGY, AUTORECEPTORS

Abstract

Homeobox gene transcription factors direct multiple functions during development. They are involved in early patterning of the embryo as well as cell specification, cell differentiation, and organogenesis. Here we describe a previously uncharacterized murine homeobox gene, Sax2, that shows high similarity to the Drosophila S59/slouch and murine Sax1 genes. We show that Sax2 gene expression occurs early during embryogenesis in the midbrain, the midbrain-hindbrain boundary, the ventral neural tube, the developing eye, and the apical ectodermal ridge of the limb. To determine the role of Sax2 during development, we generated a knockout mouse line by replacing part of the Sax2 coding sequences with the lacZ gene. The Sax2 null allele mutants exhibit a strong phenotype indicated by growth retardation starting immediately after birth and leading to premature death within the first 3 weeks postnatal. Intriguingly, our studies also demonstrated a striking autoregulation of the Sax2 gene in both positive- and negative-feedback mechanisms depending on the specific cell type expressing Sax2. [ABSTRACT FROM AUTHOR]

Published

2003

45. Mammalian Dlx homeobox gene control of craniofacial and inner ear morphogenesis.

Author

Kraus, Petra and Lufkin, Thomas

Published

1999

46. Short Communications.

Author

Wang, Weidong and Lufkin, Thomas

Published

1997

47. DLx5 and Dlx6: An Evolutionary Conserved Pair of Murine Homeobox Genes Expressed in the Embryonic Skeletona.

Author

Chen, Xiaowei, Li, Xue, Wang, Weidong, and Lufkin, Thomas

Published

1996

48. Tetratricopeptide repeat domain 9A modulates anxiety-like behavior in female mice.

Author

Lim, Lee Wei, Shrestha, Smeeta, Or, Yu Zuan, Tan, Shawn Zheng Kai, Chung, Hwa Hwa, Sun, Yang, Lim, Chew Leng, Khairuddin, Sharafuddin, Lufkin, Thomas, and Lin, Valerie Chun Ling

Abstract

Tetratricopeptide repeat domain 9A (TTC9A) expression is abundantly expressed in the brain. Previous studies in TTC9A knockout (TTC9A−/−) mice have indicated that TTC9A negatively regulates the action of estrogen. In this study we investigated the role of TTC9A on anxiety-like behavior through its functional interaction with estrogen using the TTC9A−/− mice model. A battery of tests on anxiety-related behaviors was conducted. Our results demonstrated that TTC9A−/− mice exhibited an increase in anxiety-like behaviors compared to the wild type TTC9A+/+ mice. This difference was abolished after ovariectomy, and administration of 17-β-estradiol benzoate (EB) restored this escalated anxiety-like behavior in TTC9A−/− mice. Since serotonin is well-known to be the key neuromodulator involved in anxiety behaviors, the mRNA levels of tryptophan hydroxylase (TPH) 1, TPH2 (both are involved in serotonin synthesis), and serotonin transporter (5-HTT) were measured in the ventromedial prefrontal cortex (vmPFC) and dorsal raphe nucleus (DRN). Interestingly, the heightened anxiety in TTC9A−/− mice under EB influence is consistent with a greater induction of TPH 2, and 5-HTT by EB in DRN that play key roles in emotion regulation. In conclusion, our data indicate that TTC9A modulates the anxiety-related behaviors through modulation of estrogen action on the serotonergic system in the DRN. [ABSTRACT FROM AUTHOR]

Published

2016

49. Cre recombinase expression in the floorplate, notochord and gut epithelium in transgenic embryos driven by the Hoxa-1 enhancer III.

Author

Li, Xue and Lufkin, Thomas

Published

2000

50. Assignment of the murine Hmx1 homeobox gene to the proximal region of mouse Chromosome 5.

Author

Wang, Weidong, Yoshiura, Koh-ichiro, Murray, Jeff, and Lufkin, Thomas

Published

1997