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Therapeutic Potential of Melatonin
Over the past decade, the potential of the pineal hormone melatonin as a therapeutic agent in a variety of diseases has been recognized. This book is the first to review the effect of melatonin in sleep disorders, its possible use as an immunoregulatory agent and clinical results obtained in cancer immunotherapy. Several papers are devoted to the pharmacological and molecular characterization of melatonin receptors in a variety of cell types. Other contributions further investigate the immunoenhancing effect of melatonin, such as in viral encephalitis and bacterial infections, and consider possible therapeutic indications. Melatonin is also reported to exert important hematopoietic effects by stimulating the production of novel T helper cell opioid cytokines. Other basic studies introduce new perspectives describing melatonin as a potent free radical scavenger. This book should be read by clinicians working in the fields of sleep disorders, oncology and infectious diseases as well as by scientists active in the field of neuroimmunomodulation. It will also be very useful to all those interested in melatonin as a therapeutic agent.
Neuroimmune System
The book explores the intricate connections between the nervous and immune systems in the context of neurodegenerative disorders, offering a comprehensive overview of the bidirectional communication between these systems and their implications for disease progression and therapeutic interventions. The book aims to understand the recent developments in the field of neuroimmune communication. Key Features: In-depth analysis of immunological biomarkers and therapeutic targets for neurodegenerative disorders. Exploration of the role of glial cells in neuroimmune interactions and their dual nature in disease pathology. Examination of short- and long-range interactions between the central nervous ...
Enkephalins and Endorphins
Is this a time for a sleeping giant to rise? We have known since study of the lymphocyte and plasma cells really began in earnest in the early 1940's that the pituitary adrenal axis under intimate control of the hypothalamus could influence immunological functions profoundly. We have also known for at least 20 years in my recollection that female sex hor mones can maximize certain immunity functions while male sex hormones tend to suppress many immunological reactions. The thyroid hormones accelerate antibody production while at the same time sp~eding up de gradation of antibodies and immunoglobulins and thyroidectomy decreases the rate of antibody production. Further, much evidence has accu...
Progress in Basic and Clinical Immunology
Progress in Basic and Clinical Immunology is a result of the 14th European Immunology Meeting - EFIS 2000, held in Poznan, Poland, on 23-27 September 2000. EFIS 2000 gathered over 1400 immunologists from all over the world. It was an exceptionally memorable meeting for a number of reasons: 1) it was held in the last year of the century and the millennium, thus provoking conclusions of past achievements of immunology and projections for the future; 2) it was held in Poland, a country that is a symbol of struggle for freedom for a large number of scientists originating from the `Eastern Bloc' countries; and 3) EFIS celebrated its 25th anniversary at this occasion. This comprehensive volume contains 62 chapters grouped into 11 sections: T-cells, Immune Receptors, Antigen Presentation/Dendritic Cells, Cytokines, Immunodeficiencies, Autoimmunity, Allergy/Inflammation, Immunotherapy, Vaccines, Tumor Immunology, and Cancer Immunotherapy.
Crosstalk between the osteogenic and neurogenic stem cell niches: how far are they from each other?
Somatic stem cells reside in definite compartments, known as "niches", within developed organs and tissues, being able to renew themselves, differentiate and ensure tissue maintenance and repair. In contrast with the original dogmatic distinction between renewing and non-renewing tissues, somatic stem cells have been found in almost every human organism, including brain and heart. (HSCs) and mesenchymal stem cells (MSCs), that intensely interacts. HSCs represent the common precursors of all mature blood cells. (Bone, cartilage, blood vessels, adipose tissue, and.), And in the case of the skeletal muscle Supporting connective stroma). Despite this high plasticity, the claim that MSCs could be...
Psychoneuroimmunology, Stress, and Infection
Psychoneuroimmunology is the emerging science devoted to studying the two-way relationship between the nervous and immune systems. Psychoneuroimmunology, Stress, and Infection highlights the latest information concerning microbial infections in both man and animals as related to stress and especially stress hormones. The volume focuses on psychoneuroimmunology as it impacts the immune system in general and also the relationship between neurological events which influence susceptibility and/or resistance to infectious agents such as bacteria, fungi and viruses, as well as parasites. Prominent researchers describe the involvement of the hypothalamus-pituitary-adrenal (HPA) axis on immunity as ...
Immunoendocrinology in Health and Disease
One of the first comprehensive references dealing specifically with this new field of interdisciplinary research in medicine, Immunoendocrinology in Health and Disease offers a full scientific picture of where the immune and neuroendocrine systems intersect-placing current understanding of system components, mechanisms, and functions side by side w
Advancement of Melatonin Research in Plants
Melatonin (N-acetyl-5-methoxytryptamine) is a widely studied biomolecule, and its function has been investigated in bacteria, mammals, birds, amphibians, reptiles, fish and plants. Melatonin research in plants the last five years has attained an exponential growth phase and the number of publications related to phytomelatonin has significantly increased in present times. All this research is directed towards establishing multifarious roles of melatonin in plants, including the promotion of seed germination and seedling growth, influencing plant development and senescence, alteration of flowering and fruiting time and grain yield, modulating circadian rhythms, improving resistance against bio...
Molecular Biology of Hematopoiesis 5
This volume of Molecular Biology of Hematopoiesis is dedicated to John W. Adam son, M. D. , Tadamitsu Kishimoto, M. D. , Robert C. Gallo, M. D. , Arthur W. Nienhuis, M. D. , and Franco Mandelli, M. D. , for their contributions in developing an overall view of the state-of-the-art knowledge in the field of hematopoiesis. Richard Champlin, among other renowned clinicians, presented updated information on stem cells and T-cell depletion for bone marrow transplant. A clinical update on thrombopoietin was presented by Pamela Hunt of Amgen and by Kenneth Kaushansky. Arthur Nienhuis' and Katherine Turner's contribu tions to our current knowledge and advances in the fields of growth factors and gene...
The Pineal Gland and Cancer
The link between the pineal gland and cancer is a rapidly emerging research field due to promising experimental and clinical trials with melatonin. The pineal gland acts as a transducer of environmental light to regulate rhythmic processes, including reproductive function in seasonally breeding animals and the entrainment of circadian rhythms, such as the sleep-wake cycle, in man. This book elucidates the physiological significance of the pineal gland and surveys phenomena and mechanisms of pineal - tumor interaction at the neuroendocrine, neuroimmune, neural, and molecular levels. Yet unidentified low-molecular-weight pineal substances with tumor-inhibiting capacity, a possible involvement of melatonin in electromagnetic field effects on cancer, and the oncotherapeutic potential of melatonin are also addressed. The encouraging results should incite further research to elucidate the exact nature of the link between the pineal gland and cancer for the benefit of patients.
