scholarly journals Bacterial Pathogens Hijack the Innate Immune Response by Activation of the Reverse Transsulfuration Pathway

mBio ◽  
2019 ◽  
Vol 10 (5) ◽  
Author(s):  
Alain P. Gobert ◽  
Yvonne L. Latour ◽  
Mohammad Asim ◽  
Jordan L. Finley ◽  
Thomas G. Verriere ◽  
...  
Keyword(s):  
Immune Response ◽  
Innate Immune Response ◽  
Metabolic Pathway ◽  
Pathogenic Bacteria ◽  
Immune Escape ◽  
Bacterial Pathogens ◽  
Innate Immune ◽  
Polyamine Metabolism ◽  
Proinflammatory Response ◽  
Transsulfuration Pathway

ABSTRACT The reverse transsulfuration pathway is the major route for the metabolism of sulfur-containing amino acids. The role of this metabolic pathway in macrophage response and function is unknown. We show that the enzyme cystathionine γ-lyase (CTH) is induced in macrophages infected with pathogenic bacteria through signaling involving phosphatidylinositol 3-kinase (PI3K)/MTOR and the transcription factor SP1. This results in the synthesis of cystathionine, which facilitates the survival of pathogens within myeloid cells. Our data demonstrate that the expression of CTH leads to defective macrophage activation by (i) dysregulation of polyamine metabolism by depletion of S-adenosylmethionine, resulting in immunosuppressive putrescine accumulation and inhibition of spermidine and spermine synthesis, and (ii) increased histone H3K9, H3K27, and H3K36 di/trimethylation, which is associated with gene expression silencing. Thus, CTH is a pivotal enzyme of the innate immune response that disrupts host defense. The induction of the reverse transsulfuration pathway by bacterial pathogens can be considered an unrecognized mechanism for immune escape. IMPORTANCE Macrophages are professional immune cells that ingest and kill microbes. In this study, we show that different pathogenic bacteria induce the expression of cystathionine γ-lyase (CTH) in macrophages. This enzyme is involved in a metabolic pathway called the reverse transsulfuration pathway, which leads to the production of numerous metabolites, including cystathionine. Phagocytized bacteria use cystathionine to better survive in macrophages. In addition, the induction of CTH results in dysregulation of the metabolism of polyamines, which in turn dampens the proinflammatory response of macrophages. In conclusion, pathogenic bacteria can evade the host immune response by inducing CTH in macrophages.

The red swamp crayfish, Procambarus clarkii cathepsin C, participates in the innate immune response to the viral and bacterial pathogens

2020 ◽  
Vol 100 ◽  
pp. 436-444 ◽  
Author(s):  
Qiu-Ning Liu ◽  
Saima Kausar ◽  
Isma Gul ◽  
Hai-Ling Zhou ◽  
Muhammad Nadeem Abbas ◽  
...  
Keyword(s):  
Immune Response ◽  
Innate Immune Response ◽  
Procambarus Clarkii ◽  
Bacterial Pathogens ◽  
Innate Immune ◽  
Cathepsin C ◽  
Red Swamp Crayfish

Innate immune response of bovine mammary gland to pathogenic bacteria responsible for mastitis

2007 ◽  
Vol 54 (4) ◽  
pp. 399-409 ◽  
Author(s):  
Javier Oviedo-Boyso ◽  
Juan J. Valdez-Alarcón ◽  
Marcos Cajero-Juárez ◽  
Alejandra Ochoa-Zarzosa ◽  
Joel E. López-Meza ◽  
...  
Keyword(s):  
Immune Response ◽  
Mammary Gland ◽  
Innate Immune Response ◽  
Pathogenic Bacteria ◽  
Innate Immune ◽  
Bovine Mammary Gland

scholarly journals Feline Coronavirus and Alpha-Herpesvirus Infections: Innate Immune Response and Immune Escape Mechanisms

Animals ◽  
2021 ◽  
Vol 11 (12) ◽  
pp. 3548
Author(s):  
Paolo Capozza ◽  
Annamaria Pratelli ◽  
Michele Camero ◽  
Gianvito Lanave ◽  
Grazia Greco ◽  
...  
Keyword(s):  
Immune Response ◽  
Innate Immune Response ◽  
Immune Escape ◽  
Innate Immune ◽  
Host Cells ◽  
Mammalian Host ◽  
Host Protection ◽  
Main Components ◽  
Immune Escape Mechanisms ◽  
Feline Coronavirus

