P. gingivalis lipopolysaccharide‐induced exacerbation of oxidized LDL‐mediated macrophage foam cell formation is reliant on TRPV4 channels

Abstract

Although P. gingivalis, a predominant causative agent of periodontitis, has been linked to lipidladen macrophage foam cell formation, a critical process in atherogenesis, the mechanism remains elusive. Emerging data support a role for both a biochemical factor, e.g., lipopolysaccharides (LPS), and a mechanical factor, e.g., matrix stiffness, in regulation of macrophage function, vascular elasticity, and atherogenesis. We have obtained evidence that TRPV4, an ion channel in the transient receptor potential vanilloid family, and a known mechanosensor, is the likely mediator of P. gingivalis lipopolysaccharide (PgLPS)‐induced exacerbation of oxidized low‐density lipoprotein (oxLDL)‐mediated macrophage foam cell formation. Specifically, we found that: i) genetic deletion of TRPV4 or antagonism of its function by a chemical inhibitor blocked PgLPS‐induced exacerbation of oxLDL‐induced macrophage foam cell formation; ii) macrophage TRPV4 activity was increased in response to both PgLPS and pathophysiological range matrix stiffness, and iii) TRPV4 deficiency blocked PgLPS‐induced exacerbation of matrix stiffness‐induced macrophage foam cell formation. Mechanistically, we show that TRPV4 regulates PgLPS‐induced oxLDL uptake but not its cell surface binding in macrophages. Altogether, these findings identify a critical role for TRPV4 in regulating PgLPS‐induced exacerbation of macrophage foam cell formation by modulating uptake of oxLDL.Support or Funding InformationAHA (13SDG17310007), Startup grant from University of Maryland, NIH (1R01EB024556‐01), and NSF (CMMI‐1662776) grants to SOR.This abstract is from the Experimental Biology 2018 Meeting. There is no full text article associated with this abstract published in The FASEB Journal.