Abstract
The human innate immune system is equipped with multiple mechanisms to detect microbe-associated molecular patterns (MAMPs) to fight bacterial infections. The metabolite short-chain fatty acids (SCFAs) acetate, propionate and butyrate are released by multiple bacteria or are food ingredients. SCFA production, especially acetate production, is usually essential for bacteria, and knockout of pathways involved in acetate production strongly impairs bacterial fitness. Because host organisms use SCFAs as MAMPs and alter immune reactions in response to SCFAs, interventions that modulate SCFA levels can be a new strategy for infection control. The interaction between SCFAs and host cells has been primarily investigated in the intestinal lumen because of the high local levels of SCFAs released by bacterial microbiome members. However, members of not only the intestinal microbiome but also the skin microbiome produce SCFAs, which are known ligands of the seven-transmembrane G-protein-coupled receptor FFAR2. In addition to enterocytes, FFAR2 is expressed on other human cell types, including leukocytes, especially neutrophils. This finding is in line with other research that determined that targeted activation of FFAR2 diminishes susceptibility toward various types of infection by bacteria such as Klebsiella pneumonia, Citrobacter rodentium, and Staphylococcus aureus but also by viruses such as respiratory syncytial and influenza viruses. Thus, our immune system appears to be able to use FFAR2-dependent detection of SCFAs for perceiving and even averting severe infections. We summarize recent advances in understanding the role of SCFAs and FFAR2 in various infection types and propose the manipulation of this receptor as an additional therapeutic strategy to fight infections.
Highlights
The World Health Organization (WHO) proclaimed the emergence of multiresistant pathogens to be a major threat to human health, urging the development of alternative approaches to the use of antibiotics for the prevention and treatment of infectious diseases
short-chain fatty acids (SCFAs) were reported to interact with leukocytes via receptordependent and receptor-independent immune modulation
No Histone deacetylases (HDACs) inhibition has been described for acetate (Waldecker et al, 2008; Sanford et al, 2016), which is the preferred ligand of FFAR2 (Milligan et al, 2017)
Summary
The World Health Organization (WHO) proclaimed the emergence of multiresistant pathogens to be a major threat to human health, urging the development of alternative approaches to the use of antibiotics for the prevention and treatment of infectious diseases (https://www.who.int/news-room/fact-sheets/ detail/antimicrobial-resistance). Activation of FFAR2 by SCFA administration, especially acetate, diminishes the susceptibility toward various types of infections caused by bacteria and viruses (Galvao et al, 2018; Antunes et al, 2019; Sencio et al, 2020). Combined with high expression in neutrophils, this upregulation strongly implies an involvement of FFAR2 and SCFAs in infection control.
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