T6SS1 suppresses pro-inflammatory cytokine transcription to drive immune evasion and systemic infection in Vibrio parahaemolyticus
Shuqi Lu, Shuo Yuan, Pengxuan Liu, Xuerui Bai, Quan Zhang, Lanfang Kong, Xiangan Han, Wei Jiang

TL;DR
This study shows how T6SS1 in Vibrio parahaemolyticus suppresses inflammation to avoid the immune system and cause severe infection.
Contribution
Identifies T6SS1's role in immune evasion through NF-κB inhibition and effector secretion coordination.
Findings
ΔvipA1-hcp1 mutant caused 50% mouse mortality versus 91.7% for wild-type.
T6SS1 inhibits NF-κB activation by stabilizing IκBα and reducing p65 nuclear translocation.
Secretion of 149 T6SS1-dependent proteins linked to metabolism and flagellar assembly.
Abstract
The type VI secretion system (T6SS) is a major virulence factor in Vibrio parahaemolyticus, but its pathogenic mechanisms are poorly understood or still not fully understood. This study investigates how two critical T6SS1 structural components, VipA1 and Hcp1, contribute to bacterial virulence and host inflammatory responses. Comparative proteomics revealed 149 secreted proteins dependent on T6SS1, including 28 core proteins requiring both VipA1 and Hcp1 for secretion. These proteins were functionally linked to metabolic pathways such as folate-mediated one-carbon metabolism and lysine degradation, as well as structural processes like flagellar assembly. Phenotypic analysis revealed that the ΔvipA1-hcp1 double mutant showed markedly attenuated virulence: 52.7% reduction in antibacterial activity compared to the wild-type strain. Biofilm formation increased 2.1-fold at 30°C and 2.8-fold…
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Taxonomy
TopicsVibrio bacteria research studies · Yersinia bacterium, plague, ectoparasites research · Escherichia coli research studies
