AI Article Synopsis
- Type IV pili (T4P) are important structures in bacteria that assist with processes like sticking to surfaces and forming biofilms.
- The study focuses on a unique Type IV pilus called tight adherence (Tad) in a specific bacterium (vAh) and explores its impact on the bacterium's ability to cause disease.
- Results show that while removing the Tad operon didn't affect the bacteria's growth, it significantly reduced their ability to infect catfish and diminished biofilm formation, underscoring the Tad operon's crucial role in pathogenicity.
Article Abstract
Type IV pili (T4P) are versatile proteinaceous protrusions that mediate diverse bacterial processes, including adhesion, motility, and biofilm formation. , a Gram-negative facultative anaerobe, causes disease in a wide range of hosts. Previously, we reported the presence of a unique Type IV class C pilus, known as tight adherence (Tad), in virulent (vAh). In the present study, we sought to functionalize the role of Tad pili in the pathogenicity of ML09-119. Through a comprehensive comparative genomics analysis of 170 genomes, the conserved presence of the Tad operon in vAh isolates was confirmed, suggesting its potential contribution to pathogenicity. Herein, the entire Tad operon was knocked out from ML09-119 to elucidate its specific role in virulence. The absence of the Tad operon did not affect growth kinetics but significantly reduced virulence in catfish fingerlings, highlighting the essential role of the Tad operon during infection. Biofilm formation of ML09-119 was significantly decreased in the Tad operon deletant. Absence of the Tad operon had no effect on sensitivity to other environmental stressors, including hydrogen peroxide, osmolarity, alkalinity, and temperature; however, it was more sensitive to low pH conditions. Scanning electron microscopy revealed that the Tad mutant had a rougher surface structure during log phase growth than the wildtype strain, indicating the absence of Tad impacts the outer surface of vAh during cell division, of which the biological consequences are unknown. These findings highlight the role of Tad in vAh pathogenesis and biofilm formation, signifying the importance of T4P in bacterial infections.
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| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC11322086 | PMC |
| http://dx.doi.org/10.3389/fcimb.2024.1425624 | DOI Listing |
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