An Interacting Network of T-Box Genes Directs Gene Expression and Fate in the Zebrafish Mesoderm

Total Page:16

File Type:pdf, Size:1020Kb

An Interacting Network of T-Box Genes Directs Gene Expression and Fate in the Zebrafish Mesoderm An interacting network of T-box genes directs gene expression and fate in the zebrafish mesoderm Lisa M. Goering†‡, Kazuyuki Hoshijima†‡, Barbara Hug†‡, Brent Bisgrove†§, Andreas Kispert¶, and David Jonah Grunwald†ʈ †Department of Human Genetics, University of Utah School of Medicine, Salt Lake City, UT 84112; and ¶Max-Planck-Institut fu¨r Immunbiologie, Stu¨beweg 51, D-79108 Freiburg, Germany Communicated by Mario R. Capecchi, University of Utah, Salt Lake City, UT, June 10, 2003 (received for review April 10, 2003) T-box genes encode transcription factors that play critical roles in common developmental pathways, and competitive antagonism generating the vertebrate body plan. In many developmental governing downstream gene expression. Our findings demon- fields, multiple T-box genes are expressed in overlapping domains, strate that T-box genes can perform multiple region-specific establishing broad regions in which different combinations of functions within a developmental field and indicate how loss of T-box genes are coexpressed. Here we demonstrate that three function of one T-box gene can alter the function of other T-box T-box genes expressed in the zebrafish mesoderm, no tail, spade- genes expressed in the same field. tail, and tbx6, operate as a network of interacting genes to regulate region-specific gene expression and developmental fate. Materials and Methods Loss-of-function and gain-of-function genetic analyses reveal Isolation of ntl-Regulated Genes. A mesendoderm-specific cDNA three kinds of interactions among the T-box genes: combinatorial library was constructed by subtractive hybridization (26, 27): interactions that generate new regulatory functions, additive con- cDNA from midgastrula embryos was depleted for sequences tributions to common developmental pathways, and competitive expressed in isolated animal cap tissue (see Supporting Materials antagonism governing downstream gene expression. We propose and Methods, which is published as supporting information on that T-box genes, like Hox genes, often function within gene the PNAS web site, www.pnas.org). Independent transformants networks comprised of related family members. (1,728 in all) were arrayed and analyzed by differential hybrid- ization screening. cDNA from WT and individually genotyped b195 -box genes encode related transcription factors that regulate ntl mutant 70% epiboly embryos was used to generate Ttissue specification, morphogenesis, and cell proliferation WT-ntl, ntl-WT-subtracted, and ntl-unsubtracted cDNA probes. (1–3). In addition to tissue-specific roles, T-box genes govern Candidate ntl-dependent sequences hybridized only with WT-ntl regional identities within developmental fields (4–6). One puz- probe. Whole-mount in situ hybridization was performed on WT zling aspect of T-box gene function is the recurrent finding that and mutant sibling embryos to identify genes whose expression the primary cellular focus of the defect seen in a T-box mutant depended on ntl function. corresponds to only a limited portion of the expression domain of the mutated T-box gene (5). For example, whereas haploin- Genetics and Genotype Analysis. Embryos from natural spawnings were raised at 28.5°C (28). WT embryos were from the AB* line. sufficiency of TBX3 results in posterior forelimb deficiencies, the b104 b160 b195 gene is expressed in the anterior and posterior margin of the The spt , ntl , and ntl alleles were used (11, 20, 24, 29). developing hind limb and forelimb (7, 8). Similarly, although To analyze additive effects of mutant alleles on MyoD expres- Brachyury orthologues are expressed throughout the nascent sion, genotyping with allele-specific primers was performed on mesoderm in vertebrate embryos, loss of Brachyury function tissue removed before in situ hybridization (see Supporting blocks differentiation of the notochord, a dorsal mesoderm Materials and Methods). tissue, but has only limited effects on the