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骨形态发生蛋白信号增强导致与年龄相关的神经发生和认知能力下降。

Increased bone morphogenetic protein signaling contributes to age-related declines in neurogenesis and cognition.

作者信息

Meyers Emily A, Gobeske Kevin T, Bond Allison M, Jarrett Jennifer C, Peng Chian-Yu, Kessler John A

机构信息

Department of Neurology, Northwestern University's Feinberg School of Medicine, Chicago, IL, USA.

Department of Neurology, Northwestern University's Feinberg School of Medicine, Chicago, IL, USA.

出版信息

Neurobiol Aging. 2016 Feb;38:164-175. doi: 10.1016/j.neurobiolaging.2015.10.035. Epub 2015 Nov 10.

DOI:10.1016/j.neurobiolaging.2015.10.035
PMID:26827654
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC4735642/
Abstract

Aging is associated with decreased neurogenesis in the hippocampus and diminished hippocampus-dependent cognitive functions. Expression of bone morphogenetic protein 4 (BMP4) increases with age by more than 10-fold in the mouse dentate gyrus while levels of the BMP inhibitor, noggin, decrease. This results in a profound 30-fold increase in phosphorylated-SMAD1/5/8, the effector of canonical BMP signaling. Just as observed in mice, a profound increase in expression of BMP4 is observed in the dentate gyrus of humans with no known cognitive abnormalities. Inhibition of BMP signaling either by overexpression of noggin or transgenic manipulation not only increases neurogenesis in aging mice, but remarkably, is associated with a rescue of cognitive deficits to levels comparable to young mice. Additive benefits are observed when combining inhibition of BMP signaling and environmental enrichment. These findings indicate that increased BMP signaling contributes significantly to impairments in neurogenesis and to cognitive decline associated with aging, and identify this pathway as a potential druggable target for reversing age-related changes in cognition.

摘要

衰老与海马体中神经发生减少以及依赖海马体的认知功能减退有关。骨形态发生蛋白4(BMP4)的表达在小鼠齿状回中随年龄增长增加超过10倍,而BMP抑制剂头蛋白(noggin)的水平则下降。这导致经典BMP信号传导的效应分子磷酸化SMAD1/5/8大幅增加30倍。正如在小鼠中观察到的那样,在无已知认知异常的人类齿状回中也观察到BMP4表达大幅增加。通过头蛋白过表达或转基因操作抑制BMP信号传导,不仅能增加衰老小鼠的神经发生,而且值得注意的是,还能使认知缺陷恢复到与年轻小鼠相当的水平。将BMP信号传导抑制与环境富集相结合时,可观察到额外的益处。这些发现表明,BMP信号传导增强显著导致神经发生受损以及与衰老相关的认知衰退,并确定该途径是逆转与年龄相关的认知变化的潜在可药物靶向。

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