Dhanya Sreeja Kumari, Kalia Kishan, Mohanty Sattwik, Azam Tulaib, Channakkar Asha S, D'Souza Leora, Swathi K S, Reddy Puli Chandramouli, Muralidharan Bhavana
Institute for Stem Cell Science and Regenerative Medicine (inStem), Bangalore-560065, India.
Regional Centre for Biotechnology, Faridabad - 121001.
eNeuro. 2024 Nov 26;11(12):ENEURO.0391-23.2024. doi: 10.1523/ENEURO.0391-23.2024.
Chromatin regulation plays a crucial role in neocortical neurogenesis, and mutations in chromatin modifiers are linked to neurodevelopmental disorders. RBBP4 is a core subunit of several chromatin-modifying complexes; however, its functional role and genome-wide occupancy profile in the neocortical primordium are unknown. To address this, we performed RBBP4 knockdown using CRISPR/Cas9 on neocortical progenitors derived from mice of both sexes at embryonic age 12.5 during deep-layer neurogenesis. Our study demonstrates that downregulation of RBBP4 in the E12.5 neocortical progenitors reduced neuronal output, specifically affecting CTIP2-expressing neurons. We demonstrate that RBBP4 plays an essential role in regulating neocortical progenitor proliferation. However, overexpression of RBBP4 alone was not sufficient to regulate neuronal fate.Genome-wide occupancy analysis revealed that RBBP4 primarily binds to distal regulatory elements, and neuron differentiation is a significant GO biological pathway of RBBP4-bound genes. Interestingly, we found that RBBP4 binds to , a receptor protein in the Shh signaling pathway, and knockdown of phenocopies RBBP4 knockdown resulting in a significant reduction in neurogenesis, particularly CTIP2-expressing neurons. CDON overexpression could rescue the phenotype caused upon loss of RBBP4 in the neocortex, thereby suggesting the functional link between RBBP4 and its target gene CDON. Our results shed light on the cellular role of RBBP4 and identify CDON as a novel regulator of deep-layer neurogenesis in the neocortical progenitors. Our findings are significant in the context of understanding how dysregulated chromatin regulation impacts cellular mechanisms in neurodevelopmental disorders. Chromatin modifier RBBP4 regulates chromatin structure and, thereby, gene expression. It is expressed in the dorsal telencephalon progenitors during deep-layer neurogenesis. In this study, we unveil a novel role for RBBP4 in regulating deep-layer neurogenesis in the neocortical progenitors. Our research underscores RBBP4's critical role in governing progenitor proliferation and neuronal subtype specification in the neocortex while identifying its genome-wide binding occupancy profile. Moreover, we identify Cdon as a novel binding target of RBBP4, also involved in regulating deep-layer neurogenesis. These findings illuminate the mechanisms by which chromatin modifiers influence neocortical development, offering insights into how mutations in chromatin modifiers could impact cortical development and contribute to neurodevelopmental disorders.
染色质调控在新皮质神经发生中起着关键作用,染色质修饰因子的突变与神经发育障碍有关。RBBP4是几种染色质修饰复合物的核心亚基;然而,其在新皮质原基中的功能作用和全基因组占据情况尚不清楚。为了解决这个问题,我们在深层神经发生期间,于胚胎期12.5天对来自雌雄小鼠的新皮质祖细胞使用CRISPR/Cas9进行RBBP4敲低。我们的研究表明,E12.5新皮质祖细胞中RBBP4的下调减少了神经元输出,特别影响表达CTIP2的神经元。我们证明RBBP4在调节新皮质祖细胞增殖中起重要作用。然而,单独过表达RBBP4不足以调节神经元命运。全基因组占据分析表明,RBBP4主要结合远端调控元件,并且神经元分化是RBBP4结合基因的一个重要GO生物学途径。有趣的是,我们发现RBBP4与Shh信号通路中的一种受体蛋白结合,敲低该蛋白模拟了RBBP4敲低的效果,导致神经发生显著减少,特别是表达CTIP2的神经元。CDON过表达可以挽救新皮质中RBBP4缺失所导致的表型,从而表明RBBP4与其靶基因CDON之间的功能联系。我们的结果揭示了RBBP4的细胞作用,并确定CDON是新皮质祖细胞中深层神经发生的一种新型调节因子。我们的发现对于理解染色质调控失调如何影响神经发育障碍中的细胞机制具有重要意义。染色质修饰因子RBBP4调节染色质结构,进而调节基因表达。它在深层神经发生期间在背侧端脑祖细胞中表达。在这项研究中,我们揭示了RBBP4在调节新皮质祖细胞深层神经发生中的新作用。我们的研究强调了RBBP4在控制新皮质祖细胞增殖和神经元亚型特化中的关键作用,同时确定了其全基因组结合占据情况。此外,我们确定Cdon是RBBP4的一个新的结合靶点,也参与调节深层神经发生。这些发现阐明了染色质修饰因子影响新皮质发育的机制,为染色质修饰因子中的突变如何影响皮质发育并导致神经发育障碍提供了见解。