morphogenesis of the Ectopic Gene Expression Experiments. ventrolateral mesoderm, allowing differentiation of the full Sequences encoding No Tail, range of mesoderm cell types derived from this tissue (9–11). the No Tail DNA-binding domain (DBD) (amino acids 1–229), These findings implicate factors that modify T-box gene function Tbx6, the Tbx6 DBD (amino acids 1–240), the repressor domain so that individual T-box genes carry out different functions in of the Drosophila Engrailed protein [amino acids 2–299 (30)], or the activation domain of VP16 (amino acids 19–101) were cloned different regions of their expression domain (12–15). Because ϩ ϩ multiple T-box genes are expressed in overlapping patterns in into the CS2 and CS2 MT plasmids (31). Proteins were in vitro Ј many developmental fields (7, 16–19), we hypothesized that expressed ectopically after injection of -generated 5 - capped mRNA (mMESSAGE mMACHINE kit, Ambion, Aus- T-box gene interactions contribute to regionalization of T-box tin, TX) along with fluorescent lineage tracer dye into one- to gene function. two-cell embryos. Normally cleaving embryos with widespread We examined individual and combined functions of three dye were selected for analysis. Myc-epitope-tagged protein was T-box genes, no tail (ntl), spadetail (spt), and tbx6, which are detected with the 9E10 antibody (Santa Cruz Biotechnology). To expressed exclusively in the developing zebrafish mesoderm measure gene expression in animal caps, caps were removed at (20–24). The three genes are expressed in broad domains that 3.5 h from injected embryos and incubated for5hat28°C (21), overlap and together mark all of the mesoderm (Fig. 1A). We and RNA expression was detected by RT-PCR and quantified demonstrate that ntl, the zebrafish orthologue of Brachyury, regulates different downstream targets in different portions of its uninterrupted expression domain. Because spt and tbx6 are Abbreviation: DBD, DNA binding domain. coexpressed with ntl in selected regions of the mesoderm, we Data deposition: The sequences reported in this article have been deposited in the GenBank analyzed whether these genes interact with ntl to modify its database [accession nos. AY150226 (mesogenin) and AY150227 (ntd5)]. function in a region-specific manner. Amacher et al. (25) recently ‡L.M.G., K.H., and B.H. contributed equally to this work. showed that ntl and spt provide some overlapping functions in the §Present address: Huntsman Cancer Institute, University of Utah, Salt Lake City, UT 84112. mesoderm. In this report, we document three kinds of interac- ʈTo whom correspondence should be addressed at: Department of Human Genetics, tions among the three T-box genes: combinatorial interactions University of Utah, 15 North 2030 East, Salt Lake City, UT 84112. E-mail: grunwald@ that generate new regulatory functions, additive contributions to genetics.utah.edu. 9410–9415 ͉ PNAS ͉ August 5, 2003 ͉ vol. 100 ͉ no. 16 www.pnas.org͞cgi͞doi͞10.1073͞pnas.1633548100 Downloaded by guest on October 1, 2021 reporter plasmids contained three T-sites 55 bp upstream of the promoter of Ϫ36 PRL-luc (32), a pGL3-derived plasmid (Pro- mega) containing 73 bp of the rat prolactin promoter TATA box region. Plasmid expressing Renilla luciferase constitutively was used as an internal reference to standardize transfection effi- ciency. Experiments were performed in triplicate and repeated at least twice. Results Region-Specific Functions of ntl in the Mesoderm. ntl, spt, and tbx6 are expressed exclusively in the developing zebrafish mesoderm (20, 21, 23). Overlapping expression of the three genes demar- cates distinct regions of mesoderm identities (Fig. 1A). Before gastrulation, at the time of mesoderm specification, the com- bined expression marks two domains: dorsal mesoderm, where ntl and spt are expressed without tbx6, and ventrolateral meso- derm, where all three genes are present. During gastrulation, the expression patterns of the genes are refined to generate four domains: anterior axial mesoderm, or prechordal plate, ex- presses only spt; posterior axial mesoderm, or presumptive notochord, expresses only ntl; nonaxial mesoderm generated by involution