来自一个多发性家庭的自闭症个体中，PI3K催化亚基p110δ的表达增加是S6磷酸化和蛋白质合成升高的基础。

Increased expression of the PI3K catalytic subunit p110δ underlies elevated S6 phosphorylation and protein synthesis in an individual with autism from a multiplex family.

作者信息

Poopal Ashwini C, Schroeder Lindsay M, Horn Paul S, Bassell Gary J, Gross Christina

机构信息

Department of Cell Biology, Emory University Medical School, 615 Michael Street, Atlanta, GA 30322 USA.

Division of Neurology, Cincinnati Children's Hospital Medical Center, 3333 Burnet Avenue, Cincinnati, OH 45229 USA.

出版信息

Mol Autism. 2016 Jan 14;7:3. doi: 10.1186/s13229-015-0066-4. eCollection 2016.

DOI:10.1186/s13229-015-0066-4

PMID:26770665

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC4712554/

Abstract

BACKGROUND

Dysfunctions in the PI3K/mTOR pathway have gained a lot of attention in autism research. This was initially based on the discovery of several monogenic autism spectrum disorders with mutations or defects in PI3K/mTOR signaling components. Recent genetic studies corroborate that defective PI3K/mTOR signaling might be a shared pathomechanism in autism disorders of so far unknown etiology, but functional molecular analyses in human cells are rare. The goals of this study were to perform a functional screen of cell lines from patients with idiopathic autism for defects in PI3K/mTOR signaling, to test if further functional analyses are suitable to detect underlying molecular mechanisms, and to evaluate this approach as a biomarker tool to identify therapeutic targets.

METHODS

We performed phospho-S6- and S6-specific ELISA experiments on 21 lymphoblastoid cell lines from the AGRE collection and on 37 lymphoblastoid cell lines from the Simons Simplex Collection and their healthy siblings. Cell lines from one individual with increased S6 phosphorylation and his multiplex family were analyzed in further detail to identify upstream defects in PI3K signaling associated with autism diagnosis.

RESULTS

We detected significantly increased S6 phosphorylation in 3 of the 21 lymphoblastoid cell lines from AGRE compared to a healthy control and in 1 of the 37 lymphoblastoid cell lines from the Simons Simplex Collection compared to the healthy sibling. Further analysis of cells from one individual with elevated S6 phosphorylation showed increased expression of the PI3K catalytic subunit p110δ, which was also observed in lymphoblastoid cells from other autistic siblings but not unaffected members in his multiplex family. The p110δ-selective inhibitor IC87114 reduced elevated S6 phosphorylation and protein synthesis in this cell line.

CONCLUSIONS

Our results suggest that functional analysis of PI3K/mTOR signaling is a biomarker tool to identify disease-associated molecular defects that could serve as therapeutic targets in autism. Using this approach, we discovered impaired signaling and protein synthesis through the PI3K catalytic subunit p110δ as an underlying molecular defect and potential treatment target in select autism spectrum disorders. Increased p110δ activity was recently associated with schizophrenia, and our results suggest that p110δ may also be implicated in autism.

摘要

背景

PI3K/mTOR通路功能障碍在自闭症研究中备受关注。这一关注最初源于发现了几种单基因自闭症谱系障碍，其PI3K/mTOR信号成分存在突变或缺陷。近期的遗传学研究证实，PI3K/mTOR信号缺陷可能是病因不明的自闭症谱系障碍的共同病理机制，但在人类细胞中进行的功能分子分析却很少见。本研究的目的是对特发性自闭症患者的细胞系进行PI3K/mTOR信号缺陷的功能筛选，测试进一步的功能分析是否适合检测潜在的分子机制，并评估这种方法作为识别治疗靶点的生物标志物工具的可行性。

方法

我们对来自AGRE库的21个淋巴母细胞系以及来自西蒙斯单纯型自闭症集的37个淋巴母细胞系及其健康同胞进行了磷酸化S6和S6特异性ELISA实验。对一名S6磷酸化增加的个体及其多重家庭的细胞系进行了更详细的分析，以确定与自闭症诊断相关的PI3K信号上游缺陷。

结果

与健康对照相比，我们在来自AGRE的21个淋巴母细胞系中的3个中检测到S6磷酸化显著增加；与健康同胞相比，在来自西蒙斯单纯型自闭症集的37个淋巴母细胞系中的1个中检测到S6磷酸化显著增加。对一名S6磷酸化升高个体的细胞进行进一步分析发现，PI3K催化亚基p110δ的表达增加，这在其他自闭症同胞的淋巴母细胞中也有观察到，但在其多重家庭的未受影响成员中未观察到。p110δ选择性抑制剂IC87114降低了该细胞系中升高的S6磷酸化和蛋白质合成。

结论

我们的结果表明，PI3K/mTOR信号的功能分析是一种生物标志物工具，可用于识别疾病相关的分子缺陷，这些缺陷可作为自闭症的治疗靶点。通过这种方法，我们发现PI3K催化亚基p110δ导致的信号传导和蛋白质合成受损是某些自闭症谱系障碍的潜在分子缺陷和治疗靶点。最近发现p110δ活性增加与精神分裂症有关，我们的结果表明p110δ也可能与自闭症有关。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/755b/4712554/4f618588da18/13229_2015_66_Fig1_HTML.jpg

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来自一个多发性家庭的自闭症个体中，PI3K催化亚基p110δ的表达增加是S6磷酸化和蛋白质合成升高的基础。

Increased expression of the PI3K catalytic subunit p110δ underlies elevated S6 phosphorylation and protein synthesis in an individual with autism from a multiplex family.

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