ABSTRACT
Hormones are known to influence various body systems that include skeletal, cardiac, digestive, excretory, and immune systems. Emerging investigations suggest the key role played by secretions of endocrine glands in immune cell differentiation, proliferation, activation, and memory attributes of the immune system. The link between steroid hormones such as glucocorticoids and inflammation is widely known. However, the role of peptide hormones and amino acid derivatives such as growth and thyroid hormones, prolactin, dopamine, and thymopoietin in regulating the functioning of the immune system remains unclear. Here, we reviewed the findings pertinent to the functional role of hormone-immune interactions in health and disease and proposed perspective directions for translational research in the field.
Subject(s)
Endocrine System Diseases/metabolism , Endocrine System/metabolism , Growth Hormone/metabolism , Immune System Diseases/metabolism , Immune System/metabolism , Prolactin/metabolism , Thymocytes/metabolism , Animals , Cell Communication , Cytokines/genetics , Cytokines/immunology , Cytokines/metabolism , Dopamine/genetics , Dopamine/immunology , Dopamine/metabolism , Endocrine System/cytology , Endocrine System/immunology , Endocrine System Diseases/genetics , Endocrine System Diseases/immunology , Endocrine System Diseases/pathology , Glucocorticoids/genetics , Glucocorticoids/immunology , Glucocorticoids/metabolism , Growth Hormone/genetics , Growth Hormone/immunology , Humans , Immune System/cytology , Immune System/immunology , Immune System Diseases/genetics , Immune System Diseases/immunology , Immune System Diseases/pathology , Lactotrophs/cytology , Lactotrophs/immunology , Lactotrophs/metabolism , Prolactin/genetics , Prolactin/immunology , Receptors, Dopamine/genetics , Receptors, Dopamine/immunology , Receptors, Dopamine/metabolism , Somatotrophs/cytology , Somatotrophs/immunology , Somatotrophs/metabolism , Thymocytes/cytology , Thymocytes/immunology , Thyroid Hormones/genetics , Thyroid Hormones/immunology , Thyroid Hormones/metabolismABSTRACT
OBJECTIVE: Two stable subpopulations of somatotrophs reside in the rat pituitary gland. We tested the hypothesis that one produced growth hormone (GH) with greater activity when tested in the tibial line bioassay (BGH) than the other, while differences in the activities between the two groups would be less dramatic when measured by immunoassay (IGH). DESIGN: A series of studies using hypophysectomized rats, hollow fibers, treatments and culture models were used to differentiate differences in Type I and Type II anterior pituitary somatotrophs in both function and production of immunoactive and bioactive growth hormone. RESULTS: We found that dense, Type II somatotrophs (>1.070g·cm-3) differed markedly in their secretion patterns of IGH vs BGH in different In vitro and in vivo tests. In culture, Type II cells secreted five times as much BGH, and three fourths as much IGH as the less dense Type I cells. Production (storage and secretion) of BGH was 7-fold greater by Type II cells whereas IGH production was identical for the two cell types. Implantation of Type II cells into hypophysectomized rats significantly increased body weight, epiphyseal cartilage thickness, and muscle weight of the recipients; in contrast, Type I cells elicited only a small increase in body weight. Type I somatotrophs isolated from rats which had been previously fasted or insulin-treated subsequently showed only small, inconsistent changes in release relative to that from cells in the unfractionated cell population. However, release of BGH from the Type II cells was markedly decreased. CONCLUSION: Both IGH and BGH should be considered in the elucidation of GH physiology.
Subject(s)
Growth Hormone/metabolism , Muscle, Skeletal/metabolism , Pituitary Gland/metabolism , Somatotrophs/metabolism , Tibia/metabolism , Animals , Biological Assay , Body Weight , Cells, Cultured , Male , Muscle, Skeletal/immunology , Pituitary Gland/immunology , Radioimmunoassay , Rats , Somatotrophs/immunology , Tibia/immunologyABSTRACT
BACKGROUND: Some cases of apparently idiopathic GH deficiency (GHD) may be caused by pituitary autoimmunity. OBJECTIVE: To study the variations in pituitary function and antipituitary antibodies (APA) from childhood to transition age in patients with apparently idiopathic GHD. DESIGN: We conducted a longitudinal study. PATIENTS AND METHODS: Pituitary function and APA detection by immunofluorescence were investigated in 24 childhood patients with isolated GHD before starting recombinant GH therapy and after the stopping of this therapy in transition age. Sera of patients positive for APA were processed by double immunofluorescence to identify their pituitary target. RESULTS: At diagnosis, 16 out of 24 patients were APA positive targeting only somatotrophs (group 1), while the remaining eight were APA negative (group 2). When retested off therapy, 12 out of 16 patients in group 1 persisted being APA positive, while the remaining four became negative with recovery of pituitary function. All patients in group 2 persisted being APA negative but still showing GHD. Of the 12 patients persistently APA positive, eight with confirmed GHD showed APA still targeting somatotrophs, whereas four showed APA targeting only gonadotrophs associated with isolated hypogonadotropic hypogonadism (HH). CONCLUSION: Patients with APA at middle but not at high titer in childhood may show a remission of autoimmune GHD in childhood after GH replacement therapy. As APA may shift their target in transition period, an early characterization of APA by double immunofluorescence is advisable in APA positive GHD patients showing delayed puberty, to allow an early diagnosis and an appropriate therapy, thus preventing the progression toward HH.
