Your search keyword '"Arkell, Ruth"' showing total 39 results

1. Functional analysis of transforming growth factor-beta related molecules during early mouse development

Author

Arkell, Ruth Maree

Subjects

572.8, Genetics

Abstract

Embryogenesis requires cell-cell communication in which individual cells send and receive signals that determine their final fate. The transforming growth factor-β (TGF-β) superfamily of molecules encodes secreted factors which are capable of regulating cellular growth and differentiation. Recently, members of the TGF-β superfamily have emerged as candidates for many postulated embryonic inductive interactions. As a step towards understanding such interactions, this thesis investigates the hypothesis that TGF-β superfamily molecules may act as embryonic inducing factors in the mouse. The embryonic expression of a number of TGF-β superfamily members and a putative inhibitor of one of these, follistatin, were investigated. While activin (a mesoderm inducing factor in Xenopus animal caps) was not expressed in the mouse embryo, follistatin, BMP-7, BMP-2 and Vgr-2 were expressed during gastrulation and early organogenesis. Strategies were designed to ectopically express two of these molecules, BMP-7 and Vgr-2 in embryogenesis. Firstly, embryonic stem (ES) cells were used as a vehicle to secrete Vgr-2 throughout the embryo. No effect on embryonic morphology was detected, although conditioned medium from the ES cells is capable of inducing mesoderm in Xenopus. Secondly, COS cells were used to deliver a localised source of BMP-7 to the cranial neural plate in cultured embryos. Such ectopic expression resulted in the induction of ectopic dorsal neural marker expression (Msx1 and AP-2), the diminished expression of a ventral marker (Shh), and a localised expansion of neurectodermal tissue. The localisation of endogenous BMP-7 mRNA during formation and patterning of the neural axis, together with the activities shown in this assay, suggest that BMP-7 may direct one or more aspects of early central nervous system formation in the mouse.

Published

1996

2. Disruption of entire Cables2 locus leads to embryonic lethality by diminished Rps21 gene expression and enhanced p53 pathway

Author

Dinh, Tra Thi Huong, Iseki, Hiroyoshi, Mizuno, Seiya, Iijima-Mizuno, Saori, Tanimoto, Yoko, Daitoku, Yoko, Kato, Kanako, Hamada, Yuko, Hasan, Ammar Shaker Hamed, Suzuki, Hayate, Arkell, Ruth, Dinh, Tra Thi Huong, Iseki, Hiroyoshi, Mizuno, Seiya, Iijima-Mizuno, Saori, Tanimoto, Yoko, Daitoku, Yoko, Kato, Kanako, Hamada, Yuko, Hasan, Ammar Shaker Hamed, Suzuki, Hayate, and Arkell, Ruth

Abstract

In vivo function of CDK5 and Abl enzyme substrate 2 (Cables2), belonging to the Cables protein family, is unknown. Here, we found that targeted disruption of the entire Cables2 locus (Cables2d) caused growth retardation and enhanced apoptosis at the gastrulation stage and then induced embryonic lethality in mice. Comparative transcriptome analysis revealed disruption of Cables2, 50% down-regulation of Rps21 abutting on the Cables2 locus, and up-regulation of p53-target genes in Cables2d gastrulas. We further revealed the lethality phenotype in Rps21-deleted mice and unexpectedly, the exon 1-deleted Cables2 mice survived. Interestingly, chimeric mice derived from Cables2d ESCs carrying exogenous Cables2 and tetraploid wild-type embryo overcame gastrulation. These results suggest that the diminished expression of Rps21 and the completed lack of Cables2 expression are intricately involved in the embryonic lethality via the p53 pathway. This study sheds light on the importance of Cables2 locus in mouse embryonic development.

Published

2021

3. Zic2 mutation causes Holoprosencephaly via disruption of NODAL signalling.

Author

Houtmeyers, Rob, Tchouate Gainkam, Lea Olive, Glanville-Jones, Hannah HA, Van den Bosch, Ben, Chappell, Anna, Barratt, Kristen KS, Souopgui, Jacob, Tejpar, Sabine, Arkell, Ruth, Houtmeyers, Rob, Tchouate Gainkam, Lea Olive, Glanville-Jones, Hannah HA, Van den Bosch, Ben, Chappell, Anna, Barratt, Kristen KS, Souopgui, Jacob, Tejpar, Sabine, and Arkell, Ruth

Abstract

The ZIC2 transcription factor is one of the genes most commonly mutated in Holoprosencephaly (HPE) probands. Studies in cultured cell lines and mice have shown loss of ZIC2 function is the pathogenic mechanism but the molecular details of this ZIC2 requirement remain elusive. HPE arises when signals that direct morphological and fate changes in the developing brain and facial primordia are not sent or received. One critical signal is sent from the prechordal plate (PrCP) which develops beneath the ventral forebrain. An intact NODAL signal transduction pathway and functional ZIC2 are both required for PrCP establishment. We now show that ZIC2 acts downstream of the NODAL signal during PrCP development. ZIC2 physically interacts with SMAD2 and SMAD3, the receptor activated proteins that control transcription in a NODAL dependent manner. Together SMAD3 and ZIC2 regulate FOXA2 transcription in cultured cells and Zic2 also controls foxA2 expression during Xenopus development. Variant forms of the ZIC2 protein, associated with HPE in man or mouse, are deficient in their ability to influence SMAD-dependent transcription. These findings reveal a new mechanism of NODAL signal transduction in the mammalian node and provide the first molecular explanation of how ZIC2 loss-of-function precipitates HPE., SCOPUS: ar.j, info:eu-repo/semantics/published

Published

2016

4. Fibroblast-specific upregulation of Flightless I impairs wound healing

Author

Turner, Christopher T., Waters, James M., Jackson, Jessica E., Arkell, Ruth, Cowin, Allison, Turner, Christopher T., Waters, James M., Jackson, Jessica E., Arkell, Ruth, and Cowin, Allison

Abstract

The cytoskeletal protein Flightless (Flii) is a negative regulator of wound healing. Upregulation of Flii is associated with impaired migration, proliferation and adhesion of both fibroblasts and keratinocytes. Importantly, Flii translocates from the cytoplasm to the nucleus in response to wounding in fibroblasts but not keratinocytes. This cell-specific nuclear translocation of Flii suggests that Flii may directly regulate gene expression in fibroblasts, providing one potential mechanism of action for Flii in the wound healing response. To determine whether the tissue-specific upregulation of Flii in fibroblasts was important for the observed inhibitory effects of Flii on wound healing, an inducible fibroblast-specific Flii overexpressing mouse model was generated. The inducible ROSA26 system allowed the overexpression of Flii in a temporal and tissue-specific manner in response to tamoxifen treatment. Wound healing in the inducible mice was impaired, with wounds at day 7 postwounding significantly larger than those from non-inducible controls. There was also reduced collagen maturation, increased myofibroblast infiltration and elevated inflammation. The impaired healing response was similar in magnitude to that observed in mice with non-tissue-specific upregulation of Flii suggesting that fibroblast-derived Flii may have an important role in the wound healing response.

Published

2015

5. Wnt signalling in mouse gastrulation and anterior development: new players in the pathway and signal output

Author

Arkell, Ruth, Fossat, Nicolas, Tam, Patrick P. L., Arkell, Ruth, Fossat, Nicolas, and Tam, Patrick P. L.

