共查询到20条相似文献,搜索用时 0 毫秒
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Zachary E. Stine Jimmy L. Huynh Stacie K. Loftus David U. Gorkin Amirali H. Salmasi Thomas Novak Todd Purves Ronald A. Miller Anthony Antonellis John P. Gearhart William J. Pavan Andrew S. McCallion 《Genesis (New York, N.Y. : 2000)》2009,47(11):765-770
Utilizing a recently identified Sox10 distal enhancer directing Cre expression, we report S4F:Cre, a transgenic mouse line capable of inducing recombination in oligodendroglia and all examined neural crest derived tissues. Assayed using R26R:LacZ reporter mice expression was detected in neural crest derived tissues including the forming facial skeleton, dorsal root ganglia, sympathetic ganglia, enteric nervous system, aortae, and melanoblasts, consistent with Sox10 expression. LacZ reporter expression was also detected in non‐neural crest derived tissues including the oligodendrocytes and the ventral neural tube. This line provides appreciable differences in Cre expression pattern from other transgenic mouse lines that mark neural crest populations, including additional populations defined by the expression of other SoxE proteins. The S4F:Cre transgenic line will thus serve as a powerful tool for lineage tracing, gene function characterization, and genome manipulation in these populations. genesis 47:765–770, 2009. © 2009 Wiley‐Liss, Inc. 相似文献
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Oka K Oka S Hosokawa R Bringas P Brockhoff HC Nonaka K Chai Y 《Developmental biology》2008,321(2):303-309
Transforming growth factor-β (TGF-β) signaling is crucial for mandible development. During its development, the majority of the mandible is formed through intramembranous ossification whereas the proximal region of the mandible undergoes endochondral ossification. Our previous work has shown that TGF-β signaling is required for the proliferation of cranial neural crest (CNC)-derived ectomesenchyme in the mandibular primordium where intramembranous ossification takes place. Here we show that conditional inactivation of Tgfbr2 in CNC cells results in accelerated osteoprogenitor differentiation and perturbed chondrogenesis in the proximal region of the mandible. Specifically, the appearance of chondrocytes in Tgfbr2fl/fl;Wnt1-Cre mice is delayed and they are smaller in size in the condylar process and completely missing in the angular process. TGF-β signaling controls Sox9 expression in the proximal region, because Sox9 expression is delayed in condylar processes and missing in angular process in Tgfbr2fl/fl;Wnt1-Cre mice. Moreover, exogenous TGF-β can induce Sox9 expression in the mandibular arch. In the angular processes of Tgfbr2fl/fl;Wnt1-Cre mice, osteoblast differentiation is accelerated and Dlx5 expression is elevated. Significantly, deletion of Dlx5 in Tgfbr2fl/fl;Wnt1-Cre mice results in the rescue of cartilage formation in the angular processes. Finally, TGF-β signaling-mediated Scleraxis expression is required for tendonogenesis in the developing skeletal muscle. Thus, CNC-derived cells in the proximal region of mandible have a cell intrinsic requirement for TGF-β signaling. 相似文献
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Heterozygous mutations in the human SOX9 gene cause campomelic dysplasia (CD), a skeletal malformation syndrome with various other organ defects. Severely affected CD patients usually die in the neonatal period due to respiratory distress. We analyzed the dynamic expression pattern of Sox9 in the developing mouse lung throughout morphogenesis. To determine a role of Sox9 in lung development and function, Sox9 was specifically inactivated in respiratory epithelial cells of the mouse lung using a doxycycline-inducible Cre/loxP system. Immunohistochemical and RNA analysis demonstrated extensive inactivation of Sox9 in the embryonic stage of lung development as early as embryonic day (E) 12.5. Lung morphogenesis and lung function after birth were not altered. Compensatory upregulation of Sox2, Sox4, Sox8, Sox10, Sox11, and Sox17 was not detected. Although Sox9 is expressed at high levels throughout lung morphogenesis, inactivation of Sox9 from the respiratory epithelial cells does not alter lung structure, postnatal survival, or repair following oxygen injury. 相似文献
