Your search keyword '"TBX15"' showing total 16 results

1. Epigenomic and Transcriptomic Profiling of Solitary Fibrous Tumors Identifies Site-Specific Patterns and Candidate Genes Regulated by DNA Methylation

Author

Beird, Hannah C., Cloutier, Jeffrey M., Gokgoz, Nalan, Eeles, Christopher, Griffin, Anthony M., Ingram, Davis R., Wani, Khalida M., Segura, Rossana Lazcano, Cohen, Luca, Ho, Carl, Wunder, Jay S., Andrulis, Irene L., Futreal, P. Andrew, Haibe-Kains, Benjamin, Lazar, Alexander J., Wang, Wei-Lien, Przybyl, Joanna, and Demicco, Elizabeth G.

Published

2024

2. An abdominal obesity missense variant in the adipocyte thermogenesis gene TBX15 is implicated in adaptation to cold in Finns.

Author

Deal, Milena, Kar, Asha, Lee, Seung, Alvarez, Marcus, Rajkumar, Sandhya, Arasu, Uma, Kaminska, Dorota, Männistö, Ville, Heinonen, Sini, van der Kolk, Birgitta, Säiläkivi, Ulla, Saarinen, Tuure, Juuti, Anne, Pihlajamäki, Jussi, Kaikkonen, Minna, Laakso, Markku, Pietiläinen, Kirsi, and Pajukanta, Päivi

Subjects

SAT, T-box transcription factor 15, TBX15, WHRadjBMI, abdominal obesity, adipocyte hypertrophy, population genetics, selection, single nucleus RNA sequencing, subcutaneous adipose tissue, thermogenesis, trans regulation, waist-hip ratio adjusted for body mass index, T-Box Domain Proteins, Humans, Thermogenesis, Mutation, Missense, Adipocytes, Cold Temperature, Obesity, Abdominal, Male, Female, Finland, Adaptation, Physiological, Gene Frequency, Polymorphism, Single Nucleotide, Subcutaneous Fat, Genome-Wide Association Study, Animals

Abstract

Mechanisms of abdominal obesity GWAS variants have remained largely unknown. To elucidate these mechanisms, we leveraged subcutaneous adipose tissue (SAT) single nucleus RNA-sequencing and genomics data. After discovering that heritability of abdominal obesity is enriched in adipocytes, we focused on a SAT unique adipocyte marker gene, the transcription factor TBX15, and its abdominal obesity-associated deleterious missense variant, rs10494217. The allele frequency of rs10494217 revealed a north-to-south decreasing gradient, with consistent significant FST values observed for 25 different populations when compared to Finns, a population with a history of genetic isolation. Given the role of Tbx15 in mouse thermogenesis, the frequency may have increased as an adaptation to cold in Finns. Our selection analysis provided significant evidence of selection for the abdominal obesity risk allele T of rs10494217 in Finns, with a north-to-south decreasing trend in other populations, and demonstrated that latitude significantly predicts the allele frequency. We also discovered that the risk allele status significantly affects SAT adipocyte expression of multiple adipocyte marker genes in trans in two cohorts. Two of these trans genes have been connected to thermogenesis, supporting the thermogenic effect of the TBX15 missense variant as a possible cause of its selection. Adipose expression of one trans gene, a lncRNA, AC002066.1, was strongly associated with adipocyte size, implicating it in metabolically unhealthy adipocyte hypertrophy. In summary, the abdominal obesity variant rs10494217 was selected in Finns, and individuals with the risk allele have trans effects on adipocyte expression of genes relating to thermogenesis and adipocyte hypertrophy.

