Schaad N C, Shinohara T, Abe T, Klein D C
Section on Neuroendocrinology, National Institute of Child Health and Human Development, National Institutes of Health, Bethesda, Maryland 20892.
Endocrinology. 1991 Dec;129(6):3289-98. doi: 10.1210/endo-129-6-3289.
MEKA is an acidic 33-kilodalton phosphoprotein found in the retina and pineal gland. It is of interest because it forms a cytoplasmic heterotrimer with the beta gamma-complex of GTP-binding regulatory proteins (G proteins). Accordingly, MEKA may play a role in signal transduction. MEKA is phosphorylated on Ser73 by cAMP-dependent protein kinase. In the present report, MEKA was studied using an antiserum (Anti-32) against MEKA65-96, which can be used to estimate total MEKA and the phosphorylation state of MEKA. It was confirmed that MEKA is rapidly phosphorylated by adrenergic stimulation of pineal glands in organ culture. In addition, total (dephosphorylated) MEKA was observed to increase after a 6-h treatment with norepinephrine or (Bu)2 cAMP, an effect which was dependent upon new protein synthesis. In in vivo studies, it was found that the total amount of MEKA and MEKA phosphorylation were increased at night in the dark, a time when the pineal gland is adrenergically stimulated. The high level of phosphorylation was rapidly reduced when animals were exposed to light, which blocks neural stimulation of the gland. This report provides the first in vivo evidence that MEKA phosphorylation is under physiological control, and that MEKA synthesis is controlled by an adrenergic----cAMP mechanism which requires protein synthesis.
MEKA是一种在视网膜和松果体中发现的33千道尔顿的酸性磷蛋白。它之所以受到关注,是因为它与鸟苷三磷酸结合调节蛋白(G蛋白)的βγ复合物形成细胞质异源三聚体。因此,MEKA可能在信号转导中发挥作用。MEKA在Ser73位点被环磷酸腺苷依赖性蛋白激酶磷酸化。在本报告中,使用针对MEKA65 - 96的抗血清(Anti - 32)对MEKA进行了研究,该抗血清可用于评估总MEKA以及MEKA的磷酸化状态。已证实在器官培养中,松果体受到肾上腺素能刺激后MEKA会迅速磷酸化。此外,用去甲肾上腺素或双丁酰环磷腺苷(Bu)2 cAMP处理6小时后,观察到总(去磷酸化)MEKA增加,这一效应依赖于新的蛋白质合成。在体内研究中发现,在黑暗的夜间,松果体受到肾上腺素能刺激时,MEKA的总量和MEKA磷酸化增加。当动物暴露于光下时,高水平的磷酸化迅速降低,因为光会阻断对该腺体的神经刺激。本报告首次提供了体内证据,表明MEKA磷酸化受生理控制,且MEKA的合成受一种需要蛋白质合成的肾上腺素能 - 环磷酸腺苷机制控制。