Abstract

Embryonic development and adult homeostasis are dependent upon the coordinated action of signal transduction pathways such as the Wnt signalling pathway which is used iteratively during these processes. In the early post-implantation mouse embryo, Wnt/beta-catenin signalling activity plays a critical role in the formation of the primitive streak, progression of gastrulation and tissue patterning in the anterior posterior axis. The net output of the signalling pathway is influenced by the delivery and post-translational modification of the ligands, the counteracting activities of the activating components and the negative modulators, and the molecular interaction of beta-catenin, TCF and other factors regulating the transcription of downstream target genes.

Published

2014

6. Flightless I over-expression impairs skin barrier development, function and recovery following skin blistering

Author

Kopecki, Zlatko, Yang, Gink N., Arkell, Ruth, Jackson, Jessica E., Melville, Elizabeth, Iwata, Hiroaki, Ludwig, Ralf J., Zillikens, Detlef, Murrell, Dedee F., Cowin, Allison J, Kopecki, Zlatko, Yang, Gink N., Arkell, Ruth, Jackson, Jessica E., Melville, Elizabeth, Iwata, Hiroaki, Ludwig, Ralf J., Zillikens, Detlef, Murrell, Dedee F., and Cowin, Allison J

Abstract

Development of an intact epidermis is critical for maintaining the integrity of the skin. Patients with epidermolysis bullosa (EB) experience multiple erosions, which breach the epidermal barrier and lead to increased microbial colocalization of wounds, infections and sepsis. The cytoskeletal protein Flightless I (Flii) is a known regulator of both development and wound healing. Using Flii+/-, WT and FliiTg/Tg mice, we investigated the effect of altering Flii levels in embryos and adult mice on the development of the epidermal barrier and, consequently, how this affects the integrity of the skin in EB. Flii over-expression resulted in delayed formation of the epidermal barrier in embryos and decreased expression of tight junction (TJ) proteins Claudin-1 and ZO-2. Increased intercellular space and transepidermal water loss was observed in FliiTg/Tg adult mouse skin, while FliiTg/Tg keratinocytes showed altered TJ protein localization and reduced transepithelial resistance. Flii is increased in the blistered skin of patients with EB, and over-expression of Flii in experimental EBA showed impaired Claudin-1 and -4 TJ protein expression and delayed recovery of functional barrier post-blistering. Immunoprecipitation confirmed Flii associated with TJ proteins and in vivo actin assays showed that the effect of Flii on actin polymerization underpinned the impaired barrier function observed in FliiTg/Tg mice. These results therefore demonstrate an important role for Flii in the development and regulation of the epidermal barrier, which may contribute to the impaired healing and skin fragility of EB patients.

Published

2014

7. Attenuation of flightless I improves wound healing and enhances angiogenesis in a murine model of type 1 diabetes

Author

Ruzehaji, N, Kopecki, Zlatko, Melville, Elizabeth, Appleby, Sarah L., Bonder, Claudine S., Arkell, Ruth, Fitridge, Robert, Cowin, Allison J, Ruzehaji, N, Kopecki, Zlatko, Melville, Elizabeth, Appleby, Sarah L., Bonder, Claudine S., Arkell, Ruth, Fitridge, Robert, and Cowin, Allison J

Abstract

Aims/hypothesis: Skin lesions and ulcerations are severe complications of diabetes that often result in leg amputations. In this study we investigated the function of the cytoskeletal protein flightless I (FLII) in diabetic wound healing. We hypothesised

Published

2014

8. The Role of Zic Genes in Inner Ear Development in the Mouse: Exploring Mutant Mouse Phenotypes

Author

Chervenak, Andrew P., Bank, Lisa M., Thomsen, Nicole, Glanville-Jones, Hannah, Skibo, Jonathan, Millen, Kathleen J., Arkell, Ruth, Barald, Kate F., Chervenak, Andrew P., Bank, Lisa M., Thomsen, Nicole, Glanville-Jones, Hannah, Skibo, Jonathan, Millen, Kathleen J., Arkell, Ruth, and Barald, Kate F.

Abstract

Background: Murine Zic genes (Zic1-5) are expressed in the dorsal hindbrain and in periotic mesenchyme (POM) adjacent to the developing inner ear. Zic genes are involved in developmental signaling pathways in many organ systems, including the ear, although their exact roles haven't been fully elucidated. This report examines the role of Zic1, Zic2, and Zic4 during inner ear development in mouse mutants in which these Zic genes are affected. Results: Zic1/Zic4 double mutants don't exhibit any apparent defects in inner ear morphology. By contrast, inner ears from Zic2kd/kd and Zic2Ku/Ku mutants have severe but variable morphological defects in endolymphatic duct/sac and semicircular canal formation and in cochlear extension in the inner ear. Analysis of otocyst patterning in the Zic2Ku/Ku mutants by in situ hybridization showed changes in the expression patterns of Gbx2 and Pax2. Conclusions: The experiments provide the first genetic evidence that the Zic genes are required for morphogenesis of the inner ear. Zic2 loss-of-function doesn't prevent initial otocyst patterning but leads to molecular abnormalities concomitant with morphogenesis of the endolymphatic duct. Functional hearing deficits often accompany inner ear dysmorphologies, making Zic2 a novel candidate gene for ongoing efforts to identify the genetic basis of human hearing loss.

Published

2014

9. The Zic2 Gene Directs the Formation and Function of Node Cilia to Control Cardiac Situs

Author

Barratt, Kristen, Glanville-Jones, Hannah, Arkell, Ruth, Barratt, Kristen, Glanville-Jones, Hannah, and Arkell, Ruth

Abstract

Summary: The first molecular herald of organ asymmetry during murine embryogenesis is found at the periphery of the node in early-somite stage embryos. Asymmetric gene expression and calcium accumulation at the node occurs in response to a left-ward flow

Published

2014

10. The ZIC gene family encodes multi-functional proteins essential for patterning and morphogenesis.

Author

Houtmeyers, Rob, Souopgui, Jacob, Tejpar, Sabine, Arkell, Ruth, Houtmeyers, Rob, Souopgui, Jacob, Tejpar, Sabine, and Arkell, Ruth

Abstract

The zinc finger of the cerebellum gene (ZIC) discovered in Drosophila melanogaster (odd-paired) has five homologs in Xenopus, chicken, mice, and humans, and seven in zebrafish. This pattern of gene copy expansion is accompanied by a divergence in gene and protein structure, suggesting that Zic family members share some, but not all, functions. ZIC genes are implicated in neuroectodermal development and neural crest cell induction. All share conserved regions encoding zinc finger domains, however their heterogeneity and specification remain unexplained. In this review, the evolution, structure, and expression patterns of the ZIC homologs are described; specific functions attributable to individual family members are supported. A review of data from functional studies in Xenopus and murine models suggest that ZIC genes encode multifunctional proteins operating in a context-specific manner to drive critical events during embryogenesis. The identification of ZIC mutations in congenital syndromes highlights the relevance of these genes in human development., JOURNAL ARTICLE, SCOPUS: re.j, info:eu-repo/semantics/published

Published

2013

11. Genome-Wide ENU Mutagenesis in Combination with High Density SNP Analysis and Exome Sequencing Provides Rapid Identification of Novel Mouse Models of Developmental Disease

