Background <p><i>Pasteurella multocida, </i>a primary bacterial pathogen responsible for bovine respiratory diseases, has developed resistance to multiple antibiotics, including fluoroquinolones, and is also an important zoonotic pathogen. Previous studies have demonstrated that Fis protein plays a critical role in bacterial virulence and antibiotic resistance formation. In resistant strains, Fis expression is upregulated and deletion of this gene significantly delays the development of fluoroquinolone resistance. Thus, Fis represents a potential target protein of antibiotic resistance inhibitors.</p> Results <p>Through meticulous molecular docking and dynamics simulation studies, we have identified that cepharanthine as a potential inhibitor of Fis. The combination of cepharanthine and enrofloxacin successfully inhibits the development of fluoroquinolone resistance in <i>Pasteurella multocida</i>, with the fractional inhibitory concentration index indicating synergistic antimicrobial effect. Based on energy metabolism measurements and transcriptome sequencing analyses, we consider cepharanthine as a potential Fis inhibitor that may play a role in multiple biological processes of <i>Pasteurella multocida</i> regulated by Fis protein, resulting in a synergistic antibacterial response.</p> Conclusions <p>Cepharanthine is a potent Fis inhibitor and its combination with enrofloxacin presents a highly promising therapeutic approach for combatting <i>Pasteurella multocida</i> infections.</p>

错误:搜索内容不能为空,请输入英文关键词
错误:关键词超出字数限制,请精简
高级检索

Cepharanthine as a potential Fis inhibitor enhances Enrofloxacin efficacy against Pasteurella multocida

  • Zhiyang Xue,
  • Penghui Li,
  • Xilai Wang,
  • Muhammad Inam,
  • Huifeng Dong,
  • Dingkuo Liu,
  • Daoning Wang,
  • Jianfeng Wang,
  • Yu Jia,
  • Lingcong Kong,
  • Hongxia Ma

摘要

Background

Pasteurella multocida, a primary bacterial pathogen responsible for bovine respiratory diseases, has developed resistance to multiple antibiotics, including fluoroquinolones, and is also an important zoonotic pathogen. Previous studies have demonstrated that Fis protein plays a critical role in bacterial virulence and antibiotic resistance formation. In resistant strains, Fis expression is upregulated and deletion of this gene significantly delays the development of fluoroquinolone resistance. Thus, Fis represents a potential target protein of antibiotic resistance inhibitors.

Results

Through meticulous molecular docking and dynamics simulation studies, we have identified that cepharanthine as a potential inhibitor of Fis. The combination of cepharanthine and enrofloxacin successfully inhibits the development of fluoroquinolone resistance in Pasteurella multocida, with the fractional inhibitory concentration index indicating synergistic antimicrobial effect. Based on energy metabolism measurements and transcriptome sequencing analyses, we consider cepharanthine as a potential Fis inhibitor that may play a role in multiple biological processes of Pasteurella multocida regulated by Fis protein, resulting in a synergistic antibacterial response.

Conclusions

Cepharanthine is a potent Fis inhibitor and its combination with enrofloxacin presents a highly promising therapeutic approach for combatting Pasteurella multocida infections.