Perry Charles H, Lavado Alfonso, Thulabandu Venkata, Ramirez Cody, Paré Joshua, Dixit Rajiv, Mishra Akhilesh, Yang Jiyuan, Yu Jiyang, Cao Xinwei
Department of Developmental Neurobiology; Pediatric Translational Neuroscience Initiative, St. Jude Children's Research Hospital, Memphis, TN 38105, USA.
These authors contributed equally.
bioRxiv. 2025 Jan 13:2024.12.19.629472. doi: 10.1101/2024.12.19.629472.
The TEAD family of transcription factors are best known as the DNA-binding factor in the Hippo pathway, where they act by interacting with transcriptional coactivators YAP and TAZ (YAP/TAZ). Despite the importance of the Hippo pathway, the in vivo functions of TEAD in mammals have not been well established. By comparing mouse mutants lacking TEAD1 and TEAD2 (TEAD1/2) to those lacking YAP/TAZ, we found that TEAD1/2 have both YAP/TAZ-dependent and -independent functions during ventral telencephalon development. TEAD1/2 loss and YAP/TAZ loss similarly disrupt neuroepithelial apical junctions. However, the impacts of their losses on progenitor lineage progression are essentially opposite: Whereas YAP/TAZ loss depletes early progenitors and increases later progenitors-consistent with their established function in promoting progenitor self-renewal and proliferation, TEAD1/2 loss expands early progenitors and reduces late progenitors, indicating that TEAD1/2 promote lineage progression. We further show that TEAD1/2 promote neural progenitor lineage progression by, at least in part, inhibiting Notch signaling and by cooperating with Insulinoma-associated 1 (INSM1). Orthologs of TEAD and INSM1 have been shown to cooperatively regulate neuronal cell fate decisions in worms and flies. Our study reveals a remarkable evolutionary conservation of the function of this transcription factor complex during metazoan neural development.
转录因子TEAD家族作为Hippo信号通路中的DNA结合因子最为人所知,它们通过与转录共激活因子YAP和TAZ(YAP/TAZ)相互作用发挥作用。尽管Hippo信号通路很重要,但TEAD在哺乳动物体内的功能尚未得到充分明确。通过比较缺乏TEAD1和TEAD2(TEAD1/2)的小鼠突变体与缺乏YAP/TAZ的小鼠突变体,我们发现TEAD1/2在腹侧端脑发育过程中具有YAP/TAZ依赖性和非依赖性功能。TEAD1/2缺失和YAP/TAZ缺失同样会破坏神经上皮顶端连接。然而,它们缺失对祖细胞谱系进展的影响基本相反:YAP/TAZ缺失会耗尽早期祖细胞并增加晚期祖细胞,这与其在促进祖细胞自我更新和增殖方面已确立的功能一致;而TEAD1/2缺失则会扩大早期祖细胞并减少晚期祖细胞,表明TEAD1/2促进谱系进展。我们进一步表明,TEAD1/2至少部分通过抑制Notch信号传导以及与胰岛瘤相关蛋白1(INSM1)协同作用来促进神经祖细胞谱系进展。在蠕虫和果蝇中,TEAD和INSM1的直系同源物已被证明可协同调节神经元细胞命运决定。我们的研究揭示了这种转录因子复合物在后生动物神经发育过程中功能的显著进化保守性。
