TIAM2S as a novel regulator for serotonin level enhances brain plasticity and locomotion behavior

Chun Hsien Chu, Jia Shing Chen, Pei Chin Chuang, Chia Hao Su, Ya Ling Chan, Ying Ju Yang, Yu Ting Chiang, Yu Ya Su, Po Wu Gean, H. Sunny Sun

研究成果: Article同行評審

10 引文 斯高帕斯(Scopus)

摘要

TIAM2S, the short form of human T-cell lymphoma invasion and metastasis 2, can have oncogenic effects when aberrantly expressed in the liver or lungs. However, it is also abundant in healthy, non-neoplastic brain tissue, in which its primary function is still unknown. Here, we examined the neurobiological and behavioral significance of human TIAM2S using the human brain protein panels, a human NT2/D1-derived neuronal cell line model (NT2/N), and transgenic mice that overexpress human TIAM2S (TIAM2S-TG). Our data reveal that TIAM2S exists primarily in neurons of the restricted brain areas around the limbic system and in well-differentiated NT2/N cells. Functional studies revealed that TIAM2S has no guanine nucleotide exchange factor (GEF) activity and is mainly located in the nucleus. Furthermore, whole-transcriptome and enrichment analysis with total RNA sequencing revealed that TIAM2S-knockdown (TIAM2S-KD) was strongly associated with the cellular processes of the brain structural development and differentiation, serotonin-related signaling, and the diseases markers representing neurobehavioral developmental disorders. Moreover, TIAM2S-KD cells display decreased neurite outgrowth and reduced serotonin levels. Moreover, TIAM2S overexpressing TG mice show increased number and length of serotonergic fibers at early postnatal stage, results in higher serotonin levels at both the serum and brain regions, and higher neuroplasticity and hyperlocomotion in latter adulthood. Taken together, our results illustrate the non-oncogenic functions of human TIAM2S and demonstrate that TIAM2S is a novel regulator of serotonin level, brain neuroplasticity, and locomotion behavior.

原文English
頁(從 - 到)3267-3288
頁數22
期刊FASEB Journal
34
發行號2
DOIs
出版狀態Published - 2020 2月 1

All Science Journal Classification (ASJC) codes

  • 生物技術
  • 生物化學
  • 分子生物學
  • 遺傳學

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