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M K M Kam M C H Cheung J J Zhu W W C Cheng E W Y Sat P K H Tam V C H Lui 《Cell death and differentiation》2014,21(2):278-289
Neural crest cells (NCCs) migrate from different regions along the anterior–posterior axis of the neural tube (NT) to form different structures. Defective NCC development causes congenital neurocristopathies affecting multiple NCC-derived tissues in human. Perturbed Hoxb5 signaling in vagal NCC causes enteric nervous system (ENS) defects. This study aims to further investigate if perturbed Hoxb5 signaling in trunk NCC contributes to defects of other NCC-derived tissues besides the ENS. We perturbed Hoxb5 signaling in NCC from the entire NT, and investigated its impact in the development of tissues derived from these cells in mice. Perturbation of Hoxb5 signaling in these NCC resulted in Sox9 downregulation, NCC apoptosis, hypoplastic sympathetic and dorsal root ganglia, hypopigmentation and ENS defects. Mutant mice with NCC-specific Sox9 deletion also displayed some of these phenotypes. In vitro and in vivo assays indicated that the Sox9 promoter was bound and trans-activated by Hoxb5. In ovo studies further revealed that Sox9 alleviated apoptosis induced by perturbed Hoxb5 signaling, and Hoxb5 induced ectopic Sox9 expression in chick NT. This study demonstrates that Hoxb5 regulates Sox9 expression in NCC and disruption of this signaling causes Sox9 downregulation, NCC apoptosis and multiple NCC-developmental defects. Phenotypes such as ENS deficiency, hypopigmentation and some of the neurological defects are reported in patients with Hirschsprung disease (HSCR). Whether dysregulation of Hoxb5 signaling and early depletion of NCC contribute to ENS defect and other neurocristopathies in HSCR patients deserves further investigation. 相似文献
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Elizabeth P. Lewis;Fatimah Al Khazal;Brandon Wilbanks;Naomi M. Gades;Patricia Ortega-Sáenz;José López-Barneo;Igor Adameyko;L. James Maher; 《FASEB BioAdvances》2024,6(9):327-336
In humans, loss of heterozygosity for defective alleles of any of the four subunits of mitochondrial tricarboxylic acid cycle enzyme succinate dehydrogenase (SDH, also Complex II of the electron transport chain) can lead to paraganglioma tumors in neuroendocrine cells. With the goal of developing mouse models of this rare disorder, we have developed various SDH conditional loss strategies. Based on recent lineage tracing studies, we hypothesized that conditional SDHC loss in early embryogenesis during migration of primordial neural crest cells that form the susceptible chromaffin cells of the adrenal medulla might induce paraganglioma. We triggered low levels of detectable SDHC loss in Sox10+ cells at E11.5 of mouse development. We report that, rather than developing adrenal medulla paraganglioma (pheochromocytoma), offspring survived with evidence of neural crest cell dysfunction. Phenotypes included mild lower extremity gait anomalies suggestive of neural tube closure defects and patches of unpigmented fur consistent with neural crest-derived melanocyte dysfunction. These defects were not observed in mice lacking Sdhc knockout. Our results add to existing data suggesting that, unlike humans, even early embryonic (Sox10-driven) SDHx loss is inadequate to trigger paraganglioma in mice of the genetic backgrounds that have been investigated. Instead, low levels of tricarboxylic acid cycle-deficient neural crest cells cause mild developmental defects in hind limb and melanocyte function. This new model may be of interest for studies of metabolism during early neural crest cell development. 相似文献
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Impact of transcription factor Sox8 on oligodendrocyte specification in the mouse embryonic spinal cord 总被引:4,自引:0,他引:4
