Authors
Fazhi Xu, Yao Feng, Mengsi Li, Na Li, Guangyu Yang, Jing Qu, Zheliang Yang, Yang Li, Shaohui Wang, Yanqing Bao, Jingjing Qi, Mingxing Tian
Published in
Veterinary research. Volume 57. Issue 1. Jul 03, 2026. Epub Jul 03, 2026.
Abstract
Brucella melitensis, a facultative intracellular pathogen, relies on membrane integrity and homeostasis to resist host defenses and establish infection. The plsC gene encodes 1-acyl-sn-glycerol-3-phosphate acyltransferase, a key enzyme in the glycerophospholipid pathway that catalyzes the synthesis of phosphatidic acid, an essential precursor for membrane lipid formation. However, its role in B. melitensis virulence remains poorly understood. Here, we constructed a plsC deletion mutant (ΔplsC) and a complemented strain (ΔplsC-Com) in B. melitensis strain M5 and characterized their phenotypes. Deletion of plsC impaired bacterial growth in nutrient-limited media, reduced tolerance to hydrogen peroxide and polymyxin B, and decreased lipid synthesis while increasing outer membrane permeability. Ultrastructural analysis revealed surface roughness, cytoplasmic voids, and nucleoid condensation in the mutant. Although ΔplsC retained normal adhesion and invasion capabilities in RAW264.7 macrophages and HeLa cells, its intracellular survival was specifically attenuated in macrophages at 48 h post-infection. In a mouse model, ΔplsC showed significantly reduced colonization of the spleen and liver and induced fewer and smaller liver granulomas as compared with the parental and complemented strains. These results demonstrate that PlsC is essential for maintaining membrane homeostasis and stress resistance in Brucella, which in turn supports its survival within professional phagocytes and full virulence in vivo. Our study suggests a critical link between phospholipid metabolism and Brucella pathogenicity.
PMID:
42400085
Bibliographic data and abstract were imported from PubMed on 04 Jul 2026.
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