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Pericyte derived chemokines amplify neutrophil recruitment across the cerebrovascular endothelial barrier

Pericyte derived chemokines amplify neutrophil recruitment across the cerebrovascular endothelial barrier
Pericyte derived chemokines amplify neutrophil recruitment across the cerebrovascular endothelial barrier

Excessive neutrophil extravasation can drive immunopathology, exemplified in pyogenic meningitis caused by Streptococcus pneumoniae infection. Insufficient knowledge of the mechanisms that amplify neutrophil extravasation has limited innovation in therapeutic targeting of neutrophil mediated pathology. Attention has focussed on neutrophil interactions with endothelia, but data from mouse models also point to a role for the underlying pericyte layer, as well as perivascular macrophages, the only other cell type found within the perivascular space in the cerebral microvasculature. We tested the hypothesis that human brain vascular pericytes (HBVP) contribute to neutrophil extravasation in a transwell model of the cerebral post-capillary venule. We show that pericytes augment endothelial barrier formation. In response to inflammatory cues, they significantly enhance neutrophil transmigration across the endothelial barrier, without increasing the permeability to small molecules. In our model, neither pericytes nor endothelia responded directly to bacterial stimulation. Instead, we show that paracrine signalling by multiple cytokines from monocyte derived macrophages drives transcriptional upregulation of multiple neutrophil chemokines by pericytes. Pericyte mediated amplification of neutrophil transmigration was independent of transcriptional responses by endothelia, but could be mediated by direct chemokine translocation across the endothelial barrier. Our data support a model in which microbial sensing by perivascular macrophages generates an inflammatory cascade where pericytes serve to amplify production of neutrophil chemokines that are translocated across the endothelial barrier to act directly on circulating neutrophils. In view of the striking redundancy in inflammatory cytokines that stimulate pericytes and in the neutrophil chemokines they produce, we propose that the mechanism of chemokine translocation may offer the most effective therapeutic target to reduce neutrophil mediated pathology in pyogenic meningitis.

Animals, Chemokines/metabolism, Cytokines/metabolism, Humans, Meningitis, Mice, Neutrophil Infiltration, Pericytes
1664-3224
Gil, Eliza
73b60383-cc53-444c-a1af-54506fd1cce4
Venturini, Cristina
c458ffc9-0c1f-4128-aa84-34be9b4b9f20
Stirling, David
db96211a-7560-4857-a747-407ae5be25ea
Turner, Carolin
6de35528-8aee-4aac-8be2-490c75f5a0ae
Tezera, Liku B.
c5598dbf-23a8-4934-96a4-7c783bf9e776
Ercoli, Giuseppe
1c2e81bb-aeb8-4df8-bfef-6012847d51e5
Baker, Tina
2e82a061-0718-4924-a031-7a36e4893721
Best, Katharine
e275ec35-e977-4a0f-be30-b342b2a46d39
Brown, Jeremy S.
aea580ba-cd80-47e6-8e3e-c65fa0cbfc48
Noursadeghi, Mahdad
c86534b2-c59d-4f43-8af4-48ecba03b5ee
Gil, Eliza
73b60383-cc53-444c-a1af-54506fd1cce4
Venturini, Cristina
c458ffc9-0c1f-4128-aa84-34be9b4b9f20
Stirling, David
db96211a-7560-4857-a747-407ae5be25ea
Turner, Carolin
6de35528-8aee-4aac-8be2-490c75f5a0ae
Tezera, Liku B.
c5598dbf-23a8-4934-96a4-7c783bf9e776
Ercoli, Giuseppe
1c2e81bb-aeb8-4df8-bfef-6012847d51e5
Baker, Tina
2e82a061-0718-4924-a031-7a36e4893721
Best, Katharine
e275ec35-e977-4a0f-be30-b342b2a46d39
Brown, Jeremy S.
aea580ba-cd80-47e6-8e3e-c65fa0cbfc48
Noursadeghi, Mahdad
c86534b2-c59d-4f43-8af4-48ecba03b5ee

Gil, Eliza, Venturini, Cristina, Stirling, David, Turner, Carolin, Tezera, Liku B., Ercoli, Giuseppe, Baker, Tina, Best, Katharine, Brown, Jeremy S. and Noursadeghi, Mahdad (2022) Pericyte derived chemokines amplify neutrophil recruitment across the cerebrovascular endothelial barrier. Frontiers in Immunology, 13, [935798]. (doi:10.3389/fimmu.2022.935798).

Record type: Article

Abstract

Excessive neutrophil extravasation can drive immunopathology, exemplified in pyogenic meningitis caused by Streptococcus pneumoniae infection. Insufficient knowledge of the mechanisms that amplify neutrophil extravasation has limited innovation in therapeutic targeting of neutrophil mediated pathology. Attention has focussed on neutrophil interactions with endothelia, but data from mouse models also point to a role for the underlying pericyte layer, as well as perivascular macrophages, the only other cell type found within the perivascular space in the cerebral microvasculature. We tested the hypothesis that human brain vascular pericytes (HBVP) contribute to neutrophil extravasation in a transwell model of the cerebral post-capillary venule. We show that pericytes augment endothelial barrier formation. In response to inflammatory cues, they significantly enhance neutrophil transmigration across the endothelial barrier, without increasing the permeability to small molecules. In our model, neither pericytes nor endothelia responded directly to bacterial stimulation. Instead, we show that paracrine signalling by multiple cytokines from monocyte derived macrophages drives transcriptional upregulation of multiple neutrophil chemokines by pericytes. Pericyte mediated amplification of neutrophil transmigration was independent of transcriptional responses by endothelia, but could be mediated by direct chemokine translocation across the endothelial barrier. Our data support a model in which microbial sensing by perivascular macrophages generates an inflammatory cascade where pericytes serve to amplify production of neutrophil chemokines that are translocated across the endothelial barrier to act directly on circulating neutrophils. In view of the striking redundancy in inflammatory cytokines that stimulate pericytes and in the neutrophil chemokines they produce, we propose that the mechanism of chemokine translocation may offer the most effective therapeutic target to reduce neutrophil mediated pathology in pyogenic meningitis.

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fimmu-13-935798 (1) - Version of Record
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Accepted/In Press date: 7 July 2022
Published date: 28 July 2022
Keywords: Animals, Chemokines/metabolism, Cytokines/metabolism, Humans, Meningitis, Mice, Neutrophil Infiltration, Pericytes

Identifiers

Local EPrints ID: 498897
URI: http://eprints.soton.ac.uk/id/eprint/498897
DOI: doi:10.3389/fimmu.2022.935798
ISSN: 1664-3224
PURE UUID: b922aa89-c9ab-4a53-b4a6-4be84e112541
ORCID for Liku B. Tezera: ORCID iD orcid.org/0000-0002-7898-6709

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Date deposited: 04 Mar 2025 17:52
Last modified: 05 Mar 2025 02:47

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Contributors

Author: Eliza Gil
Author: Cristina Venturini
Author: David Stirling
Author: Carolin Turner
Author: Liku B. Tezera ORCID iD
Author: Giuseppe Ercoli
Author: Tina Baker
Author: Katharine Best
Author: Jeremy S. Brown
Author: Mahdad Noursadeghi

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