Abstract
Inflammation plays an important pathogenic role in a number of metabolic diseases such as obesity, type 2 diabetes, and atherosclerosis. The activation of inflammation in these diseases depends at least in part on the combined actions of TLR4 signaling and endoplasmic reticulum stress, which by acting in concert can boost the inflammatory response. Defining the mechanisms involved in this phenomenon may unveil potential targets for the treatment of metabolic/inflammatory diseases. Here we used LPS to induce endoplasmic reticulum stress in the human monocyte cell-line, THP-1. The unfolded protein response, produced after LPS, was dependent on CD14 activity but not on RNA-dependent protein kinase and could be inhibited by an exogenous chemical chaperone. The induction of the endoplasmic reticulum resident chaperones, GRP94 and GRP78, by LPS was of a much lower magnitude than the effect of LPS on TLR4 and MD-2 expression. In face of this apparent insufficiency of chaperone expression, we induced the expression of GRP94 and GRP78 by glucose deprivation. This approach completely reverted endoplasmic reticulum stress. The inhibition of either GRP94 or GRP78 with siRNA was sufficient to rescue the protective effect of glucose deprivation on LPS-induced endoplasmic reticulum stress. Thus, insufficient LPS-induced chaperone expression links TLR4 signaling to endoplasmic reticulum stress.
Highlights
Activation of TLR4 leads to endoplasmic reticulum stress
To evaluate the capacity of LPS to induce an inflammatory response by the cells, we determined the expression of the membrane protein F4/80, which is typically expressed in activated macrophages
It is currently accepted that a LPS receptor complex is formed by the association of TLR4 with MD-2, and depends on two accessory proteins, CD14 and LPSbinding protein (LBP) [24]
Summary
Activation of TLR4 leads to endoplasmic reticulum stress. The mechanisms involved in this phenomenon are unknown. Results: In TLR4 signaling, insufficient GRP94 and GRP78 mediate the activation of endoplasmic reticulum stress. Conclusion: The insufficiency of chaperone expression links TLR4 signaling to endoplasmic reticulum stress. Significance: This study may improve our understanding about the inflammatory response in metabolic and infectious disease. InflammatioTnhpislaayrstiacnleihmapsobreteanntwpitahtdhroagwennibcyrothleeianuathnourms.bTehre sesntiroersasu(tEhRoSr )(L(.5A).hVa.)vteakbeesenfulilnrdeesppoennsdiebnilittlyyfiodretnhteified as imporof metabolic diwseitahsdersawsuacl.hSaosmoebiemsiatgye, stywpeere udniainbteetnetsi,oannaldlyauthse-d totarnept riensdeunctedrisffeorfednytsefuxpnecrtiimonenaltaml caocnrodiptihoangse. The activation of inflammation in these diseases depends at leasXtBinP-p1asritmomnuthneobcloomt fbroinmedFiagc.t3ioCnwsaosfuTsLeRd4insiFgign.a6l-C asdTAiLTseRFa6ss. Roeracrein, Jt.d, Zaotapphia,vCe. rCe.,vSebarleadgiath, La.t,.signals generated cneisrmt csainnvboolovsetdtBihonestcihnhiefslrapomh, eAmn. aoCtm.o, areynndroenVsepmlolaonyssoue,n.LDv. eAeif.li(pn2oi0nt1eg1nt)thIineaflmltaamercgmheaats-tionbwoyifttthhheeeahaccyhtpioovttahhtiaeolranamnoufdsT, lteLhaRudsss,otborotdohesefteitnchtdeivupecapttiahonnoclrooefgaiEtciRcalSincaflnaminmteagtroartye for the treatmeisnltetofumncettiaobno. The mechanisms involved in the integration duced after LPinSd, uwcaess denepdoenpldaesnmticornetCicDul1u4mascttrievsistyanbdutanniontcoomn pleotef TunLfRoldsiegdnpalriontgeiwn irtehspEoRnSsearine tvhierthuyaplloytuhanlkanmouws.n
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