Published

2024

3. Promoter-Adjacent DNA Hypermethylation Can Downmodulate Gene Expression: TBX15 in the Muscle Lineage.

Author

Ehrlich, Kenneth C., Lacey, Michelle, Baribault, Carl, Sen, Sagnik, Esteve, Pierre Olivier, Pradhan, Sriharsa, and Ehrlich, Melanie

Subjects

GENE expression, DNA, MYOBLASTS, GENETIC transcription regulation, SKELETAL muscle, PROMOTERS (Genetics), FACIOSCAPULOHUMERAL muscular dystrophy, PSOAS muscles

Abstract

TBX15, which encodes a differentiation-related transcription factor, displays promoter-adjacent DNA hypermethylation in myoblasts and skeletal muscle (psoas) that is absent from non-expressing cells in other lineages. By whole-genome bisulfite sequencing (WGBS) and enzymatic methyl-seq (EM-seq), these hypermethylated regions were found to border both sides of a constitutively unmethylated promoter. To understand the functionality of this DNA hypermethylation, we cloned the differentially methylated sequences (DMRs) in CpG-free reporter vectors and tested them for promoter or enhancer activity upon transient transfection. These cloned regions exhibited strong promoter activity and, when placed upstream of a weak promoter, strong enhancer activity specifically in myoblast host cells. In vitro CpG methylation targeted to the DMR sequences in the plasmids resulted in 86–100% loss of promoter or enhancer activity, depending on the insert sequence. These results as well as chromatin epigenetic and transcription profiles for this gene in various cell types support the hypothesis that DNA hypermethylation immediately upstream and downstream of the unmethylated promoter region suppresses enhancer/extended promoter activity, thereby downmodulating, but not silencing, expression in myoblasts and certain kinds of skeletal muscle. This promoter-border hypermethylation was not found in cell types with a silent TBX15 gene, and these cells, instead, exhibit repressive chromatin in and around the promoter. TBX18, TBX2, TBX3 and TBX1 display TBX15-like hypermethylated DMRs at their promoter borders and preferential expression in myoblasts. Therefore, promoter-adjacent DNA hypermethylation for downmodulating transcription to prevent overexpression may be used more frequently for transcription regulation than currently appreciated. [ABSTRACT FROM AUTHOR]

Published

2022

4. TBX15/miR-152/KIF2C pathway regulates breast cancer doxorubicin resistance via promoting PKM2 ubiquitination

Author

Cheng-Fei Jiang, Yun-Xia Xie, Ying-Chen Qian, Min Wang, Ling-Zhi Liu, Yong-Qian Shu, Xiao-Ming Bai, and Bing-Hua Jiang

Subjects

TBX15, miR-152, KIF2C, PKM2, Doxorubicin resistance, Breast cancer, Neoplasms. Tumors. Oncology. Including cancer and carcinogens, RC254-282, Cytology, QH573-671

Abstract

Abstract Background Chemoresistance is a critical risk problem for breast cancer treatment. However, mechanisms by which chemoresistance arises remains to be elucidated. The expression of T-box transcription factor 15 (TBX-15) was found downregulated in some cancer tissues. However, role and mechanism of TBX15 in breast cancer chemoresistance is unknown. Here we aimed to identify the effects and mechanisms of TBX15 in doxorubicin resistance in breast cancer. Methods As measures of Drug sensitivity analysis, MTT and IC50 assays were used in DOX-resistant breast cancer cells. ECAR and OCR assays were used to analyze the glycolysis level, while Immunoblotting and Immunofluorescence assays were used to analyze the autophagy levels in vitro. By using online prediction software, luciferase reporter assays, co-Immunoprecipitation, Western blotting analysis and experimental animals models, we further elucidated the mechanisms. Results We found TBX15 expression levels were decreased in Doxorubicin (DOX)-resistant breast cancer cells. Overexpression of TBX15 reversed the DOX resistance by inducing microRNA-152 (miR-152) expression. We found that KIF2C levels were highly expressed in DOX-resistant breast cancer tissues and cells, and KIF2C was a potential target of miR-152. TBX15 and miR-152 overexpression suppressed autophagy and glycolysis in breast cancer cells, while KIF2C overexpression reversed the process. Overexpression of KIF2C increased DOX resistance in cancer cells. Furthermore, KIF2C directly binds with PKM2 for inducing the DOX resistance. KIF2C can prevent the ubiquitination of PKM2 and increase its protein stability. In addition, we further identified that Domain-2 of KIF2C played a major role in the binding with PKM2 and preventing PKM2 ubiquitination, which enhanced DOX resistance by promoting autophagy and glycolysis. Conclusions Our data identify a new mechanism by which TBX15 abolishes DOX chemoresistance in breast cancer, and suggest that TBX15/miR-152/KIF2C axis is a novel signaling pathway for mediating DOX resistance in breast cancer through regulating PKM2 ubiquitination and decreasing PKM2 stability. This finding suggests new therapeutic target and/or novel strategy development for cancer treatment to overcome drug resistance in the future.