Author

Caruana, Georgina, Farlie, Peter G, Hart, Adam H, Bagheri-Fam, Stefan, Wallace, Megan J, Dobbie, Michael S, Gordon, Christopher T, Miller, Kerry A, Whittle, Belinda, Abud, Helen E, Arkell, Ruth, Cole, Timothy, Harley, Vincent R, Smyth, Ian M, Bertram, John F, Caruana, Georgina, Farlie, Peter G, Hart, Adam H, Bagheri-Fam, Stefan, Wallace, Megan J, Dobbie, Michael S, Gordon, Christopher T, Miller, Kerry A, Whittle, Belinda, Abud, Helen E, Arkell, Ruth, Cole, Timothy, Harley, Vincent R, Smyth, Ian M, and Bertram, John F

Abstract

BACKGROUND Mice harbouring gene mutations that cause phenotypic abnormalities during organogenesis are invaluable tools for linking gene function to normal development and human disorders. To generate mouse models harbouring novel alleles that are involved in organogenesis we conducted a phenotype-driven, genome-wide mutagenesis screen in mice using the mutagen N-ethyl-N-nitrosourea (ENU). METHODOLOGY/PRINCIPAL FINDINGS ENU was injected into male C57BL/6 mice and the mutations transmitted through the germ-line. ENU-induced mutations were bred to homozygosity and G3 embryos screened at embryonic day (E) 13.5 and E18.5 for abnormalities in limb and craniofacial structures, skin, blood, vasculature, lungs, gut, kidneys, ureters and gonads. From 52 pedigrees screened 15 were detected with anomalies in one or more of the structures/organs screened. Using single nucleotide polymorphism (SNP)-based linkage analysis in conjunction with candidate gene or next-generation sequencing (NGS) we identified novel recessive alleles for Fras1, Ift140 and Lig1. CONCLUSIONS/SIGNIFICANCE In this study we have generated mouse models in which the anomalies closely mimic those seen in human disorders. The association between novel mutant alleles and phenotypes will lead to a better understanding of gene function in normal development and establish how their dysfunction causes human anomalies and disease.

Published

2013

12. A murine Zic3 transcript with a premature termination codon evades nonsense-mediated decay during axis formation

Author

Ahmed, Jehangir, Ali, Radiya, Warr, Nicholas, Wilson, Heather, Bellchambers, Helen, Barratt, Kristen, Thompson, Amelia, Arkell, Ruth, Ahmed, Jehangir, Ali, Radiya, Warr, Nicholas, Wilson, Heather, Bellchambers, Helen, Barratt, Kristen, Thompson, Amelia, and Arkell, Ruth

Abstract

The ZIC transcription factors are key mediators of embryonic development and ZIC3 is the gene most commonly associated with situs defects (heterotaxy) in humans. Half of patient ZIC3 mutations introduce a premature termination codon (PTC). In vivo, PTC-co

Published

2013

13. Successful whole embryo culture with commercially available reagents

Author

Arkell, Ruth, Glanville-Jones, Hannah, Woo, James, Arkell, Ruth, Glanville-Jones, Hannah, and Woo, James

Abstract

Since its development in the 1970's, whole embryo culture (WEC) has provided an important method of growing and observing murine embryos ex utero. During WEC, embryos are immersed in a combination of rat serum and cell culture media, and supplied with heat and appropriate mixtures of CO2 and oxygen that mimic growth conditions in utero. One significant factor limiting the widespread use of WEC is the perception that commercially produced rat serum is inadequate to support normal rates of embryonic growth and development. Conversely, production of serum 'in-house' is technically demanding, time-consuming and expensive. The current study aimed to identify a WEC medium comprising commercially manufactured rat serum that would produce cultured embryos of comparable standard to those grown in utero. A mixed culture medium, composed of 50% commercial rat serum and 50% F12 Ham's cell culture medium with an N-2 neuronal cell growth supplement, was shown to support both a rate of growth, and the development of a range of features comparable to that which normally occur in vivo. Furthermore, the F12 (N-2) supplemented rat serum displayed a very low propensity to induce morphological abnormalities during the culture period. The study establishes a novel method of successful WEC using readily available commercial reagents and should enable the broader use of WEC.

Published

2013

14. The Influence of Flightless I on Toll-Like-Receptor-Mediated Inflammation in a Murine Model of Diabetic Wound Healing

Author

Ruzehaji, N, Mills, Stuart J., Melville, Elizabeth, Arkell, Ruth, Fitridge, Robert, Cowin, Allison J, Ruzehaji, N, Mills, Stuart J., Melville, Elizabeth, Arkell, Ruth, Fitridge, Robert, and Cowin, Allison J

Abstract

Impaired wound healing and ulceration represent a serious complication of both type 1 and type 2 diabetes. Cytoskeletal protein Flightless I (Flii) is an important inhibitor of wound repair, and reduced Flii gene expression in fibroblasts increased migration, proliferation, and adhesion. As such it has the ability to influence all phases of wound healing including inflammation, remodelling and angiogenesis. Flii has the potential to modulate inflammation through its interaction with MyD88 which it an adaptor protein for TLR4. To assess the effect of Flii on the inflammatory response of diabetic wounds, we used a murine model of streptozocin-induced diabetes and Flii genetic mice. Increased levels of Flii were detected in Flii transgenic murine wounds resulting in impaired healing which was exacerbated when diabetes was induced. When Flii levels were reduced in diabetic wounds of Flii-deficient mice, healing was improved and decreased levels of TLR4 were observed. In contrast, increasing the level of Flii in diabetic mouse wounds led to increased TLR4 and NF-B production. Treatment of murine diabetic wounds with neutralising antibodies to Flii led to an improvement in healing with decreased expression of TLR4. Decreasing the level of Flii in diabetic wounds may therefore reduce the inflammatory response and improve healing.

Published

2013

15. High Resolution Melt Analysis (HRMA); a Viable Alternative to Agarose Gel Electrophoresis for Mouse Genotyping

Author

Thomsen, Nicole, Ali, Radiya G., Ahmed, Jehangir, Arkell, Ruth, Thomsen, Nicole, Ali, Radiya G., Ahmed, Jehangir, and Arkell, Ruth

Abstract

Most mouse genetics laboratories maintain mouse strains that require genotyping in order to identify the genetically modified animals. The plethora of mutagenesis strategies and publicly available mouse alleles means that any one laboratory may maintain alleles with random or targeted insertions of orthologous or unrelated sequences as well as random or targeted deletions and point mutants. Many experiments require that different strains be cross bred conferring the need to genotype progeny at more than one locus. In contrast to the range of new technologies for mouse mutagenesis, genotyping methods have remained relatively static with alleles typically discriminated by agarose gel electrophoresis of PCR products. This requires a large amount of researcher time. Additionally it is susceptible to contamination of future genotyping experiments because it requires that tubes containing PCR products be opened for analysis. Progress has been made with the genotyping of mouse point mutants because a range of new high-throughput techniques have been developed for the detection of Single Nucleotide Polymorphisms. Some of these techniques are suitable for genotyping point mutants but do not detect insertion or deletion alleles. Ideally, mouse genetics laboratories would use a single, high-throughput platform that enables closed-tube analysis to genotype the entire range of possible insertion and deletion alleles and point mutants. Here we show that High Resolution Melt Analysis meets these criteria, it is suitable for closed-tube genotyping of all allele types and current genotyping assays can be converted to this technology with little or no effort.

