Annexin A2 depletion exacerbates the intracerebral microhemorrhage induced by acute rickettsia and Ebola virus infections.

Annexin A2 depletion exacerbates the intracerebral microhemorrhage induced by acute rickettsia and Ebola virus infections.

Intracerebral microhemorrhages (CMHs) are small foci of hemorrhages in the cerebrum. Acute infections induced by some intracellular pathogens, including rickettsia, can result in CMHs. Annexin a2 (ANXA2) has been documented to play a functional role during intracellular bacterial adhesion. Here we r...

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Main Authors: Zhengchen Su, Qing Chang, Aleksandra Drelich, Thomas Shelite, Barbara Judy, Yakun Liu, Jie Xiao, Changchen Zhou, Xi He, Yang Jin, Tais Saito, Shaojun Tang, Lynn Soong, Maki Wakamiya, Xiang Fang, Alexander Bukreyev, Thomas Ksiazek, William K Russell, Bin Gong
Format: Article
Language:English
Published: Public Library of Science (PLoS) 2020-07-01
Series:PLoS Neglected Tropical Diseases
Online Access:https://doi.org/10.1371/journal.pntd.0007960
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spelling doaj-bd8017e13fa841b6b76667524aef400b2021-05-15T04:30:57ZengPublic Library of Science (PLoS)PLoS Neglected Tropical Diseases1935-27271935-27352020-07-01147e000796010.1371/journal.pntd.0007960Annexin A2 depletion exacerbates the intracerebral microhemorrhage induced by acute rickettsia and Ebola virus infections.Zhengchen SuQing ChangAleksandra DrelichThomas SheliteBarbara JudyYakun LiuJie XiaoChangchen ZhouXi HeYang JinTais SaitoShaojun TangLynn SoongMaki WakamiyaXiang FangAlexander BukreyevThomas KsiazekWilliam K RussellBin GongIntracerebral microhemorrhages (CMHs) are small foci of hemorrhages in the cerebrum. Acute infections induced by some intracellular pathogens, including rickettsia, can result in CMHs. Annexin a2 (ANXA2) has been documented to play a functional role during intracellular bacterial adhesion. Here we report that ANXA2-knockout (KO) mice are more susceptible to CMHs in response to rickettsia and Ebola virus infections, suggesting an essential role of ANXA2 in protecting vascular integrity during these intracellular pathogen infections. Proteomic analysis via mass spectrometry of whole brain lysates and brain-derived endosomes from ANXA2-KO and wild-type (WT) mice post-infection with R. australis revealed that a variety of significant proteins were differentially expressed, and the follow-up function enrichment analysis had identified several relevant cell-cell junction functions. Immunohistology study confirmed that both infected WT and infected ANXA2-KO mice were subjected to adherens junctional protein (VE-cadherin) damages. However, key blood-brain barrier (BBB) components, tight junctional proteins ZO-1 and occludin, were disorganized in the brains from R. australis-infected ANXA2-KO mice, but not those of infected WT mice. Similar ANXA2-KO dependent CMHs and fragments of ZO-1 and occludin were also observed in Ebola virus-infected ANXA2-KO mice, but not found in infected WT mice. Overall, our study revealed a novel role of ANXA2 in the formation of CMHs during R. australis and Ebola virus infections; and the underlying mechanism is relevant to the role of ANXA2-regulated tight junctions and its role in stabilizing the BBB in these deadly infections.https://doi.org/10.1371/journal.pntd.0007960
collection DOAJ
language English
format Article
sources DOAJ
author Zhengchen Su
Qing Chang
Aleksandra Drelich
Thomas Shelite
Barbara Judy
Yakun Liu
Jie Xiao
Changchen Zhou
Xi He
Yang Jin
Tais Saito
Shaojun Tang
Lynn Soong
Maki Wakamiya
Xiang Fang
Alexander Bukreyev
Thomas Ksiazek
William K Russell
Bin Gong
spellingShingle Zhengchen Su
Qing Chang
Aleksandra Drelich
Thomas Shelite
Barbara Judy
Yakun Liu
Jie Xiao
Changchen Zhou
Xi He
Yang Jin
Tais Saito
Shaojun Tang
Lynn Soong
Maki Wakamiya
Xiang Fang
Alexander Bukreyev
Thomas Ksiazek
William K Russell
Bin Gong
Annexin A2 depletion exacerbates the intracerebral microhemorrhage induced by acute rickettsia and Ebola virus infections.
PLoS Neglected Tropical Diseases
author_facet Zhengchen Su
Qing Chang
Aleksandra Drelich
Thomas Shelite
Barbara Judy
Yakun Liu
Jie Xiao
Changchen Zhou
Xi He
Yang Jin
Tais Saito
Shaojun Tang
Lynn Soong
Maki Wakamiya
Xiang Fang
Alexander Bukreyev
Thomas Ksiazek
William K Russell
Bin Gong
author_sort Zhengchen Su
title Annexin A2 depletion exacerbates the intracerebral microhemorrhage induced by acute rickettsia and Ebola virus infections.
title_short Annexin A2 depletion exacerbates the intracerebral microhemorrhage induced by acute rickettsia and Ebola virus infections.
title_full Annexin A2 depletion exacerbates the intracerebral microhemorrhage induced by acute rickettsia and Ebola virus infections.
title_fullStr Annexin A2 depletion exacerbates the intracerebral microhemorrhage induced by acute rickettsia and Ebola virus infections.
title_full_unstemmed Annexin A2 depletion exacerbates the intracerebral microhemorrhage induced by acute rickettsia and Ebola virus infections.
title_sort annexin a2 depletion exacerbates the intracerebral microhemorrhage induced by acute rickettsia and ebola virus infections.
publisher Public Library of Science (PLoS)
series PLoS Neglected Tropical Diseases
issn 1935-2727
1935-2735
publishDate 2020-07-01
description Intracerebral microhemorrhages (CMHs) are small foci of hemorrhages in the cerebrum. Acute infections induced by some intracellular pathogens, including rickettsia, can result in CMHs. Annexin a2 (ANXA2) has been documented to play a functional role during intracellular bacterial adhesion. Here we report that ANXA2-knockout (KO) mice are more susceptible to CMHs in response to rickettsia and Ebola virus infections, suggesting an essential role of ANXA2 in protecting vascular integrity during these intracellular pathogen infections. Proteomic analysis via mass spectrometry of whole brain lysates and brain-derived endosomes from ANXA2-KO and wild-type (WT) mice post-infection with R. australis revealed that a variety of significant proteins were differentially expressed, and the follow-up function enrichment analysis had identified several relevant cell-cell junction functions. Immunohistology study confirmed that both infected WT and infected ANXA2-KO mice were subjected to adherens junctional protein (VE-cadherin) damages. However, key blood-brain barrier (BBB) components, tight junctional proteins ZO-1 and occludin, were disorganized in the brains from R. australis-infected ANXA2-KO mice, but not those of infected WT mice. Similar ANXA2-KO dependent CMHs and fragments of ZO-1 and occludin were also observed in Ebola virus-infected ANXA2-KO mice, but not found in infected WT mice. Overall, our study revealed a novel role of ANXA2 in the formation of CMHs during R. australis and Ebola virus infections; and the underlying mechanism is relevant to the role of ANXA2-regulated tight junctions and its role in stabilizing the BBB in these deadly infections.
url https://doi.org/10.1371/journal.pntd.0007960
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