Published

2021

5. TBX15/miR-152/KIF2C pathway regulates breast cancer doxorubicin resistance via promoting PKM2 ubiquitination.

Author

Jiang, Cheng-Fei, Xie, Yun-Xia, Qian, Ying-Chen, Wang, Min, Liu, Ling-Zhi, Shu, Yong-Qian, Bai, Xiao-Ming, and Jiang, Bing-Hua

Subjects

BREAST cancer, DOXORUBICIN, UBIQUITINATION, CELLULAR signal transduction, CARCINOGENESIS

Abstract

Background: Chemoresistance is a critical risk problem for breast cancer treatment. However, mechanisms by which chemoresistance arises remains to be elucidated. The expression of T-box transcription factor 15 (TBX-15) was found downregulated in some cancer tissues. However, role and mechanism of TBX15 in breast cancer chemoresistance is unknown. Here we aimed to identify the effects and mechanisms of TBX15 in doxorubicin resistance in breast cancer. Methods: As measures of Drug sensitivity analysis, MTT and IC50 assays were used in DOX-resistant breast cancer cells. ECAR and OCR assays were used to analyze the glycolysis level, while Immunoblotting and Immunofluorescence assays were used to analyze the autophagy levels in vitro. By using online prediction software, luciferase reporter assays, co-Immunoprecipitation, Western blotting analysis and experimental animals models, we further elucidated the mechanisms. Results: We found TBX15 expression levels were decreased in Doxorubicin (DOX)-resistant breast cancer cells. Overexpression of TBX15 reversed the DOX resistance by inducing microRNA-152 (miR-152) expression. We found that KIF2C levels were highly expressed in DOX-resistant breast cancer tissues and cells, and KIF2C was a potential target of miR-152. TBX15 and miR-152 overexpression suppressed autophagy and glycolysis in breast cancer cells, while KIF2C overexpression reversed the process. Overexpression of KIF2C increased DOX resistance in cancer cells. Furthermore, KIF2C directly binds with PKM2 for inducing the DOX resistance. KIF2C can prevent the ubiquitination of PKM2 and increase its protein stability. In addition, we further identified that Domain-2 of KIF2C played a major role in the binding with PKM2 and preventing PKM2 ubiquitination, which enhanced DOX resistance by promoting autophagy and glycolysis. Conclusions: Our data identify a new mechanism by which TBX15 abolishes DOX chemoresistance in breast cancer, and suggest that TBX15/miR-152/KIF2C axis is a novel signaling pathway for mediating DOX resistance in breast cancer through regulating PKM2 ubiquitination and decreasing PKM2 stability. This finding suggests new therapeutic target and/or novel strategy development for cancer treatment to overcome drug resistance in the future. [ABSTRACT FROM AUTHOR]

Published

2021

6. TBX15 rs98422, DNM3 rs1011731, RAD51B rs8017304, and rs2588809 Gene Polymorphisms and Associations With Pituitary Adenoma.

