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β-淀粉样肽对蛋白激酶A/环磷腺苷反应元件结合蛋白信号通路及长时程增强的抑制作用:增强环磷腺苷信号传导药物的可逆性作用

Amyloid beta -peptide inhibition of the PKA/CREB pathway and long-term potentiation: reversibility by drugs that enhance cAMP signaling.

作者信息

Vitolo Ottavio V, Sant'Angelo Antonino, Costanzo Vincenzo, Battaglia Fortunato, Arancio Ottavio, Shelanski Michael

机构信息

Taub Institute for Research on Alzheimer's Disease and the Aging Brain and Department of Genetics and Development, Columbia University, New York, NY 10032, USA.

出版信息

Proc Natl Acad Sci U S A. 2002 Oct 1;99(20):13217-21. doi: 10.1073/pnas.172504199. Epub 2002 Sep 20.

DOI:10.1073/pnas.172504199
PMID:12244210
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC130613/
Abstract

Changes in hippocampal function seem critical for cognitive impairment in Alzheimer's disease (AD). Although there is eventual loss of synapses in both AD and animal models of AD, deficits in spatial memory and inhibition of long-term potentiation (LTP) precede morphological alterations in the models, suggesting earlier biochemical changes in the disease. In the studies reported here we demonstrate that amyloid beta-peptide (Abeta) treatment of cultured hippocampal neurons leads to the inactivation of protein kinase A (PKA) and persistence of its regulatory subunit PKAIIalpha. Consistent with this, CREB phosphorylation in response to glutamate is decreased, and the decrease is reversed by rolipram, a phosphodiesterase inhibitor that raises cAMP and leads to the dissociation of the PKA catalytic and regulatory subunits. It is likely that a similar mechanism underlies Alphabeta inhibition of LTP, because rolipram and forskolin, agents that enhance the cAMP-signaling pathway, can reverse this inhibition. This reversal is blocked by H89, an inhibitor of PKA. These observations suggest that Alphabeta acts directly on the pathways involved in the formation of late LTP and agents that enhance the cAMP/PKA/CREB-signaling pathway have potential for the treatment of AD.

摘要

海马体功能的变化似乎是阿尔茨海默病(AD)认知障碍的关键因素。尽管在AD及其动物模型中最终都会出现突触丧失,但在模型中,空间记忆缺陷和长期增强(LTP)抑制先于形态学改变,这表明该疾病早期存在生化变化。在本文报道的研究中,我们证明用淀粉样β肽(Abeta)处理培养的海马神经元会导致蛋白激酶A(PKA)失活及其调节亚基PKAIIalpha持续存在。与此一致的是,对谷氨酸的反应中CREB磷酸化减少,而磷酸二酯酶抑制剂咯利普兰可逆转这种减少,咯利普兰可提高cAMP并导致PKA催化亚基和调节亚基解离。很可能类似的机制是Abeta抑制LTP的基础,因为咯利普兰和福斯可林(增强cAMP信号通路的药物)可逆转这种抑制。PKA抑制剂H89可阻断这种逆转。这些观察结果表明,Abeta直接作用于晚期LTP形成所涉及的通路,增强cAMP/PKA/CREB信号通路的药物具有治疗AD的潜力。

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