Frontiers in Pharmacology (Apr 2020)

Like Cures Like: Pharmacological Activity of Anti-Inflammatory Lipopolysaccharides From Gut Microbiome

  • Tzu-Lung Lin,
  • Tzu-Lung Lin,
  • Chin-Chung Shu,
  • Young-Mao Chen,
  • Jang-Jih Lu,
  • Ting-Shu Wu,
  • Wei-Fan Lai,
  • Chi-Meng Tzeng,
  • Hsin-Chih Lai,
  • Hsin-Chih Lai,
  • Hsin-Chih Lai,
  • Hsin-Chih Lai,
  • Chia-Chen Lu,
  • Chia-Chen Lu

DOI
https://doi.org/10.3389/fphar.2020.00554
Journal volume & issue
Vol. 11

Abstract

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Gut microbiome maintains local gut integrity and systemic host homeostasis, where optimal control of intestinal lipopolysaccharides (LPS) activity may play an important role. LPS mainly produced from gut microbiota are a group of lipid-polysaccharide chemical complexes existing in the outer membrane of Gram-negative bacteria. Traditionally, LPS mostly produced from Proteobacteria are well known for their ability in inducing strong inflammatory responses (proinflammatory LPS, abbreviated as P-LPS), leading to septic shock or even death in animals and humans. Although the basic structures and chemical properties of P-LPS derived from different bacterial species generally show similarity, subtle and differential immune activation activities are observed. On the other hand, frequently ignored, a group of LPS molecules mainly produced by certain microbiota bacteria such as Bacteroidetes show blunt or even antagonistic activity in initiating pro-inflammatory responses (anti-inflammatory LPS, abbreviated as A-LPS). In this review, besides the immune activation properties of P-LPS, we also focus on the description of anti-inflammatory effects of A-LPS, and their potential antagonistic mechanism. We address the possibility of using native or engineered A-LPS for immune modulation in prevention or even treatment of P-LPS induced chronic inflammation related diseases. Understanding the exquisite interactive relationship between structure-activity correlation of P- and A-LPS not only contributes to molecular understanding of immunomodulation and homeostasis, but also re-animates the development of novel LPS-based pharmacological strategy for prevention and therapy of chronic inflammation related diseases.

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