Abstract
Vibrio parahaemolyticus is a ubiquitous inhabitant of estuarine and marine environments that causes vibriosis in aquatic animals and food poisoning in humans. Accessory colonizing factor (ACF) is employed by Vibrio to assist in the colonization and invasion of host cells leading to subsequent illnesses. In this work, ΔacfA, an in-frame deletion mutant strain lacking the 4th to the 645th nucleotides of the open reading frame (ORF) of the acfA gene, and the complementary strain acfA(+) were constructed to decipher the function of AcfA in V. parahaemolyticus. The deletion of acfA had no effect on bacterial growth but resulted in a significant reduction in biofilm formation, hemolytic activity, mucus adhesion, and the accumulated mortality of zebrafish, compared to the wild-type strain and the complementary strain acfA(+). Additionally, AcfA was involved in adapting to stressors, such as H(2)O(2), EDTA, and acid, in V. parahaemolyticus. Furthermore, RNA-Seq transcriptome analysis was conducted to identify global gene transcription alterations resulting from deletion of the acfA gene. A total of 416 differentially expressed genes were identified in the ΔacfA vs. wild-type comparison, with 238 up-regulated genes and 178 down-regulated genes. The expression of genes associated with the type III secretion system, type VI secretion system, and oligopeptide permeases system were significantly reduced, and yet the expression of genes associated with cell envelope biosynthesis and response regulation system were enhanced dramatically in the absence of the acfA gene compared to the wild-type strain. These findings suggest that AcfA may play a role in the overall success of pathogenesis and the cell envelope stress response of V. parahaemolyticus.