Most of perinatological phenomenona and diseases are closely related with immune reaction. Most of initial immune responses occur through innate immunity and most causes, such as mechanical damage, hypoxia, and hyperoxia, are self and microorganisms are non-self, all of which are related with immune reaction concept. However, researches on perinatology are mainly focused on specific one or two causes of perinatal diseases, so often there is limitation to understand the basic concepts and phenomenona of the perinatal diseases. Through understanding of immune reaction concept, we can apply immune reaction theory to researches in perinatology and we can understand phenomenona in perinatology through knowledge of immune reaction. Therefore it is essential to understand historical development of immunology and concept of immune reaction for researches and treatment of perinatology.
Allergy and Immunology ; Anoxia ; Hyperoxia ; Immunity, Innate ; Perinatology*

Hepatitis C ; immunology ; pathology ; Immunity, Innate

Hepatitis B ; etiology ; immunology ; therapy ; Humans ; Immunity, Cellular ; Immunity, Innate

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

Vaccination is an effective strategy to prevent infectious or immune related diseases, which has made remarkable contribution in human history. Recently increasing attentions have been paid to mucosal vaccination due to its multiple advantages over conventional ways. Subunit or peptide antigens are more reasonable immunogens for mucosal vaccination than live or attenuated pathogens, however adjuvants are required to augment the immune responses. Many mucosal adjuvants have been developed to prime desirable immune responses to different etiologies. Compared with pathogen derived adjuvants, innate endogenous molecules incorporated into mucosal vaccines demonstrate prominent adjuvanticity and safety. Nowadays, cytokines are broadly used as mucosal adjuvants for participation of signal transduction of immune responses, activation of innate immunity and polarization of adaptive immunity. Desired immune responses are promptly and efficaciously primed on basis of specific interactions between cytokines and corresponding receptors. In addition, some other innate molecules are also identified as potent mucosal adjuvants. This review focuses on innate endogenous mucosal adjuvants, hoping to shed light on the development of mucosal vaccines.
Adjuvants, Immunologic ; Animals ; Humans ; Immunity, Innate ; immunology ; Immunity, Mucosal ; immunology ; Vaccines ; administration & dosage ; immunology

Autoimmunity ; Humans ; Immunity, Innate ; Liver Cirrhosis, Biliary ; immunology

The innate immune system acts as the first line of defense against pathogens, which is also essential for initiation of adaptive immunity. Innate immune responses are initiated by pattern-recognition receptors (PRRs), which recognize conserved molecular structures of pathogens called pathogen-associated molecular patterns (PAMPs). The infection of virus triggers a series of signaling events leading to transcriptional induction of type I interferons (IFNs) and proinflammatory cytokines. In recent years, the mechanisms of viral RNA recognition and RNA virus-triggered signaling pathways have been well studied. However, it remains unclear on how DNA virus infection is sensed by host cells and triggers the host antiviral defense. Although ten potential viral DNA sensors have been reported, none of them is validated as a generally used sensor for distinct DNA viruses in divergent cell types and animals. Here, we provide a summary and perspective on recent advances in innate immune responses to DNA viruses.
Animals ; DNA Viruses ; immunology ; Humans ; Immunity, Innate ; Proteins ; metabolism

AIDS Vaccines ; immunology ; China ; Cross Reactions ; Genetic Vectors ; HIV-1 ; immunology ; Humans ; Immunity, Innate ; Immunity, Mucosal

Toll like receptor (TLR) can specifically recgnize pathogen-associated molecular patterns (PAMPs) and is considered as an important link between innate and adaptive immunity. It has been shown that TLR plays an important role in the pathogenesis and pathophysiology of a variety of skin diseases. Moreover, TLR agonists have exhibited promising therapeutic effects on the disease models and are expected to be novel vaccine adjuvants. Investigations of the underlying mechanism will give new insights into these diseases. This review will discuss the relationship between TLR and pathogenesis and management of some cutaneous diseases.
Adaptive Immunity ; Immunity, Innate ; Signal Transduction ; Skin Diseases ; immunology ; metabolism ; Toll-Like Receptors ; immunology ; metabolism ; physiology

MicroRNAs (miRNAs) are critical regulators of the host immune and inflammatory response against bacterial pathogens. In the present review, we discuss target genes, target gene functions, the potential regulatory role of miRNAs in periodontal tissues, and the potential role of miRNAs as biomarkers and therapeutics. In periodontal disease, miRNAs exert control over all aspects of innate and adaptive immunity, including the functions of neutrophils, macrophages, dendritic cells and T and B cells. Previous human studies have highlighted some key miRNAs that are dysregulated in periodontitis patients. In the present study, we mapped the major miRNAs that were altered in our reproducible periodontitis mouse model relative to control animals. The miRNAs that were upregulated as a result of periodontal disease in both human and mouse studies included miR-15a, miR-29b, miR-125a, miR-146a, miR-148/148a and miR-223, whereas miR-92 was downregulated. The association of individual miRNAs with unique aspects of periodontal disease and their stability in gingival crevicular fluid underscores their potential as markers for periodontal disease progression or healthy restitution. Moreover, miRNA therapeutics hold great promise for the future of periodontal therapy because of their ability to modulate the immune response to infection when applied in conjunction with synthetic antagomirs and/or relatively straightforward delivery strategies.
Adaptive Immunity ; Animals ; Biomarkers ; Disease Progression ; Humans ; Immunity, Innate ; MicroRNAs ; genetics ; immunology ; Periodontal Diseases ; genetics ; immunology