Author

JUKNYTĖ, GABIJA, LAURINAITYTĖ, INGA, VILKEVIČIŪTĖ, ALVITA, GEDVILAITĖ, GRETA, GLEBAUSKIENĖ, BRIGITA, KRIAUČIŪNIENĖ, LORESA, and LIUTKEVIČIENĖ, RASA

Subjects

PITUITARY tumors, ADENOMA, SINGLE nucleotide polymorphisms, TRANSCRIPTION factors, DNA repair

Abstract

Background: Pituitary adenoma (PA) is a benign tumor of parenchymal cells in the adenohypophysis, and it’s development is strongly associated with genetic factors. This study aim was to find whether TBX15 rs98422, DNM3 rs1011731, RAD51B rs8017304, and rs2588809 single nucleotide polymorphisms can be associated with pituitary adenoma. While the TBX15 gene belongs to the T-box family of genes and is a transcription factor involved in many developmental processes, the DNM3 encodes a protein that is a member of the dynamin family with mechanochemical properties involved in actin-membrane processes, predominantly in membrane budding, and the RAD51B gene plays a significant role in homologous recombination in DNA repair for genome stability. Materials and Methods: The study enrolled 113 patients with pituitary adenoma and 283 healthy control subjects. DNA samples were extracted and purified from peripheral blood leukocytes. Genotyping was carried out using real-time polymerase chain reaction. The results were assessed using binomial logistic regression. Results: Our study revealed that RAD51B rs2588809 TT genotype could be associated with PA development in the codominant (OR=6.833; 95% CI=2.557-18.262; p<0.001) and recessive (OR=7.066; 95% CI=2.667-18.722; p<0.001) models. The same results were observed in females but not in males and PA without recurrence, while in PA with recurrence, no statistically significant results were obtained. Conclusion: RAD51B rs2588809 TT genotype may increase the odds of PA development in women; it may also be associated with non-recurrent PA development. [ABSTRACT FROM AUTHOR]

Published

2021

7. Tbx15 is required for adipocyte browning induced by adrenergic signaling pathway.

Author

Sun, Wei, Zhao, Xuemei, Wang, Zhengqi, Chu, Yi, Mao, Liufeng, Lin, Shaoqiang, Gao, Xuefei, Song, Yuna, Hui, Xiaoyan, Jia, Shiqi, Tang, Shibing, Xu, Yong, Xu, Aimin, Loomes, Kerry, Wang, Cunchuan, Wu, Donghai, and Nie, Tao

Abstract

The T-box gene Tbx15 is abundantly expressed in adipose tissues, especially subcutaneous and brown fat. Although its expression is correlated with obesity, its precise biological role in adipose tissue is poorly understood in vivo. Here we investigated the function of Tbx15 in brown adipose thermogenesis and white adipose browning in vivo. In the present study, we generated adipose-specific Tbx15 knockout (AKO) mice by crossing Tbx15 floxed mice with adiponectin-Cre mice to delineate Tbx15 function in adipose tissues. We systematically investigated the influence of Tbx15 on brown adipose thermogenesis and white adipose browning in mice, as well as the possible underlying molecular mechanism. Upon cold exposure, adipocyte browning in inguinal adipose tissue was significantly impaired in Tbx15 AKO mice. Furthermore, ablation of Tbx15 blocked adipocyte browning induced by β3 adrenergic agonist CL 316243, which did not appear to alter the expression of Tbx15. Analysis of DNA binding sites using chromatin-immunoprecipitation (ChIP) revealed that TBX15 bound directly to a key region in the Prdm16 promoter, indicating it regulates transcription of Prdm16 , the master gene for adipocyte thermogenesis and browning. Compared to control mice, Tbx15 AKO mice displayed increased body weight gain and decreased whole body energy expenditure in response to high fat diets. Taken together, these findings suggest that Tbx15 regulates adipocyte browning and might be a potential target for the treatment of obesity. • Lack of Tbx15 significantly impairs adipocyte browning induced by cold or adrenergic agonist CL 316243. • Tbx15 was involved in adipocyte browning by regulating expression of Prdm16. • Tbx15 AKO mice are sensitive to body weight gain on high fat diets. [ABSTRACT FROM AUTHOR]

Published

2019

8. Human Genetics of Ventricular Septal Defect.

Author

Perrot A and Rickert-Sperling S

Subjects

Humans, Chromosome Aberrations, DNA Copy Number Variations genetics, Genetic Predisposition to Disease genetics, Mutation, Transcription Factors genetics, Heart Septal Defects, Ventricular genetics

