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Implication of the σ E Regulon Members OmpO and σ N in the Δ ompA 299-356 -Mediated Decrease of Oxidative Stress Tolerance in Stenotrophomonas maltophilia.

Ren-Hsuan KuLi-Hua LiYi-Fu LiuEn-Wei HuYi-Tsung LinHsu-Feng LuTsuey-Ching Yang
Published in: Microbiology spectrum (2023)
Outer membrane protein A (OmpA) is the most abundant porin in bacterial outer membranes. KJΔOmpA 299-356 , an ompA C-terminal in-frame deletion mutant of Stenotrophomonas maltophilia KJ, exhibits pleiotropic defects, including decreased tolerance to menadione (MD)-mediated oxidative stress. Here, we elucidated the underlying mechanism of the decreased MD tolerance mediated by Δ ompA 299-356 . The transcriptomes of wild-type S. maltophilia and the KJΔOmpA 299-356 mutant strain were compared, focusing on 27 genes known to be associated with oxidative stress alleviation; however, no significant differences were identified. OmpO was the most downregulated gene in KJΔOmpA 299-356 . KJΔOmpA 299-356 complementation with the chromosomally integrated ompO gene restored MD tolerance to the wild-type level, indicating the role of OmpO in MD tolerance. To further clarify the possible regulatory circuit involved in ompA defects and ompO downregulation, σ factor expression levels were examined based on the transcriptome results. The expression levels of three σ factors were significantly different (downregulated levels of rpoN and upregulated levels of rpoP and rpoE ) in KJΔOmpA 299-356 . Next, the involvement of the three σ factors in the Δ ompA 299-356 -mediated decrease in MD tolerance was evaluated using mutant strains and complementation assays. rpoN downregulation and rpoE upregulation contributed to the Δ ompA 299-356 -mediated decrease in MD tolerance. OmpA C-terminal domain loss induced an envelope stress response. Activated σ E decreased rpoN and ompO expression levels, in turn decreasing swimming motility and oxidative stress tolerance. Finally, we revealed both the Δ ompA 299-356 - rpoE - ompO regulatory circuit and rpoE - rpoN cross regulation. IMPORTANCE The cell envelope is a morphological hallmark of Gram-negative bacteria. It consists of an inner membrane, a peptidoglycan layer, and an outer membrane. OmpA, an outer membrane protein, is characterized by an N-terminal β-barrel domain that is embedded in the outer membrane and a C-terminal globular domain that is suspended in the periplasmic space and connected to the peptidoglycan layer. OmpA is crucial for the maintenance of envelope integrity. Stress resulting from the destruction of envelope integrity is sensed by extracytoplasmic function (ECF) σ factors, which induce responses to various stressors. In this study, we revealed that loss of the OmpA-peptidoglycan (PG) interaction causes peptidoglycan and envelope stress while simultaneously upregulating σ P and σ E expression levels. The outcomes of σ P and σ E activation are different and are linked to β-lactam and oxidative stress tolerance, respectively. These findings establish that outer membrane proteins (OMPs) play a critical role in envelope integrity and stress tolerance.
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