Acyloxyacyl Hydrolase Promotes Pulmonary Defense by Preventing Alveolar Macrophage Tolerance

Overview

Journal PLoS Pathog

Specialty Microbiology

Date 2023 Jul 27

PMID 37498977

Authors

Xiaofang Cheng

Wei Jiang

Yeying Chen

Benkun Zou

Zhiyan Wang

Lu Gan

Zeling Xiao

Changshun Li

Cheng-Yun Yu

Yimeng Lu

Zeyao Han

Jiashun Zeng

Jie Gu

Tianqing Chu

Mingsheng Fu

Yiwei Chu

Wenhong Zhang

Jianguo Tang

Mingfang Lu

Affiliations

Soon will be listed here.

Abstract

Although alveolar macrophages (AMs) play important roles in preventing and eliminating pulmonary infections, little is known about their regulation in healthy animals. Since exposure to LPS often renders cells hyporesponsive to subsequent LPS exposures ("tolerant"), we tested the hypothesis that LPS produced in the intestine reaches the lungs and stimulates AMs, rendering them tolerant. We found that resting AMs were more likely to be tolerant in mice lacking acyloxyacyl hydrolase (AOAH), the host lipase that degrades and inactivates LPS; isolated Aoah-/- AMs were less responsive to LPS stimulation and less phagocytic than were Aoah+/+ AMs. Upon innate stimulation in the airways, Aoah-/- mice had reduced epithelium- and macrophage-derived chemokine/cytokine production. Aoah-/- mice also developed greater and more prolonged loss of body weight and higher bacterial burdens after pulmonary challenge with Pseudomonas aeruginosa than did wildtype mice. We also found that bloodborne or intrarectally-administered LPS desensitized ("tolerized") AMs while antimicrobial drug treatment that reduced intestinal commensal Gram-negative bacterial abundance largely restored the innate responsiveness of Aoah-/- AMs. Confirming the role of LPS stimulation, the absence of TLR4 prevented Aoah-/- AM tolerance. We conclude that commensal LPSs may stimulate and desensitize (tolerize) alveolar macrophages in a TLR4-dependent manner and compromise pulmonary immunity. By inactivating LPS in the intestine, AOAH promotes antibacterial host defenses in the lung.

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