来自周围体细胞的环鸟苷酸调节小鼠卵母细胞中的环腺苷酸和减数分裂。

Cyclic GMP from the surrounding somatic cells regulates cyclic AMP and meiosis in the mouse oocyte.

作者信息

Norris Rachael P, Ratzan William J, Freudzon Marina, Mehlmann Lisa M, Krall Judith, Movsesian Matthew A, Wang Huanchen, Ke Hengming, Nikolaev Viacheslav O, Jaffe Laurinda A

机构信息

Department of Cell Biology, University of Connecticut Health Center, Farmington, CT 06032, USA.

出版信息

Development. 2009 Jun;136(11):1869-78. doi: 10.1242/dev.035238.

DOI:10.1242/dev.035238

PMID:19429786

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC2680110/

Abstract

Mammalian oocytes are arrested in meiotic prophase by an inhibitory signal from the surrounding somatic cells in the ovarian follicle. In response to luteinizing hormone (LH), which binds to receptors on the somatic cells, the oocyte proceeds to second metaphase, where it can be fertilized. Here we investigate how the somatic cells regulate the prophase-to-metaphase transition in the oocyte, and show that the inhibitory signal from the somatic cells is cGMP. Using FRET-based cyclic nucleotide sensors in follicle-enclosed mouse oocytes, we find that cGMP passes through gap junctions into the oocyte, where it inhibits the hydrolysis of cAMP by the phosphodiesterase PDE3A. This inhibition maintains a high concentration of cAMP and thus blocks meiotic progression. LH reverses the inhibitory signal by lowering cGMP levels in the somatic cells (from approximately 2 microM to approximately 80 nM at 1 hour after LH stimulation) and by closing gap junctions between the somatic cells. The resulting decrease in oocyte cGMP (from approximately 1 microM to approximately 40 nM) relieves the inhibition of PDE3A, increasing its activity by approximately 5-fold. This causes a decrease in oocyte cAMP (from approximately 700 nM to approximately 140 nM), leading to the resumption of meiosis.

摘要

哺乳动物的卵母细胞会因来自卵巢卵泡中周围体细胞的抑制信号而停滞在减数分裂前期。响应与体细胞上受体结合的促黄体生成素（LH），卵母细胞进入第二次中期，在此阶段它可以受精。在这里，我们研究体细胞如何调节卵母细胞从前期到中期的转变，并表明来自体细胞的抑制信号是cGMP。在卵泡包裹的小鼠卵母细胞中使用基于荧光共振能量转移（FRET）的环核苷酸传感器，我们发现cGMP通过间隙连接进入卵母细胞，在那里它抑制磷酸二酯酶PDE3A对cAMP的水解。这种抑制作用维持了高浓度的cAMP，从而阻断减数分裂进程。LH通过降低体细胞中的cGMP水平（LH刺激后1小时从约2微摩尔降至约80纳摩尔）并关闭体细胞之间的间隙连接来逆转抑制信号。由此导致的卵母细胞cGMP的减少（从约1微摩尔降至约40纳摩尔）解除了对PDE3A的抑制，使其活性增加约5倍。这导致卵母细胞cAMP减少（从约700纳摩尔降至约140纳摩尔），从而导致减数分裂的恢复。

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