The myelin-forming oligodendrocytes of the mouse embryonic spinal cord express the three group E Sox proteins Sox8, Sox9, and Sox10. They require Sox9 for their specification from neuroepithelial cells of the ventricular zone and Sox10 for their terminal differentiation and myelination. Here, we show that during oligodendrocyte development, Sox8 is expressed after Sox9, but before Sox10. Loss of Sox8 did not impair oligodendrocyte specification by itself, but enhanced the Sox9-dependent defect. Oligodendrocyte progenitors were still generated in the Sox9-deficient spinal cord, albeit at 20-fold lower rates than in the wildtype. Combined loss of Sox8 and Sox9, in contrast, led to a near complete loss of oligodendrocytes. Other cell types such as ventricular zone cells and radial glia remained unaffected in their numbers as well as their rates of proliferation and apoptosis. Oligodendrocyte development thus relies on the differential contribution of all three group E Sox proteins at various phases. 相似文献
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Sox proteins and neural crest development 总被引:1,自引:0,他引:1
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Fenghua Zhou Caixia Zhang Yingjun Guan Yanchun Chen Qiang Lu Linlin Jie Hailing Gao Hongmei Du Haoyun Zhang Yongxin Liu Xin Wang 《Journal of neurochemistry》2018,145(1):51-67
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Haller R Schwanbeck R Martini S Bernoth K Kramer J Just U Rohwedel J 《Cell death and differentiation》2012,19(3):461-469
Notch signaling is involved in several cell lineage determination processes during embryonic development. Recently, we have shown that Sox9 is most likely a primary target gene of Notch1 signaling in embryonic stem cells (ESCs). By using our in vitro differentiation protocol for chondrogenesis from ESCs through embryoid bodies (EBs) together with our tamoxifen-inducible system to activate Notch1, we analyzed the function of Notch signaling and its induction of Sox9 during EB differentiation towards the chondrogenic lineage. Temporary activation of Notch1 during early stages of EB, when lineage determination occurs, was accompanied by rapid and transient Sox9 upregulation and resulted in induction of chondrogenic differentiation during later stages of EB cultivation. Using siRNA targeting Sox9, we knocked down and adjusted this early Notch1-induced Sox9 expression peak to non-induced levels, which led to reversion of Notch1-induced chondrogenic differentiation. In contrast, continuous Notch1 activation during EB cultivation resulted in complete inhibition of chondrogenic differentiation. Furthermore, a reduction and delay of cardiac differentiation observed in EBs after early Notch1 activation was not reversed by siRNA-mediated Sox9 knockdown. Our data indicate that Notch1 signaling has an important role during early stages of chondrogenic lineage determination by regulation of Sox9 expression. 相似文献
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牛Sry亚细胞定位及其对Sox9基因表达的影响 总被引:1,自引:0,他引:1
为鉴别牛Sry基因的下游目的基因,并确定Sry蛋白在细胞内的定位区域, 本试验构建pcDNA3.1-Sry表达载体和pEGFP-N1-Sry亚细胞定位表达载体, 在原代培养的生殖嵴细胞和卵巢颗粒细胞中进行Sry过表达,并对性别控制相关基因在Sry过表达前后的表达水平变化进行检测,包括Sf1 (Steroidogenic fator-1)、Gata4 (GATA binding protein 4)、Wt1 (Wilms'tumor gene)、Sox9 (Sry-related HMG box-9)、Amh (Anti Mullerian Hormone)和Dax1 (Dosage sensitive sex reversal locus-1);并在两种细胞中进行了Sry亚细胞定位研究.Sry在两种细胞中过表达后,在生殖嵴细胞中Sox9的表达水平被显著上调,但在卵巢颗粒细胞中未观察到Sox9基因被上调,而其他几个基因的表达水平未受Sry影响;亚细胞定位结果表明牛Sry主要分布在细胞核内.本试验说明牛Sry可能间接调控Sox9表达,或存在其他不需要Sry参与的调控通路调控Sox9表达;牛Sry蛋白起转录因子作用. 相似文献
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目的:探究Sox9用于治疗椎间盘退变的效果及调控机制。方法:将Ad-sox9和Ad-GFP各20μL分别转染至椎间盘退变兔的髓核组织中,转染后3、7、30、60天取材,采用免疫组化、免疫荧光和MRI等研究方法检测椎间盘髓核组织中II型胶原、蛋白多糖的表达情况,并分析对椎间盘退变的改善情况。结果:免疫组化染色显示sox9组中椎间盘髓核组织中II型胶原、蛋白多糖的表达明显升高,MRI显示sox9组椎间盘T2像信号有明显改善(P<0.05)。结论:体内转染腺病毒介导的sox9基因能够增加椎间盘内II型胶原和蛋白多糖的表达,并抑制椎间盘的退变进程。 相似文献
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In vertebrates, there are six or more copies of genes related to the Drosophila pattern formation homeodomain gene Distal-less. Among this family, Dlx3 and Dlx5 share extensive sequence homology and have similar, but distinctive, expression patterns, suggesting that these two factors may have substantially redundant developmental functions. Here we show that at the earliest phases of embryogenesis in Xenopus, there are significant differences between Dlx3 and Dlx5 expression and that this correlates with different functions in the restriction of neural crest and neural plate boundaries, respectively. 相似文献