Microglial TLR4 Mediates White Matter Injury in a Combined Model of Diesel Exhaust Exposure and Cerebral Hypoperfusion-Reference-Cited by-同舟云学术

Microglial TLR4 Mediates White Matter Injury in a Combined Model of Diesel Exhaust Exposure and Cerebral Hypoperfusion

Published:2024-04 Issue:4 Volume:55 Page:1090-1093
ISSN:0039-2499
Container-title:Stroke
language:en
Short-container-title:Stroke

Author:

Shkirkova Kristina¹^ORCID,Demetriou Alexandra N.¹^ORCID,Sizdahkhani Saman¹,Lamorie-Foote Krista¹,Zhang Hongqiao²,Morales Manuel¹^ORCID,Chen Selena¹,Zhao Lifu¹,Diaz Arnold²^ORCID,Godoy-Lugo Jose A.²^ORCID,Zhou Beryl²,Zhang Nathan²^ORCID,Li Andrew²^ORCID,Mack Wendy J.¹³^ORCID,Sioutas Constantinos⁴^ORCID,Thorwald Max A.²^ORCID,Finch Caleb E.²,Pike Christian²^ORCID,Mack William J.^ORCID

Affiliation:

1. Zilkha Neurogenetic Institute (K.S., A.N.D., S.S., K.L.-F., M.M., S.C., L.Z., W.J.M.), University of Southern California, Los Angeles.

2. Leonard Davis School of Gerontology (H.Z., A.D., J.A.G.-L., B.Z., N.Z., A.L., M.A.T., C.E.F., C.P.), University of Southern California, Los Angeles.

3. Department of Population and Public Health Sciences, Keck School of Medicine (W.J.M.), University of Southern California, Los Angeles.

4. Viterbi School of Engineering (C.S.), University of Southern California, Los Angeles.

Abstract

BACKGROUND: Air pollution particulate matter exposure and chronic cerebral hypoperfusion (CCH) contribute to white matter toxicity through shared mechanisms of neuroinflammation, oxidative stress, and myelin breakdown. Prior studies showed that exposure of mice to joint particulate matter and CCH caused supra-additive injury to corpus callosum white matter. This study examines the role of TLR4 (toll-like receptor 4) signaling in mediating neurotoxicity and myelin damage observed in joint particulate matter and CCH exposures. METHODS: Experiments utilized a novel murine model of inducible monocyte/microglia-specific TLR4 knockout (i-mTLR4-ko). Bilateral carotid artery stenosis (BCAS) was induced surgically to model CCH. TLR4-intact (control) and i-mTLR4-ko mice were exposed to 8 weeks of either aerosolized diesel exhaust particulate (DEP) or filtered air (FA) in 8 experimental groups: (1) control/FA (n=10), (2) control/DEP (n=10), (3) control/FA+BCAS (n=9), (4) control/DEP+BCAS (n=10), (5) i-mTLR4-ko/FA (n=9), (6) i-mTLR4-ko/DEP (n=8), (7) i-mTLR4-ko/FA+BCAS (n=8), and (8) i-mTLR4-ko/DEP+BCAS (n=10). Corpus callosum levels of 4-hydroxynonenal, 8-Oxo-2’-deoxyguanosine, Iba-1 (ionized calcium-binding adapter molecule 1), and dMBP (degraded myelin basic protein) were assayed via immunofluorescence to measure oxidative stress, neuroinflammation, and myelin breakdown, respectively. RESULTS: Compared with control/FA mice, control/DEP+BCAS mice exhibited increased dMBP (41%; P <0.01), Iba-1 (51%; P <0.0001), 4-hydroxynonenal (100%; P <0.0001), and 8-Oxo-2’-deoxyguanosine (65%; P <0.05). I-mTLR4 knockout attenuated responses to DEP/BCAS for all markers. CONCLUSIONS: i-mTLR4-ko markedly reduced neuroinflammation and oxidative stress and attenuated white matter degradation following DEP and CCH exposures. This suggests a potential role for targeting TLR4 signaling in individuals with vascular cognitive impairment, particularly those exposed to substantial ambient air pollution.

Publisher

Ovid Technologies (Wolters Kluwer Health)

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