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Immune changes and neurotransmitters: possible interactions in depression?
Sperner-Unterweger, B, Kohl, C, Fuchs, D
Progress in neuro-psychopharmacology & biological psychiatry. 2014;:268-76
Abstract
A disturbed metabolism of catecholamines and other neurotransmitters appears to play a major role in the pathogenesis of neurospychiatric symptoms, such as changes in mood and depression. This symptomatology is common in patients with chronic inflammatory disorders such as infections, autoimmune diseases, or cancer. The pathogenesis of these symptoms is still unclear. Pro-inflammatory stimuli interfere not only with the neural circuits and neurotransmitters of the serotonergic system but also with those of the adrenergic system. The pro-inflammatory cytokine interferon-γ stimulates the biosynthesis of 5,6,7,8-tetrahydrobiopterin (BH4), which is a co-factor for several aromatic amino acid mono-oxygenases and is rate-limiting for the biosynthesis of the neurotransmitter serotonin and the catecholamines dopamine, epinephrine (adrenaline) and norepinephrine (noradrenaline). Interferon-γ triggers the high output of reactive oxygen species in macrophages, which can destroy the oxidation-labile BH4. Recent data suggests that oxidative loss of BH4 in chronic inflammatory conditions can reduce the biosynthesis of catecholamines, which may relate to disturbed adrenergic neurotransmitter pathways in patients.
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The role of neural-related factors in the metastasis of the gastrointestinal cancer.
Xu, XT, Xu, B, Song, QB, Zeng, H
Journal of cancer research and therapeutics. 2013;:S123-8
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Abstract
Neurotransmitters are identified to be endogenous chemicals and act on neurons to transmit signals to each other or to a target cell across synapse. They are involved in many brain functions including analgesia, reward, food intake, metabolism, reproduction, social behaviors, learning, and memory. Recently, sympathetic nerve fibers were detected in many solid tumors including gastrointestinal cancer, supporting the idea that neural system has effects on tumor progression. Neurotransmitters were secreted from the sympathetic nerve fibers and subsequently infiltrated into tumor tissues. Further studies disclosed the different mechanisms of various kinds of neurotransmitters in the progression of carcinogenesis, including tumor cell proliferation, angiogenesis, and tumor invasion and metastasis. Neurotransmitters are mainly subdivided into four types, amino acids, monoamines, peptides, and others, each of which contains multiple chemicals. For this reason, we cannot describe each in detail. In this review, we will focus on several important neurotransmitters including tachykinis, neuropeptide Y, and b-adrenergic receptors. How they function and their crosstalks with the immune system in the progression, especially the metastasis of gastrointestinal cancer, will be described. Finally, we will summarize the clinical implications in the treatment of gastrointestinal cancer.
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Effects of soybean peptide on immune function, brain function, and neurochemistry in healthy volunteers.
Yimit, D, Hoxur, P, Amat, N, Uchikawa, K, Yamaguchi, N
Nutrition (Burbank, Los Angeles County, Calif.). 2012;(2):154-9
Abstract
OBJECTIVE Soybeans, an excellent source of dietary peptides, have beneficial effects on health. We investigated the effect of the soybean peptide on immune function, brain function, and neurochemistry in healthy volunteers. METHODS Near-infrared spectroscopy (NIRS) was used to analyze brain cerebral blood flow. The A and DA levels in the serum were analyzed by ELISA kit. The total number of leukocytes was recorded with a standard counter. Flow cytometry was used to assess lymphocyte subset levels. RESULTS Cell numbers were upregulated in the group that had fewer leukocytes but downregulated in the group with more leukocytes. For the lymphocyte-rich type, lymphocyte counts tended to decrease, accompanied by an increase in granulocyte numbers. For the granulocyte-rich type, granulocyte counts tended to increase, but lymphocyte counts also increased. The numbers of CD11b(+) cells and CD56(+) cells increased significantly. Soybean peptide decreased the adrenalin level in plasma but increased the level of dopamine. Near-infrared spectroscopy showed significant increases in the amplitudes of θ, α-2, and β-L frequency bands after the ingestion of peptides. CONCLUSION Soybean peptides can modulate cellular immune systems, regulate neurotransmitters, and boost brain function.
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Neurohormonal activation in acute heart failure: results from VERITAS.
Milo-Cotter, O, Cotter-Davison, B, Lombardi, C, Sun, H, Bettari, L, Bugatti, S, Rund, M, Metra, M, Kaluski, E, Kobrin, I, et al
Cardiology. 2011;(2):96-105
Abstract
OBJECTIVES Recent heart failure studies have suggested that inflammatory and immune system activation are associated with increased levels of cytokines, chemokines and inflammatory proteins during acutely decompensated heart failure. The objectives of this substudy were to evaluate the role of neurohormonal and inflammatory activation in the pathogenesis and outcome of acute heart failure (AHF) and the correlation between biomarker levels and clinical outcomes. METHODS Serum levels of B-type natriuretic peptide-32 (BNP-32), endothelin-1 (ET-1), norepinephrine, troponins I and T, C-reactive protein (CRP), von Willebrand factor, plasminogen activator inhibitor-1, interleukin-6 (IL-6) and tissue plasminogen activator (TPA) were measured at baseline, 24 and 48 h and 7 and 30 days in 112 patients with AHF recruited to the Value of Endothelin Receptor Inhibition with Tezosentan in Acute Heart Failure Study neurohormonal substudy. RESULTS On univariable analysis, CRP, BNP and ET-1 were predictive of worsening heart failure by day 30; when considered together, only CRP and BNP were significantly associated with this outcome. On adjustment for age, baseline blood pressure, serum sodium and serum creatinine, only age and BNP remained significant. CRP, IL-6 and TPA levels were significantly correlated with 180-day mortality on univariable analysis. CONCLUSION Circulating markers of inflammation may be useful in gauging prognosis in patients with AHF.
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Glycine--an important neurotransmitter and cytoprotective agent.
Gundersen, RY, Vaagenes, P, Breivik, T, Fonnum, F, Opstad, PK
Acta anaesthesiologica Scandinavica. 2005;(8):1108-16
Abstract
BACKGROUND Glycine, the simplest of the amino acids, is an essential component of important biological molecules, a key substance in many metabolic reactions, the major inhibitory neurotransmitter in the spinal cord and brain stem, and an anti-inflammatory, cytoprotective, and immune modulating substance. MATERIAL AND METHODS Based on available literature, we discuss some of the important biological properties of glycine. In addition, we describe some clinical disorders where glycine plays a central role, either as an essential structural element, or through its metabolism or receptors. RESULTS The past few years have witnessed a broadening of glycine research. The traditional prime interest in aspects related to its role as an inhibitory neurotransmitter in the central nervous system has been expanded to equally emphasize other organs and tissues. With the demonstration of glycine-gated chloride channels on neurons in the central nervous system, on most leukocytes, and subsequently on other cells as well, a unifying mechanism of action accounting for many of the widespread effects of glycine has been found. CONCLUSIONS Glycine is a simple, easily available, and inexpensive substance with few and innocuous side-effects. The diversity of biological activities is well documented in the literature. Despite this, glycine has only gained a modest place in clinical medicine.