Published

2012

16. Initiating head development in mouse embryos: Integrating signalling and transcriptional activity

Author

Arkell, Ruth, Tam, Patrick, Arkell, Ruth, and Tam, Patrick

Abstract

The generation of an embryonic body plan is the outcome of inductive interactions between the progenitor tissues that underpin their specification, regionalization and morphogenesis. The intercellular signalling activity driving these processes is deployed in a time- and site-specific manner, and the signal strength must be precisely controlled. Receptor and ligand functions are modulated by secreted antagonists to impose a dynamic pattern of globally controlled and locally graded signals onto the tissues of early post-implantation mouse embryo. In response to the WNT, Nodal and Bone Morphogenetic Protein (BMP) signalling cascades, the embryo acquires its body plan, which manifests as differences in the developmental fate of cells located at different positions in the anterior-posterior body axis. The initial formation of the anterior (head) structures in the mouse embryo is critically dependent on the morphogenetic activity emanating from two signalling centres that are juxtaposed with the progenitor tissues of the head. A common property of these centres is that they are the source of antagonistic factors and the hub of transcriptional activities that negatively modulate the function of WNT, Nodal and BMP signalling cascades. These events generate the scaffold of the embryonic head by the early-somite stage of development. Beyond this, additional tissue interactions continue to support the growth, regionalization, differentiation and morphogenesis required for the elaboration of the structure recognizable as the embryonic head.

Published

2012

17. Zinc fingers of the cerebellum (Zic): Transcription factors and co-factors

Author

Ali, Radiya, Bellchambers, Helen, Arkell, Ruth, Ali, Radiya, Bellchambers, Helen, and Arkell, Ruth

Abstract

The Zic genes encode zinc finger containing proteins that can bind proteins and DNA. The understanding of Zic molecular networks has been hampered by functional redundancy amongst family members, and because their loss-of-function phenotypes are indicative of a role in many signalling pathways. Recently molecular evidence has emerged confirming the pleiotropic nature of these proteins: they act both as classical transcription factors and as co-factors to directly and indirectly influence gene expression. It has long been known that germ-line mutation of the Zic genes in human and mouse causes a range of congenital disorders. Recently connections between Zic proteins and stem cell function have also emerged suggesting a role in adult onset diseases. The immediate challenge is to determine when and where these proteins act as transcription factors/co-factors during development and disease and how the switch between these roles is controlled.

Published

2012

18. Decreased expression of Flightless I, a gelsolin family member and developmental regulator, in early-gestation fetal wounds improves healing

Author

Lin, Cheng-Hung, Waters, James M, Powell, B C, Arkell, Ruth, Cowin, Allison J, Lin, Cheng-Hung, Waters, James M, Powell, B C, Arkell, Ruth, and Cowin, Allison J

Abstract

Up until late in the third trimester of gestation and through to adulthood, the healing response acts more to regenerate than to repair a wound. The mechanisms underlying this ''scar-free'' healing remain unknown although the actin cytoskeleton has a major role. Flightless I (Flii), an actin-remodelling protein and essential developmental regulator, negatively affects wound repair but its effect on scar-free fetal healing is unknown. Using fetal skin explants from E17 (regenerate) and E19 (repair) rats, the function of Flii in fetal wound repair was determined. Expression of Flii increased between E17 and E19 days of gestation and wounding transiently increased Flii expression in E17 but not E19 wounds. However, both confocal and immunofluorescent analysis showed E17 keratinocytes immediately adjacent to the wounds downregulated Flii. As a nuclear coactivator and inhibitor of proliferation and migration, the absence of Flii in cells at the edge of the wound could be instrumental in allowing these cells to proliferate and migrate into the wound deficit. In contrast, Flii was strongly expressed within the cytoplasm and nucleus of keratinocytes within epidermal cells at the leading edge of E19 wounded fetal skin explants. This increase in Flii expression in E19 wounds could affect the way these cells migrate into the wound space and contribute to impaired wound healing. Neutralising Flii protein improved healing of early- but not late-gestation wounds. Flii did not colocalise with actin cables formed around E17 wounds suggesting an independent mechanism of action distinct from its actin-binding function in scar-free wound repair.

Published

2011

19. Regulation of Focal Adhesions by Flightless I Involves Inhibition of Paxillin Phosphorylation via a Rac1-Dependent Pathway

Author

Kopecki, Zlatko, O'Neill, Geraldine M., Arkell, Ruth, Cowin, Allison J, Kopecki, Zlatko, O'Neill, Geraldine M., Arkell, Ruth, and Cowin, Allison J

Abstract

Flightless I (Flii) is an actin-remodeling protein that influences diverse processes including cell migration and gene transcription and links signal transduction with cytoskeletal regulation. Here, we show that Flii modulation of focal adhesions and filamentous actin stress fibers is Rac1-dependent. Using primary skin fibroblasts from Flii overexpressing (FliiTg/Tg), wild-type, and Flii deficient (Flii+/-) mice, we show that elevated expression of Flii increases stress fiber formation by impaired focal adhesion turnover and enhanced formation of fibrillar adhesions. Conversely, Flii knockdown increases the percentage of focal complex positive cells. We further show that a functional effect of Flii at both the cellular level and in in vivo mouse wounds is through inhibiting paxillin tyrosine phosphorylation and suppression of signaling proteins Src and p130Cas, both of which regulate adhesion signaling pathways. Flii is upregulated in response to wounding, and overexpression of Flii inhibits paxillin activity and reduces adhesion signaling by modulating the activity of the Rho family GTPases. Overexpression of constitutively active Rac1 GTPase restores the spreading ability of FliiTg/Tg fibroblasts and may explain the reduced adhesion, migration, and proliferation observed in FliiTg/Tg mice and their impaired wound healing, a process dependent on effective cellular motility and adhesion.

Published

2011

20. Overexpression of the Flii gene increases dermal-epidermal blistering in an autoimmune ColVII mouse model of epidermolysis bullosa acquisita

Author

Kopecki, Zlatko, Arkell, Ruth, Strudwick, Xanthe L, Hirose, Misa, Ludwig, Ralf J., Kern, Johannes S., Bruckner-Tuderman, Leena, Zillikens, Detlef, Murrell, Dedee F., Cowin, Allison J, Kopecki, Zlatko, Arkell, Ruth, Strudwick, Xanthe L, Hirose, Misa, Ludwig, Ralf J., Kern, Johannes S., Bruckner-Tuderman, Leena, Zillikens, Detlef, Murrell, Dedee F., and Cowin, Allison J

Abstract

Epidermolysis bullosa (EB) is a severe genetic skin fragility syndrome characterized by blister formation. The molecular basis of EB is still largely unknown and wound healing in patients suffering from EB remains a major challenge to their survival. Our

Published

2011

21. Mouse Strains for the Ubiquitous or Conditional Overexpression of the Flii Gene

Author

Thomsen, Nicole, Chappell, Anna, Ali, Radiya, Jones, Tamsin, Adams, Damian H, Matthaei, Klaus, Campbell, Hugh, Cowin, Allison J, Arkell, Ruth, Thomsen, Nicole, Chappell, Anna, Ali, Radiya, Jones, Tamsin, Adams, Damian H, Matthaei, Klaus, Campbell, Hugh, Cowin, Allison J, and Arkell, Ruth

Abstract

The gelsolin related actin binding protein, Flii, is able to regulate wound healing; mice with decreased Flii expression show improved wound healing whereas mice with elevated Flii expression exhibit impaired wound healing. In both mice and humans Flii expression increases with age and amelioration of FLII activity represents a possible therapeutic strategy for improved wound healing in humans. Despite analysis of Flii function in a variety of organisms we know little of the molecular mechanisms underlying Flii action. Two new murine alleles of Flii have been produced to drive constitutive or tissue-specific expression of Flii. Each strain is able to rescue the embryonic lethality associated with a Flii null allele and to impair wound healing. These strains provide valuable resources for ongoing investigation of Flii function in a variety of biological processes. genesis 49:681-688, 2011.