Over time, feline viruses have acquired elaborateopportunistic properties, making their infections particularly difficult to prevent and treat. Feline coronavirus (FCoV) and feline herpesvirus-1 (FeHV-1), due to the involvement of host genetic factors and immune mechanisms in the development of the disease and more severe forms, are important examples of immune evasion of the host’s innate immune response by feline viruses.It is widely accepted that the innate immune system, which providesan initial universal form of the mammalian host protection from infectious diseases without pre-exposure, plays an essential role in determining the outcome of viral infection.The main components of this immune systembranchare represented by the internal sensors of the host cells that are able to perceive the presence of viral component, including nucleic acids, to start and trigger the production of first type interferon and to activate the cytotoxicity by Natural Killercells, often exploited by viruses for immune evasion.In this brief review, we providea general overview of the principal tools of innate immunity, focusing on the immunologic escape implemented byFCoVand FeHV-1 duringinfection.

scholarly journals 52 Young Scholar Presentation: Maternal supply of methionine during late-pregnancy alters in utero and neonatal development, hepatic one-carbon metabolism,and innate immune response in Holstein calves

2019 ◽  
Vol 97 (Supplement_2) ◽  
pp. 26-27
Author(s):  
A S Alharti ◽  
Juan Loor ◽  
Fernanda Batistel ◽  
Michael A Ballou ◽  
Claudia Parys ◽  
...  
Keyword(s):  
Immune Response ◽  
Innate Immune Response ◽  
Carbon Metabolism ◽  
Liver Tissue ◽  
Average Daily Gain ◽  
Plasma Concentrations ◽  
Late Pregnancy ◽  
Innate Immune ◽  
Metabolism Enzymes ◽  
Transsulfuration Pathway

Abstract Pregnancy and early life are critical periods of plasticity during which the fetus and neonate may be influenced by environmental factors such as nutrition. Objectives were to investigate if increasing methionine (Met) supply during late-pregnancy affects developmental, metabolic, and immune parameters of the calf at birth and during the neonatal period. Calves born to Holstein cows individually-fed a basal control (CON; 1.47 Mcal/kg dry matter [DM] and 15.3% crude protein) diet with no added Met or CON plus rumen-protected Met (MET; Mepron® at 0.09% of diet DM) during the last 28±2 d of pregnancy were used. Liver biopsies were harvested at 4, 14, 28, and 50 d of age and used for metabolomics via GS-MS and activity of hepatic 1-carbon metabolism enzymes. Blood for biomarker analyses and innate immune function assays was harvested at birth (before colostrum feeding), 7, 21, 42 and 50 d of age. Whole blood was challenged with enteropathogenic bacteria (E. coli 0118:H8), and phagocytosis and oxidative burst of neutrophils and monocytes quantified by flow cytometry. At birth, MET calves had greater (P≤0.05) body weight (BW, 44.1 vs. 42.1±0.70 kg), hip height (HH, 81.3 vs. 79.6±0.53 cm), and wither height (WH, 77.8 vs. 75.9±0.47 cm). Differences persisted through 9 wk of age, resulting in average responses of +3.1 kg BW, +1.9 cm HH, and+1.8 cm WH in MET compared with CON. Average daily gain during the 9 wk was (P<0.05) 0.72±0.02 kg/d in MET and 0.67±0.02 kg/d in CON calves. Despite similar rates of daily DMI, maternal supplementation with Met led to greater (P ≤ 0.05) overall hepatic concentrations of the 1-carbon metabolism intermediates adenosine, betaine, choline, glycine, and N,N-dimethylglycine in liver tissue. Among transsulfuration pathway metabolites, concentrations of cystathionine, cysteinesulfinic acid, hypotaurine, serine, and taurine were greater (P ≤ 0.05) in MET calves. There was a treatment × day effect for activity of betaine-homocysteine S-methyltransferase (BHMT), methionine synthase (MTR) and cystathionine-beta-synthase (CBS) in liver tissue. Activity of BHMT and CBS increased in MET calves between d 4 and 14, with a peak at 28 d. Despite a linear increase from d 4 to 28, activity of MTR in MET calves was lower on d 4 and 50. Plasma concentrations of haptoglobin and activity of myeloperoxidase in both maternal groups increased (P ≤ 0.05) markedly between 0 and 7 d of age followed by a decrease to baseline at d 21 with responses being lower in MET compared with CON calves. In vitro phagocytosis in stimulated neutrophils was greater overall (P ≤ 0.05) in MET calves. Overall, data indicate that increasing the maternal supply of Met during late-pregnancy benefits calf growth in part through alterations in hepatic metabolism and innate immune response.

