神经元SAM68不同地调节选择性的最后外显子剪接,并确保适当的突触发育和功能。

The Journal of Biological Chemistry Pub Date : 2023-10-01 Epub Date: 2023-08-16 DOI:10.1016/j.jbc.2023.105168
Mohamed Darwish, Masatoshi Ito, Yoko Iijima, Akinori Takase, Noriko Ayukawa, Satoko Suzuki, Masami Tanaka, Kanae Komori, Daisuke Kaida, Takatoshi Iijima
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引用次数: 0

摘要

哺乳动物基因3'UTR的选择性剪接在包括细胞分化和发育在内的多种生物学过程中发挥着至关重要的作用。SAM68是一种关键的剪接调节因子,通过选择性最后外显子(ALE)选择控制3’UTR异构体的多样性。然而,3’端剪接控制的组织/细胞类型特异性机制及其功能意义尚不清楚。在这里,我们发现SAM68以剂量依赖的方式调节ALE剪接,并且神经元剪接根据靶转录物的特征而受到不同的调节。具体而言,我们发现SAM68通过与U1小核核糖核蛋白的相互作用调节白细胞介素-1受体相关蛋白剪接。相反,与几种神经精神疾病有关的原粘附素-15(Pcdh15)的ALE剪接独立于U1小核核糖核蛋白,但受钙/钙调蛋白依赖性蛋白激酶信号通路的调节。我们发现,Pcdh15的异常ALE选择导致从膜结合型转化为可溶性同种型,从而破坏了其在兴奋性和抑制性突触中的定位。值得注意的是,可溶性PCDH15的神经元表达优先影响抑制性突触的数量。此外,可溶性形式的PCDH15与α-neurexins发生物理相互作用,并在人工突触形成测定中进一步破坏神经胶质蛋白2诱导的抑制性突触。我们的发现为神经元特异性替代3’UTR亚型选择在突触发育中的作用提供了新的见解。
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Neuronal SAM68 differentially regulates alternative last exon splicing and ensures proper synapse development and function.

Alternative splicing in the 3'UTR of mammalian genes plays a crucial role in diverse biological processes, including cell differentiation and development. SAM68 is a key splicing regulator that controls the diversity of 3'UTR isoforms through alternative last exon (ALE) selection. However, the tissue/cell type-specific mechanisms underlying the splicing control at the 3' end and its functional significance remain unclear. Here, we show that SAM68 regulates ALE splicing in a dose-dependent manner and the neuronal splicing is differentially regulated depending on the characteristics of the target transcript. Specifically, we found that SAM68 regulates interleukin-1 receptor-associated protein splicing through the interaction with U1 small nuclear ribonucleoprotein. In contrast, the ALE splicing of protocadherin-15 (Pcdh15), a gene implicated in several neuropsychiatric disorders, is independent of U1 small nuclear ribonucleoprotein but modulated by the calcium/calmodulin-dependent protein kinase signaling pathway. We found that the aberrant ALE selection of Pcdh15 led to a conversion from a membrane-bound to a soluble isoform and consequently disrupted its localization into excitatory and inhibitory synapses. Notably, the neuronal expression of the soluble form of PCDH15 preferentially affected the number of inhibitory synapses. Moreover, the soluble form of PCDH15 interacted physically with α-neurexins and further disrupted neuroligin-2-induced inhibitory synapses in artificial synapse formation assays. Our findings provide novel insights into the role of neuron-specific alternative 3'UTR isoform selections in synapse development.

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