Abstract

Ventricular septal defects (VSDs) are recognized as one of the commonest congenital heart diseases (CHD), accounting for up to 40% of all cardiac malformations, and occur as isolated CHDs as well as together with other cardiac and extracardiac congenital malformations in individual patients and families. The genetic etiology of VSD is complex and extraordinarily heterogeneous. Chromosomal abnormalities such as aneuploidy and structural variations as well as rare point mutations in various genes have been reported to be associated with this cardiac defect. This includes both well-defined syndromes with known genetic cause (e.g., DiGeorge syndrome and Holt-Oram syndrome) and so far undefined syndromic forms characterized by unspecific symptoms. Mutations in genes encoding cardiac transcription factors (e.g., NKX2-5 and GATA4) and signaling molecules (e.g., CFC1) have been most frequently found in VSD cases. Moreover, new high-resolution methods such as comparative genomic hybridization enabled the discovery of a high number of different copy number variations, leading to gain or loss of chromosomal regions often containing multiple genes, in patients with VSD. In this chapter, we will describe the broad genetic heterogeneity observed in VSD patients considering recent advances in this field., (© 2024. The Author(s), under exclusive license to Springer Nature Switzerland AG.)

Published

2024

9. Promoter methylation and downregulated expression of the TBX15 gene in ovarian carcinoma.

Author

GOZZI, GAIA, CHELBI, SONIA T., MANNI, PAOLA, ALBERTI, LOREDANA, FONDA, SERGIO, SAPONARO, SARA, FABBIANI, LUCA, RIVASI, FRANCESCO, BENHATTAR, JEAN, and LOSI, LORENA

Subjects

*METHYLATION, *DOWNREGULATION, *OVARIAN cancer, *PROTEIN expression, *HAPLOTYPES

Abstract

TBX15 is a gene involved in the development of mesodermal derivatives. As the ovaries and the female reproductive system are of mesodermal origin, the aim of the present study was to determine the methylation status of the TBX15 gene promoter and the expression levels of TBX15 in ovarian carcinoma, which is the most lethal and aggressive type of gynecological tumor, in order to determine the role of TBX15 in the pathogenesis of ovarian carcinoma. This alteration could be used to predict tumor development, progression, recurrence and therapeutic effects. The study was conducted on 80 epithelial ovarian carcinoma and 17 control cases (normal ovarian and tubal tissues). TBX15 promoter methylation was first determined by pyrosequencing following bisulfite modification, then by cloning and sequencing, in order to obtain information about the epigenetic haplotype. Immunohistochemical analysis was performed to evaluate the correlation between the methylation and protein expression levels. Data revealed a statistically significant increase of the TBX15 promoter region methylation in 82% of the tumor samples and in various histological subtypes. Immunohistochemistry showed an inverse correlation between methylation levels and the expression of the TBX15 protein. Furthermore, numerous tumor samples displayed varying degrees of intratumor heterogeneity. Thus, the present study determined that ovarian carcinoma typically expresses low levels of TBX15 protein, predominantly due to an epigenetic mechanism. This may have a role in the pathogenesis of ovarian carcinoma independent of the histological subtype. [ABSTRACT FROM AUTHOR]

Published

2016

10. miR-4732-3p prevents lung cancer progression via inhibition of the TBX15/TNFSF11 axis.

Author

Li P, Li Y, Bai S, Zhang Y, and Zhao L

Subjects

Humans, Cell Proliferation, Computational Biology, Phenotype, Promoter Regions, Genetic, RANK Ligand, T-Box Domain Proteins genetics, Lung Neoplasms genetics, MicroRNAs genetics

Abstract

Aim: Possible roles of miRNAs in cancer treatment have been highly studied. This study aimed to elucidate the role of miR-4732-3p in lung cancer. Methods: Bioinformatics analysis was conducted to predict miR-4732-3p-related mRNA targets in lung cancer. Following interaction determination between miR-4732-3p and TBX15 as well as between TBX15 and TNFSF11, their in vitro and in vivo roles were assayed. Results: miR-4732-3p negatively targeted TBX15, which upregulated TNFSF11 by enhancing the activity of the TNFSF11 promoter. Overexpression of miR-4732-3p or silencing of TBX15 or TNFSF11 inhibited the malignant phenotype of lung cancer cells and reduced tumorigenicity in vivo . Conclusion: Overall, this study highlighted the inhibitory role of miR-4732-3p in lung cancer progression through the TBX15/TNFSF11 axis.