scholarly journals The role of host miRNAs on Mycobacterium tuberculosis

ExRNA ◽  
2019 ◽  
Vol 1 (1) ◽  
Author(s):  
Ava Behrouzi ◽  
Marjan Alimohammadi ◽  
Amir Hossein Nafari ◽  
Mohammad Hadi Yousefi ◽  
Farhad Riazi Rad ◽  
...  
Keyword(s):  
Immune Response ◽  
Mycobacterium Tuberculosis ◽  
Innate Immune Response ◽  
Host Defense ◽  
Pathogenic Bacteria ◽  
Biological Pathways ◽  
Innate Immune ◽  
The Other ◽  
Non Coding Rnas

Abstract MicroRNAs are non-coding RNAs, playing an important role in regulating many biological pathways, such as innate immune response against various infections. Different studies confirm that many miRNAs act as important regulators in developing a strategy for the survival of Mycobacterium tuberculosis in the host cell. On the other hand, an innate immune response is one of the important aspects of host defense against Mycobacterium. Considering the importance of miRNAs during tuberculosis infection, we focused on studies that performed on the role of various miRNAs related to pathogenic bacteria, M. tuberculosis in the host. Also, we have introduced important miRNAs that can be used as a biomarker for the detection of Mycobacterium.

scholarly journals TRIMming Type I Interferon-Mediated Innate Immune Response in Antiviral and Antitumor Defense

Viruses ◽  
2021 ◽  
Vol 13 (2) ◽  
pp. 279
Author(s):  
Ling Wang ◽  
Shunbin Ning
Keyword(s):  
Immune Response ◽  
Innate Immune Response ◽  
Stress Responses ◽  
Viral Infections ◽  
Immune Escape ◽  
E3 Ligase ◽  
Innate Immune ◽  
Type I ◽  
Antiviral Immune Response ◽  
Wide Range

The tripartite motif (TRIM) family comprises at least 80 members in humans, with most having ubiquitin or SUMO E3 ligase activity conferred by their N-terminal RING domain. TRIMs regulate a wide range of processes in ubiquitination- or sumoylation-dependent manners in most cases, and fewer as adaptors. Their roles in the regulation of viral infections, autophagy, cell cycle progression, DNA damage and other stress responses, and carcinogenesis are being increasingly appreciated, and their E3 ligase activities are attractive targets for developing specific immunotherapeutic strategies for immune diseases and cancers. Given their importance in antiviral immune response, viruses have evolved sophisticated immune escape strategies to subvert TRIM-mediated mechanisms. In this review, we focus on their regulation of IFN-I-mediated innate immune response, which plays key roles in antiviral and antitumor defense.

scholarly journals Systems Biology to Understand and Regulate Human Retroviral Proinflammatory Response

2021 ◽  
Vol 12 ◽  
Author(s):  
Mohamed Helmy ◽  
Kumar Selvarajoo
Keyword(s):  
Immune Response ◽  
Systems Biology ◽  
Transposable Elements ◽  
Innate Immune Response ◽  
Innate Immune ◽  
Endogenous Retroviruses ◽  
Therapeutic Approaches ◽  
Genome Sequences ◽  
Proinflammatory Response ◽  
Novel Therapeutic

The majority of human genome are non-coding genes. Recent research have revealed that about half of these genome sequences make up of transposable elements (TEs). A branch of these belong to the endogenous retroviruses (ERVs), which are germline viral infection that occurred over millions of years ago. They are generally harmless as evolutionary mutations have made them unable to produce viral agents and are mostly epigenetically silenced. Nevertheless, ERVs are able to express by still unknown mechanisms and recent evidences have shown links between ERVs and major proinflammatory diseases and cancers. The major challenge is to elucidate a detailed mechanistic understanding between them, so that novel therapeutic approaches can be explored. Here, we provide a brief overview of TEs, human ERVs and their links to microbiome, innate immune response, proinflammatory diseases and cancer. Finally, we recommend the employment of systems biology approaches for future HERV research.

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