of the ventrolateral mesoderm expresses spt and tbx6 together; and noninvoluted ventrolateral mesoderm maintains expression of all three genes. We hypothesized that individual T-box genes have distinct functions in different portions of their expression domains and that the function of each T-box gene is defined in part by the combination of T-box genes with which it is coexpressed. To define cellular regions of ntl function, we identified genes whose expression depends on ntl by hybridizing a mesendoderm- specific target cDNA library with a probe enriched for sequences expressed in WT, but not ntl mutant, gastrulae (see Materials and Methods). Two classes of genes were recovered (Fig. 1B). One class, exemplified by ntl-dependent gene 5 (ntd5), was expressed solely in the presumptive notochord. A second class, exemplified Fig. 1. T-box genes have region-specific functions in the zebrafish meso- by mesogenin and wnt8 (33), was expressed in the noninvoluted derm. (A) Schematic representation of ntl, spt, and tbx6 expression domains ventrolateral mesoderm. Loss of expression of these genes was during gastrulation. (B) ntl regulates different target genes in the dorsal and ͞ not secondary to loss of mesoderm tissue: other markers of axial ventrolateral mesoderm. ntd5, which encodes a product with Sushi CCP do- and ventrolateral mesoderm continued to be expressed through mains found in adhesion and complement proteins (54), is expressed in the presumptive notochord of WT (Upper) but not of ntl mutant (Lower) embryos. midgastrula stages (data not shown and refs. 21, 34, and 35). wnt8 and mesogenin are expressed in the ventrolateral mesoderm in a ntl- Furthermore, mesogenin appears to be a proximal target of ntl, dependent manner. (C) mesogenin expression is first detected at 30% epiboly because its expression is detectable within 30 min of the onset of (Upper), but it is not initiated in ntl embryos (Lower). (D) mesogenin is ntl transcription in 30% epiboly WT embryos and fails to be expressed in WT, but not spt mutant, embryos; wnt8 is expressed in both types initiated in ntl mutants (Fig. 1C).
Recommended publications
  • Autism Multiplex Family with 16P11.2P12.2 Microduplication Syndrome in Monozygotic Twins and Distal 16P11.2 Deletion in Their Brother
    European Journal of Human Genetics (2012) 20, 540–546 & 2012 Macmillan Publishers Limited All rights reserved 1018-4813/12 www.nature.com/ejhg ARTICLE Autism multiplex family with 16p11.2p12.2 microduplication syndrome in monozygotic twins and distal 16p11.2 deletion in their brother Anne-Claude Tabet1,2,3,4, Marion Pilorge2,3,4, Richard Delorme5,6,Fre´de´rique Amsellem5,6, Jean-Marc Pinard7, Marion Leboyer6,8,9, Alain Verloes10, Brigitte Benzacken1,11,12 and Catalina Betancur*,2,3,4 The pericentromeric region of chromosome 16p is rich in segmental duplications that predispose to rearrangements through non-allelic homologous recombination. Several recurrent copy number variations have been described recently in chromosome 16p. 16p11.2 rearrangements (29.5–30.1 Mb) are associated with autism, intellectual disability (ID) and other neurodevelopmental disorders. Another recognizable but less common microdeletion syndrome in 16p11.2p12.2 (21.4 to 28.5–30.1 Mb) has been described in six individuals with ID, whereas apparently reciprocal duplications, studied by standard cytogenetic and fluorescence in situ hybridization techniques, have been reported in three patients with autism spectrum disorders. Here, we report a multiplex family with three boys affected with autism, including two monozygotic twins carrying a de novo 16p11.2p12.2 duplication of 8.95 Mb (21.28–30.23 Mb) characterized by single-nucleotide polymorphism array, encompassing both the 16p11.2 and 16p11.2p12.2 regions. The twins exhibited autism, severe ID, and dysmorphic features, including a triangular face, deep-set eyes, large and prominent nasal bridge, and tall, slender build. The eldest brother presented with autism, mild ID, early-onset obesity and normal craniofacial features, and carried a smaller, overlapping 16p11.2 microdeletion of 847 kb (28.40–29.25 Mb), inherited from his apparently healthy father.
