{"title":"代谢和代谢物如何在疾病期间塑造免疫","authors":"H. Kumar","doi":"10.1080/08830185.2022.2061764","DOIUrl":null,"url":null,"abstract":"Cellular metabolism is a complex biological process governed by numerous biochemical reactions that maintain various cellular processes essential for cell survival and continuity of life. It is not only important for the maintenance of host physiology, but also plays a crucial role in shaping the host’s defense system. The dynamicity of various immune components, immune responses and immune homeostasis during steady state or infection depends on the metabolic state of immune cells. Recently, it has been shown that various metabolite and metabolic enzymes play a pivotal role in the development of host immunity. This issue of International Reviews of Immunology focuses on the amino acid, sugar and lipid metabolisms and metabolic enzymes involved in host immunity during microbial infection and in different noninfectious defenses such as cancer, metabolic diseases and autoimmune diseases (Figure 1). Cancer is caused by multiple factors both intrinsic and extrinsic. Intrinsic factors include irreparable DNA damage, loss of cell cycle regulation, dysregulation of immunity or metabolism etc. The extrinsic factors can be physical, chemical, biological or environmental. Additionally, some microbial infections by an oncogenic virus or bacterial infection can result in the development of cancer. In this issue, the article by Pirzadeh et al. discusses the role of Helicobacter pylori and a few amino acid metabolisms and metabolites in immune suppression, which subsequently results in gastric cancer. This article will be of interest to a broad readership in the fields of onco-immunology and infectious disease biology as well as researchers active at the junction between metabolism, immunology and cancer biology (Figure 1). The innate and adaptive immune systems are strongly linked through dendritic cells (DCs) and the function of DCs can affect the disease outcome in infection as well as immune homeostasis in steady state. The article by Sun et al. describes how the alteration of available biomolecules in the DC microenvironment during metabolic diseases substantially affects the function of DCs. The altered microenvironment may cause immunopathogenesis of multiple diseases or enhancement of existing diseases. Also, the molecules which skew the metabolic condition can be a potential therapeutic agent. This article will be beneficial to readers working on the metabolic aspects of immunity and to clinical nutritionists working on disease control through the regulation of food intake (Figure 1). Tryptophan metabolism and its metabolic product play a crucial role in various biological processes such as neurotransmission, stabilization of the circadian rhythm and synthesis of vitamin B3 which are essential for the normal physiology of the host. The article by Moein et al. elaborates the immunological role of tryptophan metabolite and its impact on inflammatory bowel disease and colorectal cancer. The article also discusses how the small molecule-based metabolic or enzyme inhibitor could manage these diseases. The article by Heidari et al. describes how a key enzyme, Indoleamine 2, 3-Dioxygenase (IDO), plays a pivotal role in the kynurenine pathway. The metabolic product produce by the action of this enzyme has immunomodulatory function and affect subsets of T cells and its balance ensures protection against cancer and autoimmune diseases. The small molecule-based manipulation of IDO could be a potential drug for IDO imbalance in the treatment of cancer and/or autoimmune diseases. These two articles will be useful to pharmacologists, chemists developing enzyme inhibitors, rheumatologists, cancer immunologists and","PeriodicalId":14333,"journal":{"name":"International Reviews of Immunology","volume":"41 1","pages":"297 - 298"},"PeriodicalIF":4.3000,"publicationDate":"2022-05-04","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"","citationCount":"0","resultStr":"{\"title\":\"How metabolism and metabolites shape immunity during disease\",\"authors\":\"H. 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This issue of International Reviews of Immunology focuses on the amino acid, sugar and lipid metabolisms and metabolic enzymes involved in host immunity during microbial infection and in different noninfectious defenses such as cancer, metabolic diseases and autoimmune diseases (Figure 1). Cancer is caused by multiple factors both intrinsic and extrinsic. Intrinsic factors include irreparable DNA damage, loss of cell cycle regulation, dysregulation of immunity or metabolism etc. The extrinsic factors can be physical, chemical, biological or environmental. Additionally, some microbial infections by an oncogenic virus or bacterial infection can result in the development of cancer. In this issue, the article by Pirzadeh et al. discusses the role of Helicobacter pylori and a few amino acid metabolisms and metabolites in immune suppression, which subsequently results in gastric cancer. This article will be of interest to a broad readership in the fields of onco-immunology and infectious disease biology as well as researchers active at the junction between metabolism, immunology and cancer biology (Figure 1). The innate and adaptive immune systems are strongly linked through dendritic cells (DCs) and the function of DCs can affect the disease outcome in infection as well as immune homeostasis in steady state. The article by Sun et al. describes how the alteration of available biomolecules in the DC microenvironment during metabolic diseases substantially affects the function of DCs. The altered microenvironment may cause immunopathogenesis of multiple diseases or enhancement of existing diseases. Also, the molecules which skew the metabolic condition can be a potential therapeutic agent. This article will be beneficial to readers working on the metabolic aspects of immunity and to clinical nutritionists working on disease control through the regulation of food intake (Figure 1). Tryptophan metabolism and its metabolic product play