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1.
Front Immunol ; 12: 607178, 2021.
Article in English | MEDLINE | ID: mdl-33959120

ABSTRACT

The spread of infectious diseases is rampant. The emergence of new infections, the irrational use of antibiotics in medicine and their widespread use in agriculture contribute to the emergence of microorganisms that are resistant to antimicrobial drugs. By 2050, mortality from antibiotic-resistant strains of bacteria is projected to increase up to 10 million people per year, which will exceed mortality from cancer. Mutations in bacteria and viruses are occurring faster than new drugs and vaccines are being introduced to the market. In search of effective protection against infections, new strategies and approaches are being developed, one of which is the use of innate immunity activators in combination with etiotropic chemotherapy drugs. Muramyl peptides, which are part of peptidoglycan of cell walls of all known bacteria, regularly formed in the body during the breakdown of microflora and considered to be natural regulators of immunity. Their interaction with intracellular receptors launches a sequence of processes that ultimately leads to the increased expression of genes of MHC molecules, pro-inflammatory mediators, cytokines and their soluble and membrane-associated receptors. As a result, all subpopulations of immunocompetent cells are activated: macrophages and dendritic cells, neutrophils, T-, B- lymphocytes and natural killer cells for an adequate response to foreign or transformed antigens, manifested both in the regulation of the inflammatory response and in providing immunological tolerance. Muramyl peptides take part in the process of hematopoiesis, stimulating production of colony-stimulating factors, which is the basis for their use in the treatment of oncological diseases. In this review we highlight clinical trials of drugs based on muramyl peptides, as well as clinical efficacy of drugs mifamurtide, lycopid, liasten and polimuramil. Such a multifactorial effect of muramyl peptides and a well-known mechanism of activity make them promising drugs in the treatment and preventing of infectious, allergic and oncological diseases, and in the composition of vaccines.


Subject(s)
Host-Pathogen Interactions/drug effects , Host-Pathogen Interactions/immunology , Immunity, Innate/drug effects , Immunomodulation , Peptidoglycan/pharmacology , Animals , Clinical Trials as Topic , Drug Development , History, 20th Century , History, 21st Century , Humans , Monosaccharides/chemistry , Monosaccharides/immunology , Peptidoglycan/chemistry , Peptidoglycan/immunology , Peptidoglycan/therapeutic use , Polysaccharides, Bacterial/chemistry , Polysaccharides, Bacterial/immunology , Polysaccharides, Bacterial/pharmacology , Polysaccharides, Bacterial/therapeutic use , Research/history , Structure-Activity Relationship , Treatment Outcome
2.
EBioMedicine ; 54: 102734, 2020 Apr.
Article in English | MEDLINE | ID: mdl-32279057

ABSTRACT

BACKGROUND: Macrophages (Mф) can be M1/M2 polarized by Th1/2 signals, respectively. M2-like Mф are thought to be important in asthma pathogenesis, and M1-like in anti-infective immunity, however their roles in virus-induced asthma exacerbations are unknown. Our objectives were (i) to assess polarised Mф phenotype responses to rhinovirus (RV) infection in vitro and (ii) to assess Mф phenotypes in healthy subjects and people with asthma before and during experimental RV infection in vivo. METHODS: We investigated characteristics of polarized/unpolarized human monocyte-derived Mф (MDM, from 3-6 independent donors) in vitro and evaluated frequencies of M1/M2-like bronchoalveolar lavage (BAL) Mф in experimental RV-induced asthma exacerbation in 7 healthy controls and 17 (at baseline) and 18 (at day 4 post infection) people with asthma. FINDINGS: We observed in vitro: M1-like but not M2-like or unpolarized MDM are potent producers of type I and III interferons in response to RV infection (P<0.0001), and M1-like are more resistant to RV infection (P<0.05); compared to M1-like, M2-like MDM constitutively produced higher levels of CCL22/MDC (P = 0.007) and CCL17/TARC (P<0.0001); RV-infected M1-like MDM were characterized as CD14+CD80+CD197+ (P = 0.002 vs M2-like, P<0.0001 vs unpolarized MDM). In vivo we found reduced percentages of M1-like CD14+CD80+CD197+ BAL Mф in asthma during experimental RV16 infection compared to baseline (P = 0.024). INTERPRETATION: Human M1-like BAL Mф are likely important contributors to anti-viral immunity and their numbers are reduced in patients with allergic asthma during RV-induced asthma exacerbations. This mechanism may be one explanation why RV-triggered clinical and pathologic outcomes are more severe in allergic patients than in healthy subjects. FUNDING: ERC FP7 Advanced grant 233015, MRC Centre Grant G1000758, Asthma UK grant 08-048, NIHR Biomedical Research Centre funding scheme, NIHR BRC Centre grant P26095, the Predicta FP7 Collaborative Project grant 260895, RSF grant 19-15-00272, Megagrant No 14.W03.31.0024.


Subject(s)
Asthma/immunology , Interferons/genetics , Macrophages, Alveolar/immunology , Picornaviridae Infections/complications , Asthma/etiology , Asthma/virology , Cells, Cultured , Chemokine CCL17/genetics , Chemokine CCL17/metabolism , Chemokine CCL22/genetics , Chemokine CCL22/metabolism , HeLa Cells , Humans , Interferons/metabolism , Macrophages, Alveolar/virology , Picornaviridae Infections/immunology , Receptors, Immunologic/genetics , Receptors, Immunologic/metabolism
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