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MHC class I and II peptide homology regulates the cellular immune response.

FASEB journal : official publication of the Federation of American Societies for Experimental Biology (2020-04-17)
Matthew M Halpert, Vanaja Konduri, Dan Liang, Jonathan Vazquez-Perez, Colby J Hofferek, Scott A Weldon, Yunyu Baig, Indira Vedula, Jonathan M Levitt, William K Decker
RESUMEN

Mammalian immune responses are initiated by "danger" signals--immutable molecular structures known as PAMPs. When detected by fixed, germline encoded receptors, pathogen-associated molecular pattern (PAMPs) subsequently inform the polarization of downstream adaptive responses depending upon identity and localization of the PAMP. Here, we report the existence of a completely novel "PAMP" that is not a molecular structure but an antigenic pattern. This pattern--the incidence of peptide epitopes with stretches of 100% sequence identity bound to both dendritic cell (DC) major histocompatibility (MHC) class I and MHC class II--strongly induces TH 1 immune polarization and activation of the cellular immune response. Inherent in the existence of this PAMP is the concomitant existence of a molecular sensor complex with the ability to scan and compare amino acid sequence identities of bound class I and II peptides. We provide substantial evidence implicating the multienzyme aminoacyl-tRNA synthetase (mARS) complex and its AIMp1 structural component as the key constituents of this complex. The results demonstrate a wholly novel mechanism by which T-helper (TH ) polarization is governed and provide critical information for the design of vaccination strategies intended to provoke cell-mediated immunity.

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Millipore
Protein G Plus-Agarose Suspension, Protein G PLUS agarose suspension specifically formulated for immunoprecipitation.