Published

2011

22. Regeneration of Hair Follicles Is Modulated by Flightless I (Flii) in a Rodent Vibrissa Model

Author

Arkell, Ruth, Waters, James M, Lindo, Jessica E, Cowin, Allison J, Arkell, Ruth, Waters, James M, Lindo, Jessica E, and Cowin, Allison J

Abstract

Regeneration of cells, tissues, and organs has long captured the attention of researchers for its obvious potential benefits in biomedical applications. Although mammals are notoriously poor at regeneration compared with many lower-order species, the hair follicle, paradoxically a defining characteristic of mammals, is capable of regeneration following partial amputation. To investigate the role of a negative regulator of wound healing, flightless I (Flii), on hair follicle regeneration, the bulbar region of vibrissae from rats as well as strains of mice expressing low (Flii+/-), normal (Flii+/+), and high (FLIITg/Tg) levels of Flii were surgically amputated, and then allowed to regenerate in vivo. Macroscopic and histological assessment of the regeneration process revealed impaired or delayed regenerative potential in Flii / follicles. Regenerated follicles expressing high levels of Flii (FLIITg/Tg) produced significantly longer terminal hair fibers. Immunohistochemical analysis was used to characterize the pattern of expression of Flii, as well as markers of hair follicle development and wound healing-associated factors during hair follicle regeneration. These studies confirmed that Flii appears to have a positive role in the regeneration of hair follicles, contrary to its negative influence on wound healing in skin.

Published

2010

23. Upregulation of PKD1L2 provokes a complex neuromuscular disease in the mouse

Author

Mackenzie, Francesca E, Romero, Rosario, Williams, Debbie, Gillingwater, Thomas, Hilton, Helen, Dick, Jim, Riddoch-Contreras, Joanna, Wong, Frances, Ireson, Lisa, Powles-Glover, Nicola, Riley, Genna, Underhill, Peter, Hough, Tertius, Arkell, Ruth, Greensmith, Linda, Ribchester, Richard R, Blanco, Gonzalo, Mackenzie, Francesca E, Romero, Rosario, Williams, Debbie, Gillingwater, Thomas, Hilton, Helen, Dick, Jim, Riddoch-Contreras, Joanna, Wong, Frances, Ireson, Lisa, Powles-Glover, Nicola, Riley, Genna, Underhill, Peter, Hough, Tertius, Arkell, Ruth, Greensmith, Linda, Ribchester, Richard R, and Blanco, Gonzalo

Abstract

Following a screen for neuromuscular mouse mutants, we identified ostes, a novel N-ethyl N-nitrosoureainduced mouse mutant with muscle atrophy. Genetic and biochemical evidence shows that upregulation of the novel, uncharacterized transient receptor potential polycystic (TRPP) channel PKD1L2 (polycystic kidney disease gene 1-like 2) underlies this disease. Ostes mice suffer from chronic neuromuscular impairments including neuromuscular junction degeneration, polyneuronal innervation and myopathy. Ectopic expression of PKD1L2 in transgenic mice reproduced the ostes myopathic changes and, indeed, caused severe muscle atrophy in Tg(Pkd1l2)/Tg(Pkd1l2) mice. Moreover, double-heterozygous mice (ostes/+, Tg(Pkd1l2)/0) suffer from myopathic changes more profound than each heterozygote, indicating positive correlation between PKD1L2 levels and disease severity. We show that, in vivo, PKD1L2 primarily associates with endogenous fatty acid synthase in normal skeletal muscle, and these proteins co-localize to costameric regions of the muscle fibre. In diseased ostes/ostes muscle, both proteins are upregulated, and ostes/ostes mice show signs of abnormal lipid metabolism. This work shows the first role for a TRPP channel in neuromuscular integrity and disease.

Published

2009

24. Role of the Transcription Factor Sox4 in Insulin Secretion and Impaired Glucose Tolerance

Author

Goldsworthy, Michelle, Hugill, Alison, Freeman, Helen, Horner, Emma, Shimomura, Kenju, Bogani, Debora, Pieles, Guido, Mijat, Vesna, Arkell, Ruth, Bhattacharya, Shoumo, Ashcroft, Frances M, Cox, Roger D, Goldsworthy, Michelle, Hugill, Alison, Freeman, Helen, Horner, Emma, Shimomura, Kenju, Bogani, Debora, Pieles, Guido, Mijat, Vesna, Arkell, Ruth, Bhattacharya, Shoumo, Ashcroft, Frances M, and Cox, Roger D

Abstract

OBJECTIVES-To identify, map, clone, and functionally validate a novel mouse model for impaired glucose tolerance and insulin secretion. RESEARCH DESIGN AND METHODS-Haploinsufflciency of the insulin receptor and associated mild insulin resistance has been

Published

2008

25. Zic2-associated holoprosencephaly is caused by a transient defect in the organizer region during gastrulation

Author

Warr, Nick, Powles-Glover, Nicola, Chappell, Anna, Robson, Joan, Norris, Dominic, Arkell, Ruth, Warr, Nick, Powles-Glover, Nicola, Chappell, Anna, Robson, Joan, Norris, Dominic, and Arkell, Ruth

Abstract

The putative transcription factor ZIC2 is associated with a defect of forebrain development, known as Holoprosencephaly (HPE), in humans and mouse, yet the mechanism by which aberrant ZIC2 function causes classical HPE is unexplained. The zinc finger domain of all mammalian Zic genes is highly homologous with that of the Gli genes, which are transcriptional mediators of Shh signalling. Mutations in Shh and many other Hh pathway members cause HPE and it has been proposed that Zic2 acts within the Shh pathway to cause HPE. We have investigated the embryological cause of Zic2-associated HPE and the relationship between Zic2 and the Shh pathway using mouse genetics. We show that Zic2 does not interact with Shh to produce HPE. Moreover, molecular defects that are able to account for the HPE phenotype are present in Zic2 mutants before the onset of Shh signalling. Mutation of Zic2 causes HPE via a transient defect in the function of the organizer region at mid-gastrulation which causes an arrest in the development of the prechordal plate (PCP), a structure required for forebrain midline morphogenesis. The analysis provides genetic evidence that Zic2 functions during organizer formation and that the PCP develops via a multi-step process.

