Cytokines ; immunology ; Graft vs Host Disease ; immunology ; Humans ; Immune System

Depression is a very common mental health problem in our modern society. Stress is involved in the provocation of depression. The pathogenesis of depressive disorder is still not well known. The development of neuroendocrine immunology opens a new sight for clarification of mechanism underlying stress-induced depression. Chronic stress activates peripheral and central immune systems accompanied with the release of inflammatory mediators, including cytokines. Activated immune system mediates the process of depression through the interaction with neuron system and neuroendocrine system, including regulating the monoamine neurotransmitter system in synthesis, metabolism and reuptake, inducing the overactivation of hypothalamus-pituitary-adrenal (HPA) axis and its negative feedback regulation, and reducing neurogenesis. This present paper reviews the cytokines mechanisms underlying stress-induced depression.
Cytokines ; immunology ; Depression ; immunology ; Humans ; Hypothalamo-Hypophyseal System ; Immune System ; Pituitary-Adrenal System ; Stress, Psychological ; immunology

OBJECTIVEThis review aimed at understanding pregnancy-induced changes in the maternal immune response and mechanisms for the establishment of feto-maternal tolerance.

DATA SOURCESArticles cited in this review were obtained from PubMed in English from 2000 to 2014, and the search string included keywords such as feto-maternal tolerance, dendritic cells, macrophage, T regulatory cells, natural killer cells, cytokines and hormone.

STUDY SELECTIONArticles regarding altered maternal immune response, including the proliferation and differentiation of the altered cells, and the production of cytokines and regulation of hormones in the feto-maternal interface were retrieved, reviewed and analyzed.

RESULTSThe changes in immune cells and cytokines in the local uterine microenvironment and peripheral blood are correlated with the establishment of feto-maternal tolerance. The endocrine system regulates the maternal immune system, promoting modifications during pregnancy. In these regulatory networks, every factor is indispensible for others.

CONCLUSIONSThe integration and balance of these immune factors during pregnancy give rise to an environment that enables the fetus to escape rejection by the maternal immune system. This progress is complicated, and needs more comprehensive exploration and explanation.

Dendritic Cells ; immunology ; Female ; Humans ; Immune System ; immunology ; Immune Tolerance ; immunology ; Killer Cells, Natural ; immunology ; Pregnancy ; T-Lymphocytes, Regulatory ; immunology

OBJECTIVETo review the senescent remodeling of the immune system with aging and its relevance to the increased susceptibility of the elderly to infectious diseases, along with an outlook on emerging immunological biomarkers.

DATA SOURCESThe data selected were from PubMed with relevant published articles in English or French from 1995 to the present. Searches were made using the terms "immunosenescence" and "aging" paired with the following: "innate immunity", "T-cell", "B-cell", "adaptive immunity" and "biomarkers". Articles were reviewed for additional citations and some information was gathered from web searches.

STUDY SELECTIONArticles on aging of both the innate and adaptive immunity were reviewed, with special attention to the remodeling effect on the ability of the immune system to fight infectious diseases. Articles related to biomarkers of immunosenescence were selected with the goal of identifying immunological biomarkers predisposing the elderly to infections.

RESULTSInnate immunity is generally thought to be relatively well preserved or enhanced during aging compared with adaptive immunity which manifests more profound alterations. However, evidence, particularly in the last decade, reveals that both limbs of the immune system undergo profound remodeling with aging. Reported data on adaptive immunity is consistent and changes are well established but conflicting results about innate immunity were reported between in vivo and in vitro studies, as well as between murine and human studies. Epidemiological data suggests increased predisposition of the elderly to infections, but no compelling scientific evidence has directly linked senescent immune remodeling to this increased susceptibility. Recently, growing interest in identifying immunological biomarkers and defining "immune risk phenotypes/profiles" (IRP) has been expressed. Identification of biomarkers is in its early days and few potential biomarkers have been identified, with the Swedish having defined one IRP based on the adaptive immune response.

CONCLUSIONSAging does not necessarily lead to an unavoidable decline in immune functions. Instead, a complex remodeling occurs. Despite the lack of compelling scientific evidence, senescent immune remodeling surely is a significant contributing factor to the increased risk and severity of infections in the elderly. Although, no immunological biomarker has been formally linked to the increased risk of infections in the elderly, biomarkers remain a promising tool to predict the likelihood of healthy aging, the level of immune competence, and mortality risk in the elderly. Hence, more research is required to define healthy aging and identify immunological biomarkers.

Adaptive Immunity ; immunology ; Aging ; immunology ; physiology ; Animals ; Humans ; Immune System ; immunology ; Immunity, Innate ; immunology ; Infection ; immunology

Adjuvants can be defined as pharmacological and immunological components that are able to modify and/or enhance antigen-specific immune responses. Based on the interdisciplinary research between immunology and material science/engineering, various vaccine adjuvant materials have been developed. By rational design and engineering of antigen or adjuvant materials, immune-modulatory vaccine systems generated to activate immune system. Here, we review the current progress of bioengineered prophylactic and/or therapeutic vaccine adjuvant for cancer and/or infectious disease, and discuss the prospect of future vaccine adjuvant materials.
Adjuvants, Immunologic ; Allergy and Immunology ; Communicable Diseases* ; Immune System ; Immunomodulation ; Immunotherapy*

Humans ; Immune System Diseases ; diagnosis ; etiology ; therapy ; Wound Infection ; immunology

For five decades it has been recognized that severe burn injury may precipitate in marked alterations in immune function, resulting in life-threatening systemic infections, sepsis, multiple organ failure, and even death. Extensive and deep burns exert widespread and profound impacts on various cells and molecules of the immune system. The general characteristics of abnormal immune responses following major burns are hyperinflammatory response and hypoimmune response of innate and adaptive immunity. These are recognized as postburn immune dysfunction (PID). The stress reaction, massive necrotic tissue, shock, infection, malnutrition and various therapeutic procedures after burns alter the microenvironment of the immune cells and molecules in which they reside, and consequently result in the changes in immune cells and their secretions in quantity and/or activity, and also aberrant signal transduction in different immune cells. These events constitute the cellular and molecular bases in the pathogenesis of PID. The main clinical consequences of PID include tissue damages and increased susceptibility to opportunistic pathogens caused by refractory inflammation and suppressed adaptive immunity. In order to decrease the morbidity of these lethal complications, efforts to improve the immune dysfunction after burn injury have been made not only at the integral level of etiological factors, but also at the cellular and molecular levels of its mechanisms. In this review, all these above-mentioned aspects of PID are comprehensively discussed.
Burns ; immunology ; Humans ; Immune System Diseases ; etiology ; prevention & control

Autistic Disorder ; immunology ; physiopathology ; Humans ; Immune System ; physiopathology

A mysterious puzzle in immunology is how the immune system decides what types of immune response to initiate against various stimuli. Although much is known about control of T helper 1 (Th1) and Th17 responses, the mechanisms that initiate Th2 responses remain obscure. Antigen-presenting cells, particularly dendritic cells (DCs), are mandatory for the induction of a Th cell response. Numerous studies have documented the organizing role of DCs in this process. The present review summarizes the fundamental roles of DCs in inducing Th2 responses.
Allergy and Immunology ; Antigen-Presenting Cells ; Dendritic Cells* ; Immune System

Hepatitis B Surface Antigens ; blood ; immunology ; Hepatitis B, Chronic ; immunology ; Humans ; Immune System