    [Show full text]
  • Product Description SALSA® MLPA® Probemix P463-A2 MRKH to Be Used with the MLPA General Protocol
    MRC-Holland ® Product Description version A2-01; Issued 16 July 2020 MLPA Product Description SALSA® MLPA® Probemix P463-A2 MRKH To be used with the MLPA General Protocol. Version A2. As compared to version A1, five reference probes have been replaced and one probe length has been adjusted. For complete product history see page 7. Catalogue numbers: P463-025R: SALSA MLPA Probemix P463 MRKH, 25 reactions. P463-050R: SALSA MLPA Probemix P463 MRKH, 50 reactions. P463-100R: SALSA MLPA Probemix P463 MRKH, 100 reactions. To be used in combination with a SALSA MLPA reagent kit and Coffalyser.Net data analysis software. MLPA reagent kits are either provided with FAM or Cy5.0 dye-labelled PCR primer, suitable for Applied Biosystems and Beckman/SCIEX capillary sequencers, respectively (see www.mlpa.com). Certificate of Analysis: Information regarding storage conditions, quality tests, and a sample electropherogram from the current sales lot is available at www.mlpa.com. Precautions and warnings: For professional use only. Always consult the most recent product description AND the MLPA General Protocol before use: www.mlpa.com. It is the responsibility of the user to be aware of the latest scientific knowledge of the application before drawing any conclusions from findings generated with this product. General information: The SALSA MLPA Probemix P463 MRKH is a research use only (RUO) assay for the detection of deletions or duplications in the TBX6, LHX1, HNF1B, and TBX1 genes, which are associated with Mayer-Rokitansky-Küster-Hauser syndrome (MRKH). MRKH is characterised by normal physical development of the secondary sexual characteristics and a normal female 46,XX karyotype but with complete aplasia of the uterus, cervix, and superior parts of vagina leading to failure to menstruate and infertility.
    [Show full text]
  • Novel ENU-Induced Mutation in Tbx6 Causes Dominant Spondylocostal Dysostosis-Like Vertebral Malformations in the Rat
    RESEARCH ARTICLE Novel ENU-Induced Mutation in Tbx6 Causes Dominant Spondylocostal Dysostosis-Like Vertebral Malformations in the Rat Koichiro Abe1*, Nobuhiko Takamatsu2, Kumiko Ishikawa1, Toshiko Tsurumi3, Sho Tanimoto1, Yukina Sakurai2, Thomas Lisse4, Kenji Imai1, Tadao Serikawa3, Tomoji Mashimo3¤ 1 Department of Molecular Life Science, Tokai University School of Medicine, Isehara, Kanagawa, Japan, 2 Department of Biosciences, School of Science, Kitasato University, Sagamihara, Kanagawa, Japan, 3 Institute of Laboratory Animals, Graduate School of Medicine, Kyoto University, Kyoto, Japan, 4 MDI Biological Laboratory, Davis Center for Regenerative Biology and Medicine, Bar Harbor, Maine, United States of America ¤ Current address: Institute of Experimental Animal Sciences, Graduate School of Medicine, Osaka University, Osaka, Japan. * [email protected] OPEN ACCESS Abstract Citation: Abe K, Takamatsu N, Ishikawa K, Tsurumi T, Tanimoto S, Sakurai Y, et al. (2015) Novel ENU- Congenital vertebral malformations caused by embryonic segmentation defects are rela- Induced Mutation in Tbx6 Causes Dominant tively common in humans and domestic animals. Although reverse genetics approaches in Spondylocostal Dysostosis-Like Vertebral mice have provided information on the molecular mechanisms of embryonic somite seg- Malformations in the Rat. PLoS ONE 10(6): e0130231. doi:10.1371/journal.pone.0130231 mentation, hypothesis-driven approaches cannot adequately reflect human dysmorphology within the population. In a N-ethyl-N-nitrosourea (ENU) mutagenesis project in Kyoto, the Editor: Tom J. Carney, Institute of Molecular and Cell Oune Biology, SINGAPORE mutant rat strain was isolated due to a short and kinked caudal vertebra phenotype. Skeletal staining of heterozygous rats showed partial loss of the cervical vertebrae as well Received: July 27, 2014 as hemivertebrae and fused vertebral blocks in lumbar and sacral vertebrae.
