Xubo Niu, Delmy L. Melendez, Suyash Raj, Junming Cai, Dulanjalee Senadeera, Joseph Mandelbaum, Ilya A. Shestopalov, Scott D. Martin, Leonard I. Zon, Thorsten M. Schlaeger, Lick Pui Lai, Andrew P. McMahon, April M. Craft, Jenna L. Galloway
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引用次数: 0
摘要
肌腱将力量从肌肉传递到骨骼,极易受伤。了解肌腱命运的驱动机制将影响改善肌腱愈合的努力,然而这方面的知识还很有限。为了找到肌腱祖细胞出现的直接调控因子,我们进行了斑马鱼高通量化学筛选。我们确定福斯可林是脊椎动物的肌腱生成诱导剂,它通过 Creb1a 起作用,而 Creb1a 是肌腱生成所必需的。人类、小鼠和鱼类中含有环磷酸腺苷(cAMP)反应元件(CREs)的推定增强子驱动了斑马鱼颅腱和鳍腱的特异性表达。对这些基因组区域的分析确定了早期 B 细胞因子(Ebf/EBF)转录因子的基团。CRE或Ebf/EBF基团的突变极大地破坏了肌腱中的增强子活性和特异性。斑马鱼 ebf1a/ebf3a 突变体显示出肌腱形成的缺陷。值得注意的是,Creb1a/CREB1和Ebf1a/Ebf3a/EBF1的过表达促进了斑马鱼和人类多能干细胞的肌腱形成诱导。总之,我们的工作确定了两个转录因子在促进肌腱命运方面的功能保护。
A conserved transcription factor regulatory program promotes tendon fate
Tendons, which transmit force from muscles to bones, are highly prone to injury. Understanding the mechanisms driving tendon fate would impact efforts to improve tendon healing, yet this knowledge is limited. To find direct regulators of tendon progenitor emergence, we performed a zebrafish high-throughput chemical screen. We established forskolin as a tenogenic inducer across vertebrates, functioning through Creb1a, which is required and sufficient for tendon fate. Putative enhancers containing cyclic AMP (cAMP) response elements (CREs) in humans, mice, and fish drove specific expression in zebrafish cranial and fin tendons. Analysis of these genomic regions identified motifs for early B cell factor (Ebf/EBF) transcription factors. Mutation of CRE or Ebf/EBF motifs significantly disrupted enhancer activity and specificity in tendons. Zebrafish ebf1a/ebf3a mutants displayed defects in tendon formation. Notably, Creb1a/CREB1 and Ebf1a/Ebf3a/EBF1 overexpression facilitated tenogenic induction in zebrafish and human pluripotent stem cells. Together, our work identifies the functional conservation of two transcription factors in promoting tendon fate.
期刊介绍:
Developmental Cell, established in 2001, is a comprehensive journal that explores a wide range of topics in cell and developmental biology. Our publication encompasses work across various disciplines within biology, with a particular emphasis on investigating the intersections between cell biology, developmental biology, and other related fields. Our primary objective is to present research conducted through a cell biological perspective, addressing the essential mechanisms governing cell function, cellular interactions, and responses to the environment. Moreover, we focus on understanding the collective behavior of cells, culminating in the formation of tissues, organs, and whole organisms, while also investigating the consequences of any malfunctions in these intricate processes.
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