Palmitate and oleate induction of acylation stimulating protein resistance in 3T3‐L1 adipocytes and preadipocytes

Abstract

Acylation stimulating protein (ASP) stimulates triglyceride synthesis and glucose transport via its receptor C5L2. The aims were (i) to evaluate ASP response under insulin-resistant conditions and (ii) to identify mechanisms of ASP resistance using 3T3-L1 adipocytes and preadipocytes. Overnight incubation with palmitate (PAL) or oleate (OLE) induced dose-dependent inhibition of ASP-stimulated glucose transport in adipocytes (198 +/- 18% +ASP, 100 +/- 4% basal, 131 +/- 14% + ASP + 1 mmol/L PAL) and preadipocytes (287 +/- 21% + ASP, 100 +/- 4% basal, 109 +/- 13% + ASP + 1 mmol/L PAL). In adipocytes, dose-dependent maximal C5L2 mRNA decreases were -41 +/- 15% and -82 +/- 2%, with decreased cell-surface C5L2 of -55 +/- 12% and -39 +/- 9% (1 mmol/L PAL and OLE, respectively) with no change in preadipocytes. Adipocytes treated with PAL or OLE evidenced inhibition of ASP stimulation of G proteins: Gbeta (-50%), Galphaq/11 (-50%) and protein kinase C: PKCalpha-P (-52%), PKCzeta-P (-43%). Fatty acid-induced ASP resistance via C5L2 may contribute to altered adipose tissue function and obesity/insulin resistance phenotype in humans.