    [Show full text]
  • Analysis of Mouse Embryonic Patterning and Morphogenesis By
    Analysis of mouse embryonic patterning and INAUGURAL ARTICLE morphogenesis by forward genetics Marı´a J. Garcı´a-Garcı´a*,Jonathan T. Eggenschwiler*†, Tamara Caspary*‡, Heather L. Alcorn*, Michael R. Wyler*, Danwei Huangfu*§, Andrew S. Rakeman*¶, Jeffrey D. Lee*, Evan H. Feinberg*ʈ, John R. Timmer*,**, and Kathryn V. Anderson*†† *Developmental Biology Program, Sloan–Kettering Institute, 1275 York Avenue, New York, NY 10021; §Neuroscience Program and ¶Molecular and Cell Biology Program, Weill Graduate School of Medical Sciences, Cornell University, 445 East 69th Street, New York, NY 10021; and ʈWeill Graduate School of Medical Sciences at Cornell University͞The Rockefeller University͞Sloan–Kettering Institute Tri-Institutional M.D.-Ph.D. Program, 1300 York Avenue, New York, NY 10021 This contribution is part of the special series of Inaugural Articles by members of the National Academy of Sciences elected on April 20, 2004. Contributed by Kathryn V. Anderson, February 8, 2005 Many aspects of the genetic control of mammalian embryogenesis proaches in other laboratories that focused on later stages of cannot be extrapolated from other animals. Taking a forward embryonic and fetal development in the mouse have also genetic approach, we have induced recessive mutations by treat- identified novel mutations successfully (9–11). With the avail- ment of mice with ethylnitrosourea and have identified 43 muta- ability of the mouse genome sequence, it has become straight- tions that affect early morphogenesis and patterning, including 38 forward to identify the genes responsible for the mutant genes that have not been studied previously. The molecular lesions phenotypes. responsible for 14 mutations were identified, including mutations Here, we describe the identification of 43 recessive mutations in nine genes that had not been characterized previously.
    [Show full text]
  • Diagnostic Interpretation of Genetic Studies in Patients with Primary
    AAAAI Work Group Report Diagnostic interpretation of genetic studies in patients with primary immunodeficiency diseases: A working group report of the Primary Immunodeficiency Diseases Committee of the American Academy of Allergy, Asthma & Immunology Ivan K. Chinn, MD,a,b Alice Y. Chan, MD, PhD,c Karin Chen, MD,d Janet Chou, MD,e,f Morna J. Dorsey, MD, MMSc,c Joud Hajjar, MD, MS,a,b Artemio M. Jongco III, MPH, MD, PhD,g,h,i Michael D. Keller, MD,j Lisa J. Kobrynski, MD, MPH,k Attila Kumanovics, MD,l Monica G. Lawrence, MD,m Jennifer W. Leiding, MD,n,o,p Patricia L. Lugar, MD,q Jordan S. Orange, MD, PhD,r,s Kiran Patel, MD,k Craig D. Platt, MD, PhD,e,f Jennifer M. Puck, MD,c Nikita Raje, MD,t,u Neil Romberg, MD,v,w Maria A. Slack, MD,x,y Kathleen E. Sullivan, MD, PhD,v,w Teresa K. Tarrant, MD,z Troy R. Torgerson, MD, PhD,aa,bb and Jolan E. Walter, MD, PhDn,o,cc Houston, Tex; San Francisco, Calif; Salt Lake City, Utah; Boston, Mass; Great Neck and Rochester, NY; Washington, DC; Atlanta, Ga; Rochester, Minn; Charlottesville, Va; St Petersburg, Fla; Durham, NC; Kansas City, Mo; Philadelphia, Pa; and Seattle, Wash AAAAI Position Statements,Work Group Reports, and Systematic Reviews are not to be considered to reflect current AAAAI standards or policy after five years from the date of publication. The statement below is not to be construed as dictating an exclusive course of action nor is it intended to replace the medical judgment of healthcare professionals.
