期刊论文详细信息
Molecular Autism
Germline nuclear-predominant Pten murine model exhibits impaired social and perseverative behavior, microglial activation, and increased oxytocinergic activity
Charis Eng1  Nick Sarn1  Hyunpil Lee1  Stetson Thacker1 
[1] Genomic Medicine Institute, Lerner Research Institute, Cleveland Clinic;
关键词: PTEN mutation;    Autism spectrum disorder;    Mouse model;    Social impairment;    Microglia;    Complement;   
DOI  :  10.1186/s13229-021-00448-4
来源: DOAJ
【 摘 要 】

Abstract Background Autism spectrum disorder (ASD) has a strong genetic etiology. Germline mutation in the tumor suppressor gene PTEN is one of the best described monogenic risk cases for ASD. Animal modeling of cell-specific Pten loss or mutation has provided insight into how disruptions to the function of PTEN affect neurodevelopment, neurobiology, and social behavior. As such, there is a growing need to understand more about how various aspects of PTEN activity and cell-compartment-specific functions, contribute to certain neurological or behavior phenotypes. Methods To understand more about the relationship between Pten localization and downstream effects on neurophenotypes, we generated the nuclear-predominant Pten Y68H/+ mouse, which is identical to the genotype of some PTEN-ASD individuals. We subjected the Pten Y68H/+ mouse to morphological and behavioral phenotyping, including the three-chamber sociability, open field, rotarod, and marble burying tests. We subsequently performed in vivo and in vitro cellular phenotyping and concluded the work with a transcriptomic survey of the Pten Y68H/+ cortex, which profiled gene expression. Results We observe a significant increase in P-Akt downstream of canonical Pten signaling, macrocephaly, decreased sociability, decreased preference for novel social stimuli, increased repetitive behavior, and increased thigmotaxis in Pten Y68H/+ six-week-old (P40) mice. In addition, we found significant microglial activation with increased expression of complement and neuroinflammatory proteins in vivo and in vitro accompanied by enhanced phagocytosis. These observations were subsequently validated with RNA-seq and qRT-PCR, which revealed overexpression of many genes involved in neuroinflammation and neuronal function, including oxytocin. Oxytocin transcript was fivefold overexpressed (P = 0.0018), and oxytocin protein was strongly overexpressed in the Pten Y68H/+ hypothalamus. Conclusions The nuclear-predominant Pten Y68H/+ model has clarified that Pten dysfunction links to microglial pathology and this associates with increased Akt signaling. We also demonstrate that Pten dysfunction associates with changes in the oxytocin system, an important connection between a prominent ASD risk gene and a potent neuroendocrine regulator of social behavior. These cellular and molecular pathologies may related to the observed changes in social behavior. Ultimately, the findings from this work may reveal important biomarkers and/or novel therapeutic modalities that could be explored in individuals with germline mutations in PTEN with ASD.

【 授权许可】

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