Hormones and Brain Plasticity.
Başlık:
Hormones and Brain Plasticity.
Yazar:
Garcia-Segura, Luis Miguel.
ISBN:
9780199716821
Yazar Ek Girişi:
Fiziksel Tanımlama:
1 online resource (505 pages)
Seri:
Series in Behavioral Neuroendocrinology
İçerik:
Contents -- Preface and Acknowledgments -- Chapter 1 Hormones and the Mutable Brain -- Introduction: Endocrine Glands, Brain Plasticity, Homeostasis, Allostasis, and Homeodynamics -- The Nervous System is in a Constant State of Remodeling: Cellular Plasticity and Cellular Replacement -- The Classic Concept of Brain Plasticity: Cajal's Heritage -- Cellular Replacement: A New Concept -- Role of Hormones on Brain Mutability: Plasticity and Metaplasticity -- Chapter 2 Brain Plasticity Regulates Hormonal Homeodynamics -- Introduction: Brain Plasticity Regulates the Activity of Endocrine Glands -- Neuroglial Remodeling Associated with Hormonal Secretion by Hypothalamic Magnocellular Neurons -- Neuroglial Remodeling in the Neurohypophysis -- Neuroglial Remodeling Associated with Parvocellular Hypothalamic Neurons -- Neuroglial Remodeling in the Median Eminence -- Brain Plasticity and the Control of Hormonal Homeodynamics: A Recapitulation -- Chapter 3 Hormonal Influences on Brain Plasticity: I. Melatonin, Thyroid Hormones and Corticosteroids -- Introduction: A Large Variety of Hormones Regulate Brain Plasticity -- Hormones or Paracrine Factors? -- Melatonin -- Thyroid Hormones -- Stress, Corticosteroids, and Brain Plasticity -- Chapter 4 Hormonal Influences on Brain Plasticity: II. Sex Hormones -- Introduction: Sex Hormones and Brain Remodeling -- The First Evidences -- Regulation by Estradiol and Progesterone of Synaptic and Glial Remodeling in the Arcuate Nucleus -- Regulation by Estradiol and Progesterone of Synaptic Remodeling in the Ventromedial Hypothalamic Nucleus -- Regulation by Estradiol and Progesterone of Synaptic Remodeling in the Hippocampus -- Regulation by Estradiol and Progesterone of Glial Remodeling in the Hippocampus -- Regulation by Estradiol and Progesterone of Adult Neurogenesis.
Role of Brain Estradiol Synthesis in the Regulation of Synaptic Plasticity and Neuronal Replacement -- Androgens, Synaptic Plasticity, and Cellular Replacement in the Song System of Songbirds -- Androgens and Synaptic Plasticity in Motoneurons -- Androgens, Synaptic plasticity, and Cellular Replacement in the Mammalian Brain -- Chapter 5 Hormonal Influences on Brain Plasticity: III. Peptide Hormones -- Introduction: Peptide Hormones as Regulators of Brain Remodeling -- Vasopressin and Oxytocin -- Corticotropin-Releasing Hormone and Urocortins -- Prolactin -- Gonadotropin-Releasing Hormone -- Insulin -- Growth Hormone/Insulin-Like Growth Factor-I -- Insulin-Like Growth Factor-I and Synaptic Plasticity -- Insulin-Like Growth Factor-I and Adult Neurogenesis -- Interactions of Insulin-Like Growth Factor-I and Estradiol in the Regulation of Brain Plasticity -- Erythropoietin -- Angiotensin -- Feeding Hormones: Leptin, Ghrelin and Glucagon-Like Peptide-1 -- Hormonal Influences on Brain Plasticity: Recapitulation of the Chapters 3, 4 and 5 -- Chapter 6 Life Stages, Hormones, and Brain Remodeling: Early Hormonal Influences on Brain Mutability -- Introduction: Hormonal Imprinting of the Nervous System -- Hormonal Orchestration of Neural Development during Prenatal Life -- Thyroid Hormones -- Sex Hormones -- Enduring Effects of Prenatal Stress -- Peptide Hormones -- Hormonal Regulation of Brain Mutability during Early Postnatal Life -- Metamorphosis in Vertebrates -- Thyroid Hormone Regulation of Postnatal Brain Development in Non-Metamorphic Vertebrates -- Gonadal Hormones -- Stress Hormones -- Peptide Hormones -- Early Hormonal Influences on Brain Mutability: Recapitulation -- Chapter 7 Life Stages, Hormones, and Brain Remodeling: The Transition from Childhood to Adulthood -- Introduction: Prepubertal Maturation, Puberty, and Adolescence.
