Acute Effects of Intermittent Hypoxia on Leptin‐Mediated Increases in Adiponectin Expression

Background Obstructive sleep apnea (OSA) patients have elevated levels of plasma leptin and are exposed to repeated nocturnal intermittent hypoxia (IH). Leptin induces increased adiponectin expression, suggesting that adiponectin should be increased in OSA. However, levels of plasma adiponectin, an anti‐atherogenic and insulin‐sensitizing adipokine, are inconsistent in OSA, and adiponectin levels are often low. Both increases in leptin and decreases in adiponectin may contribute to increased cardiometabolic risk in OSA. In this study we sought to examine the interactions between IH, leptin, and adiponectin. Using an in‐vitro approach in differentiated human white preadipocytes (dHWP), we tested the hypothesis that adiponectin expression in response to acute IH‐mediated increases in leptin may be modulated in the presence of hypoxia. Methods dHWP were exposed to 24 cycles of IH (30 min 0.1% O2 followed by 30 min exposure to 21% O2), continuous hypoxia (0.1% O2) or continuous normoxia (21% O2, control). Secretion of leptin and adiponectin in the 24h conditioned media was determined by ELISA and intracellular changes in adiponectin were determined by Western blot analysis. Results We show that acute 24 hour exposure to IH or sustained hypoxia increased leptin secretion (p = 0.013) but did not alter adiponectin secretion (p = 0.48). In fact, the intracellular expression of adiponectin actually decreased during the acute exposure to both IH and to continuous hypoxia (p = 0.02). Also, while leptin increased intracellular adiponectin expression in normoxic conditions (p = 0.03), it was unable to do so in the presence of IH and hypoxia (p = 0.36). Conclusions Acute IH and continuous hypoxia mediate increases in leptin, but not in adiponectin secretion. Furthermore, although leptin increases adiponectin in normoxic conditions, IH and continuous hypoxia cause decreases in intra‐cellular adiponectin expression and also attenuate leptin‐mediated increases in adiponectin expression. These hypoxia‐effects on adiponectin expression may help explain the low adiponectin levels in OSA, which may contribute to increased cardiovascular and diabetes risk. Support or Funding Information Christiane Becari was supported by a grant from CNPq Brazil (# 203802/2014‐4); Michaela Pfeifer was supported by the APS STRIDE summer undergraduate research fellowship (NHLBI 1R25HL115473‐01); Prachi Singh was supported by AHA scientist development grant 11SDG7260046.