Published

2023

11. Novel antiapoptotic effect of TBX15: overexpression of TBX15 reduces apoptosis in cancer cells.

Author

Arribas, Jéssica, Giménez, Esteban, Marcos, Ricard, and Velázquez, Antonia

Abstract

T-box genes regulate development processes, some of these genes having also a role in cell proliferation and survival. TBX15 is a T-box transcription factor that, recently, has been proposed as a marker in prostate cancer, but its function in carcinogenesis is unknown. Here the role of TBX15 in carcinogenesis was investigated using thyroid cancer cell lines. First, using western blot analysis, we show that the expression of TBX15 was altered in thyroid cancer cells lines with respect to normal thyroid cells. Transfection of thyroid cancer cells with TBX15, in the presence or absence of camptothecin as a cytotoxic agent, proved non effect of TBX15 in cell viability; but, it increased cell proliferation after 48 h of transfection (P < 0.01). Consistently, apoptosis was reduced in TBX15 transfected cells (P < 0.01) which also showed a decrease of the proapoptotic Bax regulator and an increase of the antiapoptotic Bcl2 and Bcl-XL regulators. Additionally, siRNA shutdown of constitutive TBX15 increased apoptosis. TBX15 transfection did not alter colony formation and cell migration. Taken together, these results indicate for the first time an antiapoptotic role of TBX15 in cancer cells, suggesting a contribution of TBX15 in carcinogenesis and the potential therapeutic target of TBX15. [ABSTRACT FROM AUTHOR]

Published

2015

12. Homozygosity for a novel truncating mutation confirms TBX15 deficiency as the cause of Cousin syndrome.

Author

Dikoglu, Esra, Simsek‐Kiper, Pelin Ozlem, Utine, Gulen Eda, Campos‐Xavier, Belinda, Boduroglu, Koray, Bonafé, Luisa, Superti‐Furga, Andrea, and Unger, Sheila

Abstract

Cousin syndrome, also called pelviscapular dysplasia (OMIM 260660), is characterized by short stature, craniofacial dysmorphism, and multiple skeletal anomalies. Following its description in two sibs in 1982, no new cases have been observed until the observation of two unrelated cases in 2008 who were homozygous for frameshift mutations in TBX15. We investigated an adult individual with short stature, a complex craniofacial dysmorphism, malformed and rotated ears, short neck, elbow contractures, hypoacusis, and hypoplasia of scapula and pelvis on radiographs. We identified homozygosity for a novel nonsense mutation (c.841C>T) in TBX15 predicted to cause a premature stop (p.Arg281*) with truncation of the protein. This observation confirms that Cousin syndrome is a consistent and clinically recognizable phenotype caused by loss of function of TBX15. © 2013 Wiley Periodicals, Inc. [ABSTRACT FROM AUTHOR]

Published

2013

13. Seven diverse human embryonic stem cell-derived chondrogenic clonal embryonic progenitor cell lines display site-specific cell fates.

Author

Sternberg, Hal, Kidd, Jennifer, Murai, James T., Jiang, Jianjie, Rinon, Ariel, Erickson, Isaac E., Funk, Walter D., Qian Wang, Chapman, Karen B., Vangsness Jr, C. Thomas, and West, Michael D.

Published

2013

14. Tbx18 and Tbx15 null-like phenotypes in mouse embryos expressing Tbx6 in somitic and lateral plate mesoderm

Author

Wehn, Amy K. and Chapman, Deborah L.

