Point contact-restricted cAMP signaling controls ephrin-A5-induced axon repulsion.

IF 3.3 3区生物学 Q3 CELL BIOLOGY

Journal of cell science Pub Date : 2025-01-15 Epub Date: 2025-01-22 DOI:10.1242/jcs.263480

Johann Bécret, Claudia Gomez-Bravo, Camille Michaud, Ahlem Assali, Naïg A L Chenais, Izeta Kankadze, Fiona Roche, Sandrine Couvet, Coralie Fassier, Xavier Nicol

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Abstract

Signal transduction downstream of axon guidance molecules is essential for steering developing axons. Second messengers including cAMP are key molecules shared by a multitude of signaling pathways and are required for a wide range of cellular processes including axon pathfinding. Yet, how these signaling molecules achieve specificity for each of their downstream pathways remains elusive. Subcellular compartmentation has emerged as a flexible strategy to reach such a specificity. Here, we show that point contact-restricted cAMP signals control ephrin-A5-evoked axon repulsion in vitro by modulating focal adhesion kinase (FAK; also known as PTK2) phosphorylation and the assembly and disassembly rate of point contacts. Consistent with this, preventing point contact-specific cAMP signals in developing retinal ganglion cells in vivo alters the refinement of their terminal axonal arbor in the brain. Altogether, our study identifies point contacts as a compartment containing a local cAMP signal required for ephrin-A5-dependent axon guidance and highlights the crucial role of such subcellularly restricted second messenger signals in the wiring of neuronal circuits.

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点接触限制性cAMP信号控制ephrin- a5诱导的轴突排斥。

轴突引导分子下游的信号转导对轴突发育至关重要。包括cAMP在内的第二信使是多种信号通路共享的关键分子，是包括轴突寻路在内的广泛细胞过程所必需的。然而，这些信号分子如何实现其下游途径的特异性仍然是难以捉摸的。亚细胞分隔作为一种灵活的策略出现，以达到这种特异性。在这里，我们发现限制点接触的cAMP信号通过调节Focal Adhesion Kinase磷酸化和点接触的组装和分解率来控制ephrin- a5诱发的轴突排斥。在体内发育的视网膜神经节细胞中，始终如一地阻止点接触特异性cAMP信号会改变其末端轴突在大脑中的精细程度。总之，我们的研究将点接触确定为包含ephrin- a5依赖性轴突引导所需的局部cAMP信号的隔室，并强调了这种亚细胞受限的第二信使信号在神经元回路布线中的关键作用。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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