Published

2008

26. Neural plate morphogenesis during mouse neurulation is regulated by antagonism of Bmp signalling

Author

Ybot-Gonzalez, Patricia, Gaston-Massuet, Carles, Girdler, Gemma, Klingensmith, John, Arkell, Ruth, Greene, Nicholas D E, Copp, Andrew J, Ybot-Gonzalez, Patricia, Gaston-Massuet, Carles, Girdler, Gemma, Klingensmith, John, Arkell, Ruth, Greene, Nicholas D E, and Copp, Andrew J

Abstract

Dorsolateral bending of the neural plate, an undifferentiated pseudostratified epithelium, is essential for neural tube closure in the mouse spinal region. If dorsolateral bending fails, spina bifida results. In the present study, we investigated the molecular signals that regulate the formation of dorsolateral hinge points (DLHPs). We show that Bmp2 expression correlates with upper spinal neurulation (in which DLHPs are absent); that Bmp2-null embryos exhibit premature, exaggerated DLHPs; and that the local release of Bmp2 inhibits neural fold bending. Therefore, Bmp signalling is necessary and sufficient to inhibit DLHPs. By contrast, the Bmp antagonist noggin is expressed dorsally in neural folds containing DLHPs, noggin-null embryos show markedly reduced dorsolateral bending and local release of noggin stimulates bending. Hence, Bmp antagonism is both necessary and sufficient to induce dorsolateral bending. The local release of Shh suppresses dorsal noggin expression, explaining the absence of DLHPs at high spinal levels, where notochordal expression of Shh is strong. DLHPs 'break through' at low spinal levels, where Shh expression is weaker. Zic2 mutant embryos fail to express Bmp antagonists dorsally and lack DLHPs, developing severe spina bifida. Our findings reveal a molecular mechanism based on antagonism of Bmp signalling that underlies the regulation of DLHP formation during mouse spinal neural tube closure.

Published

2007

27. Neural plate morphogenesis during mouse neurulation is regulated by antagonism of Bmp signalling

Author

Wellcome Trust, Ybot, Patricia, Gaston-Massuet, Carles, Girdler, Gemma, Klingensmith, John, Arkell, Ruth, Greene, Nicholas D. E., Copp, Andrew J., Wellcome Trust, Ybot, Patricia, Gaston-Massuet, Carles, Girdler, Gemma, Klingensmith, John, Arkell, Ruth, Greene, Nicholas D. E., and Copp, Andrew J.

Abstract

Dorsolateral bending of the neural plate, an undifferentiated pseudostratified epithelium, is essential for neural tube closure in the mouse spinal region. If dorsolateral bending fails, spina bifida results. In the present study, we investigated the molecular signals that regulate the formation of dorsolateral hinge points (DLHPs). We show that Bmp2 expression correlates with upper spinal neurulation (in which DLHPs are absent); that Bmp2-null embryos exhibit premature, exaggerated DLHPs; and that the local release of Bmp2 inhibits neural fold bending. Therefore, Bmp signalling is necessary and sufficient to inhibit DLHPs. By contrast, the Bmp antagonist noggin is expressed dorsally in neural folds containing DLHPs, noggin-null embryos show markedly reduced dorsolateral bending and local release of noggin stimulates bending. Hence, Bmp antagonism is both necessary and sufficient to induce dorsolateral bending. The local release of Shh suppresses dorsal noggin expression, explaining the absence of DLHPs at high spinal levels, where notochordal expression of Shh is strong. DLHPs ;break through' at low spinal levels, where Shh expression is weaker. Zic2 mutant embryos fail to express Bmp antagonists dorsally and lack DLHPs, developing severe spina bifida. Our findings reveal a molecular mechanism based on antagonism of Bmp signalling that underlies the regulation of DLHP formation during mouse spinal neural tube closure.

Published

2007

28. Loss of Atrx Affects Trophoblast Development and the Pattern of X-Inactivation in Extraembryonic Tissues

Author

Garrick, David, Sharpe, Jackie A, Arkell, Ruth, Dobbie, Lorraine, Smith, Andrew J H, Wood, William G, Higgs, Douglas R, Gibbons, Richard J, Garrick, David, Sharpe, Jackie A, Arkell, Ruth, Dobbie, Lorraine, Smith, Andrew J H, Wood, William G, Higgs, Douglas R, and Gibbons, Richard J

Abstract

ATRX is an X-encoded member of the SNF2 family of ATPase/helicase proteins thought to regulate gene expression by modifying chromatin at target loci. Mutations in ATRX provided the first example of a human genetic disease associated with defects in such proteins. To better understand the role of ATRX in development and the associated abnormalities in the ATR-X (alpha thalassemia mental retardation, X-linked) syndrome, we conditionally inactivated the homolog in mice, Atrx, at the 8- to 16-cell stage of development. The protein, Atrx, was ubiquitously expressed, and male embryos null for Atrx implanted and gastrulated normally but did not survive beyond 9.5 days postcoitus due to a defect in formation of the extraembryonic trophoblast, one of the first terminally differentiated lineages in the developing embryo. Carrier female mice that inherit a maternal null allele should be affected, since the paternal X chromosome is normally inactivated in extraembryonic tissues. Surprisingly, however, some carrier females established a normal placenta and appeared to escape the usual pattern of imprinted X-inactivation in these tissues. Together these findings demonstrate an unexpected, specific, and essential role for Atrx in the development of the murine trophoblast and present an example of escape from imprinted X chromosome inactivation.

Published

2006

29. An N-ethyl-N-nitrosourea screen for genes involved in variegation in the mouse

Author

Blewitt, Marnie E, Vickaryous, Nicola K, Hemley, Sarah J, Ashe, Alyson, Bruxner, Timothy J, Preis, Jost I, Arkell, Ruth, Whitelaw, Emma, Blewitt, Marnie E, Vickaryous, Nicola K, Hemley, Sarah J, Ashe, Alyson, Bruxner, Timothy J, Preis, Jost I, Arkell, Ruth, and Whitelaw, Emma

Abstract

We have developed a sensitized screen to identify genes involved in gene silencing, using random N-ethyl-N-nitrosourea mutagenesis on mice carrying a variegating GFP transgene. The dominant screen has produced six mutant lines, including both suppressors

Published

2005

30. Dissecting the genetic complexity of human 6p deletion syndromes by using a region-specific, phenotype-driven mouse screen

Author

Bogani, Debora, Willoughby, Catherine, Davies, Jennifer, Kaur, Kulvinder, Mirza, Ghazala, Paudyal, Anju, Haines, Heather, McKeone, Richard, Cadman, Matthew, Pieles, Guido, Schneider, Jurgen E, Battacharya, Shoumo, Hardy, Andrea, Nolan, Patrick, Tripodis, Nikos, Depew, Michael J, Chandrasekara, Ramya, Duncan, Gimara, Sharpe, Paul T, Greenfield, Andy, Denny, Paul, Brown, Steve D M, Ragoussis, Jiannis, Arkell, Ruth, Bogani, Debora, Willoughby, Catherine, Davies, Jennifer, Kaur, Kulvinder, Mirza, Ghazala, Paudyal, Anju, Haines, Heather, McKeone, Richard, Cadman, Matthew, Pieles, Guido, Schneider, Jurgen E, Battacharya, Shoumo, Hardy, Andrea, Nolan, Patrick, Tripodis, Nikos, Depew, Michael J, Chandrasekara, Ramya, Duncan, Gimara, Sharpe, Paul T, Greenfield, Andy, Denny, Paul, Brown, Steve D M, Ragoussis, Jiannis, and Arkell, Ruth

Abstract

Monosomy of the human chromosome 6p terminal region results in a variety of congenital malformations that include brain, craniofacial, and organogenesis abnormalities. To examine the genetic basis of these phenotypes, we have carried out an unbiased functional analysis of the syntenic region of the mouse genome (proximal Mmu13). A genetic screen for recessive mutations in this region recovered thirteen lines with phenotypes relevant to a variety of clinical conditions. These include two loci that cause holoprosencephaly, two that underlie anophthalmia, one of which also contributes to other craniofacial abnormalities such as microcephaly, agnathia, and palatogenesis defects, and one locus responsible for developmental heart and kidney defects. Analysis of heterozygous carriers of these mutations shows that a high proportion of these loci manifest with behavioral activity and sensorimotor deficits in the heterozygous state. This finding argues for the systematic, reciprocal phenotypic assessment of dominant and recessive mouse mutants. In addition to providing a resource of single gene mutants that model 6p-associated disorders, the work reveals unsuspected genetic complexity at this region. In particular, many of the phenotypes associated with 6p deletions can be elicited by mutation in one of a number of genes. This finding implies that phenotypes associated with contiguous gene deletion syndromes can result not only from dosage sensitivity of one gene in the region but also from the combined effect of monosomy for multiple genes that function within the same biological process.