Subjects

*PHENOTYPES, *MESODERM, *TRANSCRIPTION factors, *CELL differentiation, *CELL proliferation, *BINDING sites, *DNA, *LABORATORY mice

Abstract

Abstract: Members of the T-box family of transcription factors play essential roles in cell type specification, differentiation, and proliferation during embryonic development. All T-box family members share a common DNA binding domain – the T-domain – and can therefore recognize similar sequences. Consequently, T-box proteins that are co-expressed during development have the potential to compete for binding at downstream targets. In the mouse, Tbx6 is expressed in the primitive streak and presomitic mesoderm, and is sharply down-regulated upon segmentation of the paraxial mesoderm. We sought to determine the phenotypic and molecular consequences of ectopically expressing Tbx6 within the segmented paraxial mesoderm and its derivatives using a 3-component transgenic system. The vertebral column, ribs, and appendicular skeleton were all affected in these embryos, which resembled Tbx18 and Tbx15 null embryos. We hypothesize that these phenotypes result from competition between the ectopically expressed Tbx6 and the endogenously expressed Tbx18 and Tbx15 at the binding sites of target genes. In vitro luciferase transcriptional assays provide further support for this hypothesis. [ABSTRACT FROM AUTHOR]

Published

2010

15. Genetics of shoulder girdle formation: roles of Tbx15 and aristaless-like genes.

Author

Kuijper, Sanne, Kroon, Carla, Brouwer, Antje, Beverdam, Annemiek, Candille, Sophie, Barsh, Gregory, and Meijlink, Frits

Subjects

*VERTEBRATES, *EMBRYOS, *GENES, *GENETIC markers, *MESODERM, *CELLS, *SHOULDER girdle

Abstract

The diverse cellular contributions to the skeletal elements of the vertebrate shoulder and pelvic girdles during embryonic development complicate the study of their patterning. Research in avian embryos has recently clarified part of the embryological basis of shoulder formation. Although dermomyotomal cells provide the progenitors of the scapular blade, local signals appear to have an essential guiding role in this process. These signals differ from those that are known to pattern the more distal appendicular skeleton. We have studied the impact of Tbx15, Gli3, Alx4 and related genes on formation of the skeletal elements of the mouse shoulder and pelvic girdles. We observed severe reduction of the scapula in double and triple mutants of these genes. Analyses of a range of complex genotypes revealed aspects of their genetic relationship, as well as functions that had been previously masked due to functional redundancy. Tbx15 and Gli3 appear to have synergistic functions in formation of the scapular blade. Scapular truncation in triple mutants of Tbx15, Alx4 and Cart1 indicates essential functions for Alx4 and Cartl in the anterior part of the scapula, as opposed to Gli3 function being linked to the posterior part. Especially in Alx4/Cart1 mutants, the expression of markers such as Pax1, Pax3 and Scleraxis is altered prior to stages when anatomical aberrations are visible in the shoulder region. This suggests a disorganization of the proximal limb bud and adjacent flank mesoderm, and is likely to reflect the disruption of a mechanism providing positional cues to guide progenitor cells to their destination in the pectoral girdle. [ABSTRACT FROM AUTHOR]

Published

2005

16. Cloning of zebrafish T-box genes tbx15 and tbx18 and their expression during embryonic development

Author

Begemann, Gerrit, Gibert, Yann, Meyer, Axel, and Ingham, Phillip W.

Subjects

*GENETIC code, *TRANSCRIPTION factors, *GENETIC disorders

Abstract

Members of the T-box (tbx) gene family encode developmentally regulated transcription factors, several of which are implicated in human hereditary diseases. We have cloned the paralogous genes tbx15 and tbx18 in zebrafish and have characterised their expression in detail. tbx15 is expressed in paraxial head mesenchyme and its derivatives, the extraocular and jaw musculature and the posterior neurocranium. Further areas of tbx15 expression are in the anterior somitic mesoderm, in periocular mesenchyme and in the pectoral fin mesenchyme throughout larval development. Areas of strong tbx18 expression are found in the developing somitic and presomitic mesoderm, in the heart and in pectoral fin mesenchyme, as well as the ventral neuroectoderm and the developing palate. Both genes exhibit particular differences in expression compared to their murine orthologs. [Copyright &y& Elsevier]

Published

2002