Hyperglycemia induces NF‐κB activation and MCP‐1 expression via downregulating GLP‐1R expression in rat mesangial cells: inhibition by metformin

Hyperglycemia impairs glucagon‐like peptide‐1 receptor (GLP‐1R) signaling in multiple cell types and thereby potentially attenuates the therapeutic effects of GLP‐1R agonists. We hypothesized that the downregulation of GLP‐1R by hyperglycemia might reduce the renal‐protective effects of GLP‐1R agonists in diabetic nephropathy (DN). In this study, we examined the effects of high glucose on the expression of GLP‐1R and its signaling pathways in the HBZY‐1 rat mesangial cell line. We found that high glucose reduced GLP‐1R messenger RNA (mRNA) levels in HBZY‐1 cells and in the renal cortex in db/db mice comparing with control groups. In consistence, GLP‐1R agonist exendin‐4 induced CREB phosphorylation was attenuated by high glucose but not low glucose treatment, which is paralleled with abrogated anti‐inflammatory functions in HBZY‐1 cells linked with nuclear factor‐κB (NF‐κB) activation. In consistence, GLP‐1R inhibition aggravated the high glucose‐induced activation of NF‐κB and MCP‐1 protein levels in cultured HBZY‐1 cells while overexpression of GLP‐1R opposite effects. We further proved that metformin restored high glucose‐inhibited GLP‐1R mRNA expression and decreased high glucose evoked inflammation in HBZY‐1 cells. On the basis of these findings, we conclude that high glucose lowers GLP‐1R expression and leads to inflammatory responses in mesangial cells, which can be reversed by metformin. These data support the rationale of combinative therapy of metformin with GLP‐1R agonists in DN.