Published

2005

31. New Semidominant Mutations that affect Mouse Development

Author

Bogani, Debora, Warr, Nick, Elms, Paul, Davies, Jennifer, Tymowska-Lalanne, Zuzanna, Goldsworthy, Michelle, Cox, Roger D, Keays, David A, Flint, Jonathan, Wilson, Valerie, Nolan, Patrick, Arkell, Ruth, Bogani, Debora, Warr, Nick, Elms, Paul, Davies, Jennifer, Tymowska-Lalanne, Zuzanna, Goldsworthy, Michelle, Cox, Roger D, Keays, David A, Flint, Jonathan, Wilson, Valerie, Nolan, Patrick, and Arkell, Ruth

Abstract

Dominantly acting mutations that produce visible phenotypes are frequently recovered, either during routine maintenance of colonies or from mutagenesis experiments. We have studied 12 dominant mouse mutations that cause a tail dysmorphology, a coat spotting phenotype, or a combination of these. The majority of these mutations act in a semidominant manner with the homozygous state associated with embryonic lethality and a visible phenotype at or before midgestation. The homozygous phenotypes include axis truncation and neural crest cell defects, as may be expected from the heterozygous phenotypes. The majority of mutations, however, also produced other phenotypes that include neural tube closure defects and aberrant heart looping. In one coat spotting mutant the homozygous condition is lethal before neural crest cell production commences. The mutated genes often function in processes additional to those alluded to by the heterozygous phenotype.

Published

2004

32. Organization and Evolution of a Gene-rich Region of the Mouse Genome: A 12.7Mb Region Deleted in the Del(13) Svea36H Mouse

Author

Mallon, Ann-Marie, Wilming, Laurens, Weekes, Joseph, Gilbert, James G R, Ashurst, Jennifer, Payrefitte, Sandrine, Matthews, Lucy, Cadman, Matthew, McKeone, Richard, Sellick, Chris A, Arkell, Ruth, Botcherby, Marc R M, Strivens, Mark A, Campbell, R Duncan, Gregory, Simon, Denny, Paul, Hancock, John M, Rogers, Jane, Brown, Steve D M, Mallon, Ann-Marie, Wilming, Laurens, Weekes, Joseph, Gilbert, James G R, Ashurst, Jennifer, Payrefitte, Sandrine, Matthews, Lucy, Cadman, Matthew, McKeone, Richard, Sellick, Chris A, Arkell, Ruth, Botcherby, Marc R M, Strivens, Mark A, Campbell, R Duncan, Gregory, Simon, Denny, Paul, Hancock, John M, Rogers, Jane, and Brown, Steve D M

Abstract

Del(13)Svea36H (Del36H) is a deletion of ∼20% of mouse chromosome 13 showing conserved synteny with human chromosome 6p22.1-6p22.3/6p25. The human region is lost in some deletion syndromes and is the site of several disease loci. Heterozygous Del36H mic

Published

2004

33. In vitro analysis of partial loss-of-function ZIC2 mutations in holoprosencephaly: alanine tract expansion modulates DNA binding and transactivation

Author

Brown, Lucia, Paraso, Melinda, Arkell, Ruth, Brown, Stephen, Brown, Lucia, Paraso, Melinda, Arkell, Ruth, and Brown, Stephen

Abstract

Heterozygous loss-of-function mutations in ZIC2 result in the severe brain malformation known as holoprosencephaly (HPE), indicating that forebrain development is exquisitely sensitive to the activity of this poorly understood transcription factor. To identify the regions of ZIC2 that are essential for activity, we have assessed the ability of a variety of ZIC2 mutant proteins to function in in vitro assays. Two sources of information were used to design relevant mutations. First, phenotype producing mutations in human and in mouse ZIC2 were mimicked and secondly, a comparative sequence analysis of the C-terminal was carried out. Analysis of these mutations suggests that either a decrease or an increase in ZIC2 mediated transcriptional activity can produce a forebrain phenotype. In addition, the analysis reveals that the C-terminal of ZIC2 contains both activation and repression domains. This region of ZIC2 contains an alanine-tract, and expansion of this domain is associated with HPE. In vitro analysis of proteins with alterations in alanine-tract length illustrates that the C-terminal alanine-tract of ZIC2 influences the strength of DNA binding and alters transcriptional activity in a promoter-specific manner. This finding provides a possible mechanism by which alanine-tract expansion mutations could alter the function of other transcription factor.

Published

2004

34. Overlapping and distinct expression domains of Zic2 and Zic3 during mouse gastrulation

Author

Elms, Paul, Scurry, Andrew, Davies, Jennifer, Willoughby, Catherine, Hacker, Terry, Bogani, Debora, Arkell, Ruth, Elms, Paul, Scurry, Andrew, Davies, Jennifer, Willoughby, Catherine, Hacker, Terry, Bogani, Debora, and Arkell, Ruth

Abstract

The Zic genes are the vertebrate homologues of the Drosophila Odd-paired gene. Mutations in two of these genes are associated with human congenital genetic disorders. Mutation of human and mouse Zic2 is associated with holoprosencephaly which is caused by a defect of ventral forebrain development and mutation of human and mouse Zic3 is associated with a X-linked heterotaxy syndrome that results from a failure of left-right axis formation. The embryological role of the Zic genes in these disorders is not well understood. Here we show that both of these genes are expressed prior to and throughout gastrulation. The genes show some broad similarities in their expression domains. Both genes however are also uniquely expressed in some tissues and these unique domains correlate with regions that potentially play a role in the aetiology of the respective genetic disorders. During primitive streak stages Zic2 is expressed transiently and uniquely in the node and the head process mesendoderm. The head process is known to be required for the establishment or maintenance of the ventral forebrain, which is the region disrupted in holoprosencephaly. Zic3 is not expressed in the node during primitive streak stages but is expressed in and around the node beginning from the head fold stages of development. This expression of Zic3 correlates well with the first steps in the establishment of the left-right axis. We also examined the expression of the closely related gene, Zic1, and did not detect any transcripts in gastrulation stage embryos.

