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Intermittent Hypoxia Up-Regulates CCL2, RETN, and TNF? mRNAs in Adipocytes via Down-regulation of miR-452.


ABSTRACT: Sleep apnea syndrome (SAS), characterized by recurrent episodes of oxygen desaturation and reoxygenation (intermittent hypoxia [IH]), is a risk factor for insulin resistance. Recently, IH is considered to independently cause adipose tissue inflammation/dysfunction, leading to worsening insulin resistance; however, the detailed mechanism remains unknown. We exposed mouse 3T3-L1 and human SW872 adipocytes to experimental IH or normoxia for 24 h, and analyzed mRNA expression of several adipokines. We found that the mRNA levels of RETN, TNF?, and CCL2 in SW872 and 3T3-L1 adipocytes were significantly increased by IH, whereas the promoter activities of these genes were not increased. A target mRNA search of microRNA (miR)s revealed that all human mRNAs have a potential target sequence for miR-452. The miR-452 level of IH-treated cells was significantly decreased compared to normoxia-treated cells. MiR-452 mimic and non-specific control RNA (miR-452 mimic NC) were introduced into SW872 cells, and the IH-induced up-regulation of the genes was abolished by introduction of the miR-452 mimic but not by the miR-452 mimic NC. These results indicate that IH stress down-regulates the miR-452 in adipocytes, resulting in increased levels of RETN, TNF?, and CCL2 mRNAs, leading to insulin resistance in SAS patients.

SUBMITTER: Uchiyama T 

PROVIDER: S-EPMC6515141 | biostudies-literature | 2019 Apr

REPOSITORIES: biostudies-literature

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Intermittent Hypoxia Up-Regulates <i>CCL2</i>, <i>RETN,</i> and <i>TNFα</i> mRNAs in Adipocytes via Down-regulation of miR-452.

Uchiyama Tomoko T   Itaya-Hironaka Asako A   Yamauchi Akiyo A   Makino Mai M   Sakuramoto-Tsuchida Sumiyo S   Shobatake Ryogo R   Ota Hiroyo H   Takeda Maiko M   Ohbayashi Chiho C   Takasawa Shin S  

International journal of molecular sciences 20190422 8


Sleep apnea syndrome (SAS), characterized by recurrent episodes of oxygen desaturation and reoxygenation (intermittent hypoxia [IH]), is a risk factor for insulin resistance. Recently, IH is considered to independently cause adipose tissue inflammation/dysfunction, leading to worsening insulin resistance; however, the detailed mechanism remains unknown. We exposed mouse 3T3-L1 and human SW872 adipocytes to experimental IH or normoxia for 24 h, and analyzed mRNA expression of several adipokines.  ...[more]

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