    [Show full text]
  • S41419-021-03972-6.Pdf
    www.nature.com/cddis ARTICLE OPEN Primed to die: an investigation of the genetic mechanisms underlying noise-induced hearing loss and cochlear damage in homozygous Foxo3-knockout mice ✉ Holly J. Beaulac1,3, Felicia Gilels1,4, Jingyuan Zhang1,5, Sarah Jeoung2 and Patricia M. White 1 © The Author(s) 2021 The prevalence of noise-induced hearing loss (NIHL) continues to increase, with limited therapies available for individuals with cochlear damage. We have previously established that the transcription factor FOXO3 is necessary to preserve outer hair cells (OHCs) and hearing thresholds up to two weeks following mild noise exposure in mice. The mechanisms by which FOXO3 preserves cochlear cells and function are unknown. In this study, we analyzed the immediate effects of mild noise exposure on wild-type, Foxo3 heterozygous (Foxo3+/−), and Foxo3 knock-out (Foxo3−/−) mice to better understand FOXO3’s role(s) in the mammalian cochlea. We used confocal and multiphoton microscopy to examine well-characterized components of noise-induced damage including calcium regulators, oxidative stress, necrosis, and caspase-dependent and caspase-independent apoptosis. Lower immunoreactivity of the calcium buffer Oncomodulin in Foxo3−/− OHCs correlated with cell loss beginning 4 h post-noise exposure. Using immunohistochemistry, we identified parthanatos as the cell death pathway for OHCs. Oxidative stress response pathways were not significantly altered in FOXO3’s absence. We used RNA sequencing to identify and RT-qPCR to confirm differentially expressed genes. We further investigated a gene downregulated in the unexposed Foxo3−/− mice that may contribute to OHC noise susceptibility. Glycerophosphodiester phosphodiesterase domain containing 3 (GDPD3), a possible endogenous source of lysophosphatidic acid (LPA), has not previously been described in the cochlea.
    [Show full text]
  • Greg Whittemore, MS4 MD/MS Candidate Columbia University Vagelos College of Physicians and Surgeons Mentors: Cathy Mendelsohn and Simone Sanna-Cherchi
    Never in the Urinary Tract – Causing Urinary Tract Malformations: the case of Tbx6 Greg Whittemore, MS4 MD/MS Candidate Columbia University Vagelos College of Physicians and Surgeons Mentors: Cathy Mendelsohn and Simone Sanna-Cherchi Columbia University P20 Developmental Center for Benign Urology Research Congenital anomalies of the kidney and urinary tract (CAKUT) : Conditions and Epidemiology Liu & Ahram, Kidney Int. in preparation Genetics of CAKUT • Point mutations: 6–20% of CAKUT caused by single-gene defects with over 50 genes identified thus far (most commonly HNF1B, PAX2, EYA1, SALL1 and others) • Structural variants / Copy number variations (CNVs; i.e. deletions or duplications of germline DNA often affecting multiple genes): additional 2-10% of CAKUT caused by large CNVs associated to genomic disorders (ex. 22q11.2, 17q12, and others) Verbitsky & Westland, Nat Genet. 2019 Sanna-Cherchi & Westland, J Clin Invest. 2018 van der Ven et al, J Am Soc Nephrol. 2018 Standard paradigm for gene identification in humans • Step 1: unbiased, hypothesis-free genetic study to localize a gene or region of the genome associated with the phenotype (linkage studies in families, GWAS, exome or genome sequencing…) • Step 2: candidate gene selection / prioritization. Classically it has been recognized that, if a gene causes a phenotype when mutated, it should be expressed in the tissue where the phenotype occurs • Step 3: generation of a vertebrate model that recapitulates the human phenotype 1q21.1 4p (Wolf−Hirschhorn) ) 0.75 ) 0.50 % % ( ( y Deletion
    [Show full text]
  • EXAMINING the POST-TRANSCRIPTIONAL REGULATION of LUNATIC FRINGE (Lfng) in the MOUSE SEGMENTATION CLOCK
    EXAMINING THE POST-TRANSCRIPTIONAL REGULATION OF LUNATIC FRINGE (Lfng) IN THE MOUSE SEGMENTATION CLOCK DISSERTATION Presented in Partial Fulfillment of the Requirements for the Degree Doctor of Philosophy in the Graduate School of The Ohio State University By Kanu Wahi Graduate Program in Molecular Genetics The Ohio State University 2016 Dissertation Committee: Dr. Susan Cole, Advisor Dr. Keith Slotkin Dr. Robin Wharton Dr. Dawn Chandler Copyright by Kanu Wahi 2016 Abstract Somitogenesis is a developmental process in vertebrates involving periodic formation of somites that bud from an unsegmented region known as the pre-somitic mesoderm (PSM) and give rise to the axial skeleton and skeletal muscle in the developed organism. The process of somitogenesis is regulated by a "segmentation clock" that times somite formation and is evolutionarily conserved among vertebrates. Genes, such as Lunatic fringe (Lfng), are required for normal clock function in chickens, mice and humans and exhibit rapid cyclic expression in the PSM with a period that matches the rate of somite formation. To maintain rapid oscillations, especially in the posterior PSM, it is hypothesized that the Lfng transcript should be promptly degraded to ensure its clearance of from cells before the next round of oscillation begins. The 3’UTR of Lfng contains number of conserved sequences that could regulate Lfng expression at the post transcriptional level. In this study we explore the post- transcriptional regulation of the Lfng transcript by the Lfng 3’UTR in the context of the segmentation clock. The Lfng 3'UTR has binding sites for microRNAs (miRNAs), such as miR-125a and miR-200b that are known to affect transcript stability via the 3’UTR.
