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Title: BTBD9 attenuates manganese-induced oxidative stress and neurotoxicity by regulating insulin growth factor signaling pathway.

Authors: Chen, Pan; Cheng, Hong; Zheng, Fuli; Li, Shaojun; Bornhorst, Julia; Yang, Bobo; Lee, Kun He; Ke, Tao; Li, Yunhui; Schwerdtle, Tanja; Yang, Xiaobo; Bowman, Aaron B; Aschner, Michael

Published In Hum Mol Genet, (2022 Jul 07)

Abstract: Manganese (Mn) is an essential mineral, but excess exposure can cause dopaminergic neurotoxicity. Restless legs syndrome (RLS) is a common neurological disorder, but the etiology and pathology remain largely unknown. The purpose of this study was to identify the role of Mn in the regulation of an RLS genetic risk factor BTBD9, characterize the function of BTBD9 in Mn-induced oxidative stress and dopaminergic neuronal dysfunction. We found that human subjects with high blood Mn levels were associated with decreased BTBD9 mRNA levels, when compared with subjects with low blood Mn levels. In A549 cells, Mn exposure decreased BTBD9 protein levels. In Caenorhabditis elegans, loss of hpo-9 (BTBD9 homolog) resulted in more susceptibility to Mn-induced oxidative stress and mitochondrial dysfunction, as well as decreased dopamine levels and alternations of dopaminergic neuronal morphology and behavior. Overexpression of hpo-9 in mutant animals restored these defects and the protection was eliminated by mutation of the forkhead box O (FOXO). In addition, expression of hpo-9 upregulated FOXO protein levels and decreased protein kinase B levels. These results suggest that elevated Mn exposure might be an environmental risk factor for RLS. Furthermore, BTBD9 functions to alleviate Mn-induced oxidative stress and neurotoxicity via regulation of insulin/insulin-like growth factor signaling pathway.

PubMed ID: 35134179 Exiting the NIEHS site

MeSH Terms: Animals; Caenorhabditis elegans/genetics; Caenorhabditis elegans/metabolism; Dopamine/metabolism; Humans; Insulin/genetics; Insulin/metabolism; Intercellular Signaling Peptides and Proteins/metabolism; Manganese/toxicity; Nerve Tissue Proteins/metabolism*; Neurotoxicity Syndromes*/genetics; Oxidative Stress/genetics; Restless Legs Syndrome*/genetics; Restless Legs Syndrome*/metabolism; Signal Transduction

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