Published

2004

35. Mutation of Celsr1 Disrupts Planar Polarity of Inner Ear Hair Cells and Causes Severe Neural Tube Defects in the Mouse

Author

Curtin, John A, Quint, Elizabeth, Tsipouri, Vicky, Arkell, Ruth, Cattanach, Bruce, Copp, Andrew J, Henderson, Deborah J, Spurr, Nigel, Stanier, Philip L, Fisher, Elizabeth M, Nolan, Patrick, Steel, Karen P, Brown, Steve D M, Gray, Ian C, Murdoch, Jennifer N, Curtin, John A, Quint, Elizabeth, Tsipouri, Vicky, Arkell, Ruth, Cattanach, Bruce, Copp, Andrew J, Henderson, Deborah J, Spurr, Nigel, Stanier, Philip L, Fisher, Elizabeth M, Nolan, Patrick, Steel, Karen P, Brown, Steve D M, Gray, Ian C, and Murdoch, Jennifer N

Abstract

We identified two novel mouse mutants with abnormal head-shaking behavior and neural tube defects during the course of independent ENU mutagenesis experiments. The heterozygous and homozygous mutants exhibit defects in the orientation of sensory hair cells in the organ of Corti, indicating a defect in planar cell polarity. The homozygous mutants exhibit severe neural tube defects as a result of failure to initiate neural tube closure. We show that these mutants, spin cycle and crash, carry independent missense mutations within the coding region of Celsr1, encoding a large protocadherin molecule [1]. Celsr1 is one of three mammalian homologs of Drosophila flamingo/starry night, which is essential for the planar cell polarity pathway in Drosophila together with frizzled, dishevelled, prickle, strabismus/van gogh, and rhoA [2, 3]. The identification of mouse mutants of Celsr1 provides the first evidence for the function of the Celsr family in planar cell polarity in mammals and further supports the involvement of a planar cell polarity pathway in vertebrate neurulation.

Published

2003

36. Disruption of scribble (Scrib1) causes severe neural tube defects in the circletail mouse

Author

Murdoch, Jennifer N, Henderson, Deborah J, Doudney, Kit, Gaston-Massuet, Carles, Phillips, Helen M, Paternotte, Caroline, Arkell, Ruth, Stanier, Philip L, Copp, Andrew J, Murdoch, Jennifer N, Henderson, Deborah J, Doudney, Kit, Gaston-Massuet, Carles, Phillips, Helen M, Paternotte, Caroline, Arkell, Ruth, Stanier, Philip L, and Copp, Andrew J

Abstract

Circletail is one of only two mouse mutants that exhibit the most severe form of neural tube defect (NTD), termed craniorachischisis. In this disorder, almost the entire brain and spinal cord is affected, owing to a failure to initiate neural tube closure. Craniorachischisis is a significant cause of lethality in humans, yet the molecular mechanisms involved remain poorly understood. Here, we report the identification of the gene mutated in circletail (Crc), using a positional cloning approach. This gene, Scrb1, encodes a member of the LAP protein family related to Drosophila scribble, with 16 leucine rich repeats and four PDZ domains. The Crc mutant contains a single base insertion that creates a frame shift and leads to premature termination of the Scrb1 protein. We report the expression pattern of Scrb1 during embryonic and fetal development, and show that Scrb1 expression closely mirrors the phenotypic defects observed in Crc/Crc mutants. In addition, circletail genetically interacts with the loop-tail mutant, and we reveal overlapping expression of Scrb1 with Vangl2, the gene mutated in loop-tail. The identification of the Crc gene further defines the nature of the genetic pathway required for the initiation of neural tube closure and provides an important new candidate that may be implicated in the aetiology of human NTDs.

Published

2003

37. Zic2 is required for neural crest formation and hindbrain patterning during mouse development

Author

Elms, Paul, Siggers, Pam, Napper, Diane, Greenfield, Andy, Arkell, Ruth, Elms, Paul, Siggers, Pam, Napper, Diane, Greenfield, Andy, and Arkell, Ruth

Abstract

The Zic genes are the vertebrate homologues of the Drosophila pair rule gene odd-paired. It has been proposed that Zic genes play several roles during neural development including mediolateral segmentation of the neural plate, neural crest induction, and

Published

2003

38. Functional Analysis of Transforming Growth Factor-Beta Related Molecules During Early Mouse Development

Author

Arkell, Ruth Maree and Arkell, Ruth Maree

Abstract

Embryogenesis requires cell-cell communication in which individual cells send and receive signals that determine their final fate. The transforming growth factor-β (TGF-β) superfamily of molecules encodes secreted factors which are capable of regulating cellular growth and differentiation. Recently, members of the TGF-β superfamily have emerged as candidates for many postulated embryonic inductive interactions. As a step towards understanding such interactions, this thesis investigates the hypothesis that TGF-β superfamily molecules may act as embryonic inducing factors in the mouse. The embryonic expression of a number of TGF-β superfamily members and a putative inhibitor of one of these, follistatin, were investigated. While activin (a mesoderm inducing factor in Xenopus animal caps) was not expressed in the mouse embryo, follistatin, BMP-7, BMP-2 and Vgr-2 were expressed during gastrulation and early organogenesis. Strategies were designed to ectopically express two of these molecules, BMP-7 and Vgr-2 in embryogenesis. Firstly, embryonic stem (ES) cells were used as a vehicle to secrete Vgr-2 throughout the embryo. No effect on embryonic morphology was detected, although conditioned medium from the ES cells is capable of inducing mesoderm in Xenopus. Secondly, COS cells were used to deliver a localised source of BMP-7 to the cranial neural plate in cultured embryos. Such ectopic expression resulted in the induction of ectopic dorsal neural marker expression (Msx1 and AP-2), the diminished expression of a ventral marker (Shh), and a localised expansion of neurectodermal tissue. The localisation of endogenous BMP-7 mRNA during formation and patterning of the neural axis, together with the activities shown in this assay, suggest that BMP-7 may direct one or more aspects of early central nervous system formation in the mouse.

39. The role of the Zic genes in mouse neural crest development

Author

Elms, Paul and Arkell, Ruth

Subjects

573.863871935335, Neural crest, Neural development

Abstract

The neural crest is an embryonic population of migratory, multipotent cells that are formed at the boundary of the neural and non-neural ectoderm around the time of neural tube closure. After migrating to locations throughout the embryo the neural crest cells differentiate into many different cell types including osteoblasts and chondrocytes of the cranio-facial skeleton and neurones and glia of the peripheral nervous system. Gain of function experiments demonstrate that many genes, including the Zic gene family, are involved in neural crest formation. In order to determine whether they have a role in endogenous neural crest development, loss of function studies are required. The ability to perform genetic analysis in the mouse makes it an ideal organism in which to do this. When this study commenced Zic1, Zic2 and Zic3 were assigned as members of the mammalian Zic gene family. A comparison of their expression patterns during mouse neural crest development reveals Zic2 and Zic3 to be the most likely to have roles in neural crest formation. Analysis of neural crest induction and migration in loss of function alleles of Zic2 and Zic3 reveals that loss of either gene function alone causes both a delay in the onset of trunk neural crest production and a reduction in the number of neural crest progenitor cells. Additionally, loss of Zic2 gene function results in a heightened response to BMP signalling by the neural tube. A more severe neural crest depletion occurs in embryos lacking Zic3 and heterozygous for a mutation in Zic2. These results indicate that Zic2 and Zic3 cooperate in the formation of the neural crest by mediating the competence of the dorsal neural tube to respond to inductive signals. This work provides the first genetic evidence that Zic2 and Zic3 are involved in neural crest development and that they function together during mouse development.

Published

2004