Loss of Heat Shock Protein gp96 Does Not Impair Toll Like Receptor Signaling In Vitro

Abstract

Background: The heat shock protein gp96 is an endoplasmic reticulum chaperone for multiple protein substrates. We showed that a lack of gp96 in intestinal macrophages of Crohn's Disease (CD) patients is correlated with loss of tolerance against the host gut flora, leading to chronic inflammation. A recent manuscript suggested gp96 to be the major chaperone for TLRs in murine macrophages. Therefore, we studied the impact of gp96 knockdown on TLR function in the monocytic cell line Mono Mac 6 (MM6). Methods: For stable gp96 knockdown a lentiviral system was used. Stimulations were performed with lipopolysaccharide (LPS), a ligand of TLR 4. Internalization was shown using FITC-labeled LPS. TLR folding and functionality was investigated by Western blotting and flow cytometric analysis. IL-8 secretion upon stimulation with LPS was determined by ELISA. Results: Flow cytometric analysis of TLR 2 and 4 showed similar patterns on the cell surface of gp96knockdown cells as well as on control MM6 cells. Internalization of LPS by gp96-knockdown cells was shown using a FITC-labeled derivative. No reduction by gp96 knockdown was observed. Western blot analysis of phospho-IκB/IκB and phospho-NFκB/NFκB ratios did not reveal a significant difference in TLR mediated NFκB signaling between gp96 knockdown and control cells. Induction of IL-8 secretion upon stimulation with LPS was comparable between knockdown and control cells. Conclusions: In contrast to recent reports loss of gp96 does not have pivotal effects on functionality of TLRs in human MM6 cells. These findings indicate that the loss of tolerance against commensal gut flora is caused by different mechanisms yet to be identified.