    [Show full text]
  • FGF8, Wnt8 and Myf5 Are Target Genes of Tbx6 During Anteroposterior Specification in Xenopus Embryo
    Developmental Biology 290 (2006) 470 – 481 www.elsevier.com/locate/ydbio Genomes & Developmental Control FGF8, Wnt8 and Myf5 are target genes of Tbx6 during anteroposterior specification in Xenopus embryo Hong-Yan Li 1, Audrey Bourdelas 1, Cle´mence Carron, Ce´line Gomez, Jean-Claude Boucaut, De-Li Shi * Groupe de Biologie Expe´rimentale, Laboratoire de Biologie du De´veloppement, CNRS UMR 7622, Universite´ Pierre et Marie-Curie, 9 quai Saint-Bernard, 75005 Paris, France Received for publication 21 March 2005, revised 17 October 2005, accepted 14 November 2005 Available online 15 December 2005 Abstract The T-box transcription factor Tbx6 is required for somite formation and loss-of-function or reduced activity of Tbx6 result in absence of posterior paraxial mesoderm or disorganized somites, but how it is involved in a regulatory hierarchy during Xenopus early development is not clear. We show here that Tbx6 is expressed in the lateral and ventral mesoderm of early gastrula, and it is necessary and sufficient to directly and indirectly regulate the expression of a subset of early mesodermal and endodermal genes. Ectopic expression of Tbx6 inhibits early neuroectodermal gene expression by strongly inducing the expression of posterior mesodermal genes, and expands the mesoderm territory at the expense of neuroectoderm. Conversely, overexpression of a dominant negative Tbx6 mutant in the ventral mesoderm inhibits the expression of several mesodermal genes and results in neural induction in a dose-dependent manner. Using a hormone-inducible form of Tbx6, we have identified FGF8, Xwnt8 and XMyf5 as immediate early responsive genes of Tbx6, and the induction of these genes by Tbx6 is independent of Xbra and VegT.
    [Show full text]
  • Identification of Direct T-Box Target Genes in the Developing Zebrafish Mesoderm Aaron T
    RESEARCH ARTICLE 749 Development 136, 749-760 (2009) doi:10.1242/dev.024703 Identification of direct T-box target genes in the developing zebrafish mesoderm Aaron T. Garnett1, Tina M. Han1, Michael J. Gilchrist2, James C. Smith2,3, Michael B. Eisen1,4,5, Fiona C. Wardle6 and Sharon L. Amacher1,* The zebrafish genes spadetail (spt) and no tail (ntl) encode T-box transcription factors that are important for early mesoderm development. Although much has been done to characterize these genes, the identity and location of target regulatory elements remain largely unknown. Here, we survey the genome for downstream target genes of the Spt and Ntl T-box transcription factors. We find evidence for extensive additive interactions towards gene activation and limited evidence for combinatorial and antagonistic interactions between the two factors. Using in vitro binding selection assays to define Spt- and Ntl-binding motifs, we searched for target regulatory sequence via a combination of binding motif searches and comparative genomics. We identified regulatory elements for tbx6 and deltaD, and, using chromatin immunoprecipitation, in vitro DNA binding assays and transgenic methods, we provide evidence that both are directly regulated by T-box transcription factors. We also find that deltaD is directly activated by T-box factors in the tail bud, where it has been implicated in starting the segmentation clock, suggesting that spt and ntl act upstream of this process. KEY WORDS: Enhancer prediction, Gene regulation, No tail/brachyury, Spadetail/tbx16 INTRODUCTION and presomitic mesoderm during segmentation (Chapman et al., The T-box genes encode a large family of transcription factors with 1996).
