Selective disruption of TLR2-MyD88 interaction inhibits inflammation and attenuates Alzheimer’s pathology

Induction of TLR2 activation depends on its association with the adapter protein MyD88. We have found that TLR2 and MyD88 levels are elevated in the hippocampus and cortex of patients with Alzheimer’s disease (AD) and in a 5XFAD mouse model of AD. Since there is no specific inhibitor of TLR2, to tar...

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Autores principales: Rangasamy, Suresh B., Jana, Malabendu, Roy, Avik, Corbett, Grant T., Kundu, Madhuchhanda, Chandra, Sujyoti, Mondal, Susanta, Dasarathi, Sridevi, Mufson, Elliott J., Mishra, Rama K., Luan, Chi-Hao, Bennett, David A., Pahan, Kalipada
Formato: Online Artículo Texto
Lenguaje:English
Publicado: American Society for Clinical Investigation 2018
Materias:
Research Article
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC6159992/
https://www.ncbi.nlm.nih.gov/pubmed/29990310
http://dx.doi.org/10.1172/JCI96209
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author Rangasamy, Suresh B.
Jana, Malabendu
Roy, Avik
Corbett, Grant T.
Kundu, Madhuchhanda
Chandra, Sujyoti
Mondal, Susanta
Dasarathi, Sridevi
Mufson, Elliott J.
Mishra, Rama K.
Luan, Chi-Hao
Bennett, David A.
Pahan, Kalipada
author_facet Rangasamy, Suresh B.
Jana, Malabendu
Roy, Avik
Corbett, Grant T.
Kundu, Madhuchhanda
Chandra, Sujyoti
Mondal, Susanta
Dasarathi, Sridevi
Mufson, Elliott J.
Mishra, Rama K.
Luan, Chi-Hao
Bennett, David A.
Pahan, Kalipada
author_sort Rangasamy, Suresh B.
collection PubMed
description Induction of TLR2 activation depends on its association with the adapter protein MyD88. We have found that TLR2 and MyD88 levels are elevated in the hippocampus and cortex of patients with Alzheimer’s disease (AD) and in a 5XFAD mouse model of AD. Since there is no specific inhibitor of TLR2, to target induced TLR2 from a therapeutic angle, we engineered a peptide corresponding to the TLR2-interacting domain of MyD88 (TIDM) that binds to the BB loop of only TLR2, and not other TLRs. Interestingly, WT TIDM peptide inhibited microglial activation induced by fibrillar Aβ1-42 and lipoteichoic acid, but not 1-methyl-4-phenylpyridinium, dsRNA, bacterial lipopolysaccharide, flagellin, or CpG DNA. After intranasal administration, WT TIDM peptide reached the hippocampus, reduced hippocampal glial activation, lowered Aβ burden, attenuated neuronal apoptosis, and improved memory and learning in 5XFAD mice. However, WT TIDM peptide was not effective in 5XFAD mice lacking TLR2. In addition to its effects in 5XFAD mice, WT TIDM peptide also suppressed the disease process in mice with experimental allergic encephalomyelitis and collagen-induced arthritis. Therefore, selective targeting of the activated status of 1 component of the innate immune system by WT TIDM peptide may be beneficial in AD as well as other disorders in which TLR2/MyD88 signaling plays a role in disease pathogenesis.
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spelling pubmed-61599922018-10-05 Selective disruption of TLR2-MyD88 interaction inhibits inflammation and attenuates Alzheimer’s pathology Rangasamy, Suresh B. Jana, Malabendu Roy, Avik Corbett, Grant T. Kundu, Madhuchhanda Chandra, Sujyoti Mondal, Susanta Dasarathi, Sridevi Mufson, Elliott J. Mishra, Rama K. Luan, Chi-Hao Bennett, David A. Pahan, Kalipada J Clin Invest Research Article Induction of TLR2 activation depends on its association with the adapter protein MyD88. We have found that TLR2 and MyD88 levels are elevated in the hippocampus and cortex of patients with Alzheimer’s disease (AD) and in a 5XFAD mouse model of AD. Since there is no specific inhibitor of TLR2, to target induced TLR2 from a therapeutic angle, we engineered a peptide corresponding to the TLR2-interacting domain of MyD88 (TIDM) that binds to the BB loop of only TLR2, and not other TLRs. Interestingly, WT TIDM peptide inhibited microglial activation induced by fibrillar Aβ1-42 and lipoteichoic acid, but not 1-methyl-4-phenylpyridinium, dsRNA, bacterial lipopolysaccharide, flagellin, or CpG DNA. After intranasal administration, WT TIDM peptide reached the hippocampus, reduced hippocampal glial activation, lowered Aβ burden, attenuated neuronal apoptosis, and improved memory and learning in 5XFAD mice. However, WT TIDM peptide was not effective in 5XFAD mice lacking TLR2. In addition to its effects in 5XFAD mice, WT TIDM peptide also suppressed the disease process in mice with experimental allergic encephalomyelitis and collagen-induced arthritis. Therefore, selective targeting of the activated status of 1 component of the innate immune system by WT TIDM peptide may be beneficial in AD as well as other disorders in which TLR2/MyD88 signaling plays a role in disease pathogenesis. American Society for Clinical Investigation 2018-07-10 2018-10-01 /pmc/articles/PMC6159992/ /pubmed/29990310 http://dx.doi.org/10.1172/JCI96209 Text en Copyright © 2018 Rangasamy et al. http://creativecommons.org/licenses/by/4.0/ This work is licensed under the Creative Commons Attribution 4.0 International License.
spellingShingle Research Article
Rangasamy, Suresh B.
Jana, Malabendu
Roy, Avik
Corbett, Grant T.
Kundu, Madhuchhanda
Chandra, Sujyoti
Mondal, Susanta
Dasarathi, Sridevi
Mufson, Elliott J.
Mishra, Rama K.
Luan, Chi-Hao
Bennett, David A.
Pahan, Kalipada
Selective disruption of TLR2-MyD88 interaction inhibits inflammation and attenuates Alzheimer’s pathology
title Selective disruption of TLR2-MyD88 interaction inhibits inflammation and attenuates Alzheimer’s pathology
title_full Selective disruption of TLR2-MyD88 interaction inhibits inflammation and attenuates Alzheimer’s pathology
title_fullStr Selective disruption of TLR2-MyD88 interaction inhibits inflammation and attenuates Alzheimer’s pathology
title_full_unstemmed Selective disruption of TLR2-MyD88 interaction inhibits inflammation and attenuates Alzheimer’s pathology
title_short Selective disruption of TLR2-MyD88 interaction inhibits inflammation and attenuates Alzheimer’s pathology
title_sort selective disruption of tlr2-myd88 interaction inhibits inflammation and attenuates alzheimer’s pathology
topic Research Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC6159992/
https://www.ncbi.nlm.nih.gov/pubmed/29990310
http://dx.doi.org/10.1172/JCI96209
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