- Pat- and Pta-mediated protein acetylation is required for horizontallyacquired virulence gene expression in Salmonella Typhimurium
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Hyojeong Koo , Eunna Choi , Shinae Park , Eun-Jin Lee , Jung-Shin Lee
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J. Microbiol. 2022;60(8):823-831. Published online May 27, 2022
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DOI: https://doi.org/10.1007/s12275-022-2095-y
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Salmonella Typhimurium is a Gram-negative facultative pathogen
that causes a range of diseases, from mild gastroenteritis
to severe systemic infection in a variety of animal
hosts. S. Typhimurium regulates virulence gene expression
by a silencing mechanism using nucleoid-associated proteins
such as Histone-like Nucleoid Structuring protein (H-NS)
silencing. We hypothesize that the posttranslational modification,
specifically protein acetylation, of proteins in gene
silencing systems could affect the pathogenic gene expression
of S. Typhimurium. Therefore, we created acetylation-deficient
mutant by deleting two genes, pat and pta, which are
involved in the protein acetylation pathway. We observed
that the pat and pta deletion attenuates mouse virulence and
also decreases Salmonella’s replication within macrophages.
In addition, the Δpat Δpta strain showed a decreased expression
of the horizontally-acquired virulence genes, mgtC,
pagC, and ugtL, which are highly expressed in low Mg2+. The
decreased virulence gene expression is possibly due to higher
H-NS occupancy to those promoters because the pat and
pta deletion increases H-NS occupancy whereas the same
mutation decreases occupancy of RNA polymerase. Our results
suggest that Pat- and Pta-mediated protein acetylation
system promotes the expression of virulence genes by regulating
the binding affinity of H-NS in S. Typhimurium.
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Citations
Citations to this article as recorded by  - Reversible acetylation of ribosomal protein S1 serves as a smart switch for Salmonella to rapidly adapt to host stress
Yi-Lin Shen, Tian-Xian Liu, Lei Xu, Bang-Ce Ye, Ying Zhou
Nucleic Acids Research.2025;[Epub] CrossRef - Multi-Lasso Peptide-Based Synergistic Nanocomposite: A High-Stability, Broad-Spectrum Antimicrobial Agent with Potential for Combined Antibacterial Therapy
Yu Li, Jinyu Zhang, Ke Wei, Di Zhou, Zepeng Wang, Zhiwei Zeng, Yu Han, Weisheng Cao
ACS Nano.2024; 18(45): 31435. CrossRef
- A rule governing the FtsH-mediated proteolysis of the MgtC virulence protein from Salmonella enterica serovar Typhimurium
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Jonghyun Baek , Eunna Choi , Eun-Jin Lee
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J. Microbiol. 2018;56(8):565-570. Published online July 25, 2018
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DOI: https://doi.org/10.1007/s12275-018-8245-6
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Abstract
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A tightly controlled turnover of membrane proteins is required
for lipid bilayer stability, cell metabolism, and cell viability.
Among the energy-dependent AAA+ proteases in Salmonella,
FtsH is the only membrane-bound protease that contributes
to the quality control of membrane proteins. FtsH preferentially
degrades the C-terminus or N-terminus of misfolded,
misassembled, or damaged proteins to maintain physiological
functions. We found that FtsH hydrolyzes the Salmonella
MgtC virulence protein when we substitute the MgtC 226th
Trp, which is well conserved in other intracellular pathogens
and normally protects MgtC from the FtsH-mediated proteolysis.
Here we investigate a rule determining the FtsHmediated
proteolysis of the MgtC protein at Trp226 residue.
Substitution of MgtC tryptophan 226th residue to alanine, glycine,
or tyrosine leads to MgtC proteolysis in a manner dependent
on the FtsH protease whereas substitution to phenylalanine,
methionine, isoleucine, leucine, or valine resists
MgtC degradation by FtsH. These data indicate that a large
and hydrophobic side chain at 226th residue is required for
protection from the FtsH-mediated MgtC proteolysis.
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Citations
Citations to this article as recorded by - Edwardsiella piscicida requires SecY homeostasis facilitated by FtsH and YccA for stress resistance and virulence
Qingjuan Wu, Aijun Tian, Jiarui Xu, Qingjian Fang, Huiqin Huang, Yonghua Hu
Aquaculture.2024; 582: 740528. CrossRef - For Someone, You Are the Whole World: Host-Specificity of Salmonella enterica
Anastasiya V. Merkushova, Anton E. Shikov, Anton A. Nizhnikov, Kirill S. Antonets
International Journal of Molecular Sciences.2023; 24(18): 13670. CrossRef - Edwardsiella piscicida YccA: A novel virulence factor essential to membrane integrity, mobility, host infection, and host immune response
Mengru Jin, Jiaojiao He, Jun Li, Yonghua Hu, Dongmei Sun, Hanjie Gu
Fish & Shellfish Immunology.2022; 126: 318. CrossRef - FtsH is required for protein secretion homeostasis and full bacterial virulence in Edwardsiella piscicida
Wei Wang, Jiatiao Jiang, Hao Chen, Yuanxing Zhang, Qin Liu
Microbial Pathogenesis.2021; 161: 105194. CrossRef - RNase G controls tpiA mRNA abundance in response to oxygen availability in Escherichia coli
Jaejin Lee, Dong-Ho Lee, Che Ok Jeon, Kangseok Lee
Journal of Microbiology.2019; 57(10): 910. CrossRef - The coordinated action of RNase III and RNase G controls enolase expression in response to oxygen availability in Escherichia coli
Minho Lee, Minju Joo, Minji Sim, Se-Hoon Sim, Hyun-Lee Kim, Jaejin Lee, Minkyung Ryu, Ji-Hyun Yeom, Yoonsoo Hahn, Nam-Chul Ha, Jang-Cheon Cho, Kangseok Lee
Scientific Reports.2019;[Epub] CrossRef
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