    [Show full text]
  • The Role of T and Tbx6 During Gastrulation and Determination of Left/Right Asymmetry Daniel Concepcion Submitted in Partial Fulf
    The role of T and Tbx6 during gastrulation and determination of left/right asymmetry Daniel Concepcion Submitted in partial fulfillment of the requirements for the degree of Doctor of Philosophy in the Graduate School of Arts and Sciences COLUMBIA UNIVERSITY 2013 © 2013 Daniel Concepcion All rights reserved Abstract The role of T and Tbx6 in gastrulation and determination of left/right asymmetry Daniel Concepcion T and Tbx6 belong to the T-box family of transcription factors. T homozygous null mutants lack posterior somites after the seventh pair, have no distinguishable notochord, have a convoluted neural tube and die at E.10.5. In this study we investigate the phenotype of a dominant negative allele of T, TWis. Like homozygous embryos carrying the null allele of T, TWis homozygous mutants have left/right asymmetry defects. We demonstrate that left/right specific genes Cer2, Nodal, and Gdf1 are not expressed in TWis mutants and that the Notch signaling pathway, a pathway necessary for expression of left/right specific genes, is severely perturbed. We find, through the use of confocal and scanning electron microscopy, that TWis homozygous mutants have severe node morphological defects. Molecular analysis shows that TWis mutants have altered expression of the genes Shh, Foxa2 and Gsc, that not only mark structures of the midline and node, but whose expression is essential for the formation and patterning of these structures. Tbx6 homozygous null mutants have enlarged tail buds and ectopic neural tubes in place of posterior somites. Tbx6 homozygous null mutants also have irregular development of anterior somites and left/right asymmetry defects that lead to randomization of heart looping.
    [Show full text]
  • Tbx6-Mediated Notch Signaling Controls Somite-Specific Mesp2 Expression
    Tbx6-mediated Notch signaling controls somite-specific Mesp2 expression Yukuto Yasuhiko*, Seiki Haraguchi†, Satoshi Kitajima*, Yu Takahashi*, Jun Kanno*, and Yumiko Saga‡§ *Cellular and Molecular Toxicology Division, National Institute of Health Sciences, Kamiyoga 1-18-1, Setagaya-ku, Tokyo 158-8501, Japan; †The Wellcome Trust͞Cancer Research UK Gurdon Institute, University of Cambridge, Cambridge CB2 1QN, United Kingdom; and ‡Division of Mammalian Development, National Institute of Genetics, Mishima, Shizuoka 411-8540, Japan Edited by Kathryn V. Anderson, Sloan–Kettering Institute, New York, NY, and approved January 10, 2006 (received for review September 21, 2005) Mesp2 is a transcription factor that plays fundamental roles in tivation by Tbx6, and we identify the sequences that are impor- somitogenesis, and its expression is strictly restricted to the ante- tant for this enhancement. Hence, we identify a Tbx6-mediated rior presomitic mesoderm just before segment border formation. Notch signaling pathway as a mechanism underlying the regu- The transcriptional on–off cycle is linked to the segmentation lation of Mesp2 expression. clock. In our current study, we show that a T-box transcription factor, Tbx6, is essential for Mesp2 expression. Tbx6 directly binds Results and Discussion to the Mesp2 gene upstream region and mediates Notch signaling, Evolutionally Conserved Sites in the Upstream Region of the Mesp2 and subsequent Mesp2 transcription, in the anterior presomitic Gene Promote Strong Reporter Activity in Forming Somites. The mesoderm. Our data therefore reveal that a mechanism, via Tbx6- distinct expression patterns of Mesp2 expression during somito- dependent Notch signaling, acts on the transcriptional regulation genesis are strictly regulated. As we previously reported (11), a of Mesp2.
    [Show full text]