a crucial role in various biological processes such as neurotransmission, stabilization of the circadian rhythm and synthesis of vitamin B3 which are essential for the normal physiology of the host. The article by Moein et al. elaborates the immunological role of tryptophan metabolite and its impact on inflammatory bowel disease and colorectal cancer. The article also discusses how the small molecule-based metabolic or enzyme inhibitor could manage these diseases. The article by Heidari et al. describes how a key enzyme, Indoleamine 2, 3-Dioxygenase (IDO), plays a pivotal role in the kynurenine pathway. The metabolic product produce by the action of this enzyme has immunomodulatory function and affect subsets of T cells and its balance ensures protection against cancer and autoimmune diseases. The small molecule-based manipulation of IDO could be a potential drug for IDO imbalance in the treatment of cancer and/or autoimmune diseases. 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How metabolism and metabolites shape immunity during disease
Cellular metabolism is a complex biological process governed by numerous biochemical reactions that maintain various cellular processes essential for cell survival and continuity of life. It is not only important for the maintenance of host physiology, but also plays a crucial role in shaping the host’s defense system. The dynamicity of various immune components, immune responses and immune homeostasis during steady state or infection depends on the metabolic state of immune cells. Recently, it has been shown that various metabolite and metabolic enzymes play a pivotal role in the development of host immunity. This issue of International Reviews of Immunology focuses on the amino acid, sugar and lipid metabolisms and metabolic enzymes involved in host immunity during microbial infection and in different noninfectious defenses such as cancer, metabolic diseases and autoimmune diseases (Figure 1). Cancer is caused by multiple factors both intrinsic and extrinsic. Intrinsic factors include irreparable DNA damage, loss of cell cycle regulation, dysregulation of immunity or metabolism etc. The extrinsic factors can be physical, chemical, biological or environmental. Additionally, some microbial infections by an oncogenic virus or bacterial infection can result in the development of cancer. In this issue, the article by Pirzadeh et al. discusses the role of Helicobacter pylori and a few amino acid metabolisms and metabolites in immune suppression, which subsequently results in gastric cancer. This article will be of interest to a broad readership in the fields of onco-immunology and infectious disease biology as well as researchers active at the junction between metabolism, immunology and cancer biology (Figure 1). The innate and adaptive immune systems are strongly linked through dendritic cells (DCs) and the function of DCs can affect the disease outcome in infection as well as immune homeostasis in steady state. The article by Sun et al. describes how the alteration of available biomolecules in the DC microenvironment during metabolic diseases substantially affects the function of DCs. The altered microenvironment may cause immunopathogenesis of multiple diseases or enhancement of existing diseases. Also, the molecules which skew the metabolic condition can be a potential therapeutic agent. This article will be beneficial to readers working on the metabolic aspects of immunity and to clinical nutritionists working on disease control through the regulation of food intake (Figure 1). Tryptophan metabolism and its metabolic product play a crucial role in various biological processes such as neurotransmission, stabilization of the circadian rhythm and synthesis of vitamin B3 which are essential for the normal physiology of the host. The article by Moein et al. elaborates the immunological role of tryptophan metabolite and its impact on inflammatory bowel disease and colorectal cancer. The article also discusses how the small molecule-based metabolic or enzyme inhibitor could manage these diseases. The article by Heidari et al. describes how a key enzyme, Indoleamine 2, 3-Dioxygenase (IDO), plays a pivotal role in the kynurenine pathway. The metabolic product produce by the action of this enzyme has immunomodulatory function and affect subsets of T cells and its balance ensures protection against cancer and autoimmune diseases. The small molecule-based manipulation of IDO could be a potential drug for IDO imbalance in the treatment of cancer and/or autoimmune diseases. These two articles will be useful to pharmacologists, chemists developing enzyme inhibitors, rheumatologists, cancer immunologists and
期刊介绍:
This review journal provides the most current information on basic and translational research in immunology and related fields. In addition to invited reviews, the journal accepts for publication articles and editorials on relevant topics proposed by contributors. Each issue of International Reviews of Immunology contains both solicited and unsolicited review articles, editorials, and ''In-this-Issue'' highlights. The journal also hosts reviews that position the authors'' original work relative to advances in a given field, bridging the gap between annual reviews and the original research articles.
This review series is relevant to all immunologists, molecular biologists, microbiologists, translational scientists, industry researchers, and physicians who work in basic and clinical immunology, inflammatory and allergic diseases, vaccines, and additional topics relevant to medical research and drug development that connect immunology to disciplines such as oncology, cardiovascular disease, and metabolic disorders.
Covered in International Reviews of Immunology: Basic and developmental immunology (innate and adaptive immunity; inflammation; and tumor and microbial immunology); Clinical research (mechanisms of disease in man pertaining to infectious diseases, autoimmunity, allergy, oncology / immunology); and Translational research (relevant to biomarkers, diagnostics, vaccines, and drug development).