Brain Remodeling during the Transition from Childhood to Adulthood -- Hormones as Regulators of Brain Plasticity during Prepubertal Maturation, Puberty, and Adolescence -- Brain Remodeling as a Cause of Hormonal Changes during Puberty -- Chapter Summary -- Chapter 8 Life Stages, Hormones, and Brain Remodeling: Adult Reproductive Life -- Introduction: Hormonal Regulation of Brain Plasticity during Adult Life -- Hormones and Circadian Brain Plasticity -- Hormones and Seasonal Brain Plasticity -- Seasonal Brain Plasticity in the Song System of Songbirds -- Extreme Seasonal Brain Plasticity in Mammals: Hibernation -- Brain Plasticity and the Control of Hormonal Homeodynamics in Seasonal Breeders -- Brain Plasticity and Reproductive Cycles in Nonseasonal Breeders -- Brain Structures Controlling GnRH Neurons -- The Ventromedial Hypothalamic Nucleus -- The Hippocampus -- Hormones and Brain Remodeling during Motherhood -- Social Interactions, Hormones, and Brain Plasticity -- Traumatic Experiences, Hormones, and Brain Plasticity -- Chapter Summary -- Chapter 9 Life Stages, Hormones, and Brain Remodeling: Disease and Neuroprotection -- Introduction: Altered Cross Talk between Endocrine Glands and the Brain under Pathological Conditions -- Pathological Brain Remodeling Affects Hormonal Secretions -- Pathological Alterations in Hormonal Levels or Hormonal Signaling Affect Brain Plasticity -- Hormones Regulate Plasticity and Exert Neuroprotective Actions in the Injured Brain -- Peptide Hormones -- Melatonin and Thyroid Hormones -- Steroid Hormones -- Chapter Summary -- Chapter 10 Life Stages, Hormones, and Brain Remodeling: Aging -- Introduction: Changes in Brain Plasticity and Endocrine Function with Aging -- Biological Significance of Endocrine Function Changes with Aging -- Brain Mutability Regulates Aging-Associated Changes in Endocrine Function.
Hormones Regulate Aging-Associated Changes in Brain Mutability -- A Paradox: Unexpected Relations between Brain Aging, Hormones, and Longevity -- Hormone Th erapy and Healthy Brain Aging -- Does Aging Affects Brain Responsiveness to Hormones? -- Does the Brain Have Mechanisms to Counterbalance Hormonal Changes with Aging? -- Opportunities for Therapeutic Intervention: Hormone Therapies and Beyond -- Hormones and Brain Aging: Summary -- Concluding Summary -- Bibliography -- Author Index -- A -- B -- C -- D -- E -- F -- G -- H -- I -- J -- K -- L -- M -- N -- O -- P -- Q -- R -- S -- T -- U -- V -- W -- X -- Y -- Z -- Subject Index -- A -- B -- C -- D -- E -- F -- G -- H -- I -- J -- K -- L -- M -- N -- O -- P -- Q -- R -- S -- T -- U -- V -- W -- Z.
Özet:
The nervous system has a remarkable capacity for self-reorganization, and in this first systematic analysis of the interaction between hormones and brain plasticity, Luis Miguel Garcia-Segura proposes that hormones modulate metaplasticity in the brain. He covers a wide variety of hormones, brain regions, and neuroplastic events, and also provides a new theoretical background with which to interpret the interaction of hormones and brain remodeling throughout the entire life of the organism. Garcia-Segura argues that hormones are indispensable for adequately adapting the endogenous neuroplastic activity of the brain to the incessant modifications in external and internal environments. Their regulation of neuroplastic events in a given moment predetermines new neuroplastic responses that will occur in the future, adapting brain reorganization to changing physiological and behavioral demands throughout the life of the organism. The cross-regulation of brain plasticity and hormones integrates information originated in multiple endocrine glands and body organs with information coming from the external world in conjunction with the previous history of the organism. Multiple hormonal signals act in concert to regulate the generation of morphological and functional changes in neural cells, as well as the replacement of neurons, glial, and endothelial cells in neural networks. Brain remodeling, in turn, is involved in controlling the activity of the endocrine glands and regulating hormonal secretions. This bidirectional adjustment of brain plasticity in response to hormonal inputs, and adjustment of hormonal concentrations in response to neuroplastic events are crucial for maintaining the stability of the inner milieu and for the generation of adequate behavioral responses in anticipation of--and in adaptation to--new social and environmental circumstances
and life events, including pathological conditions.
Notlar:
Electronic reproduction. Ann Arbor, Michigan : ProQuest Ebook Central, 2017. Available via World Wide Web. Access may be limited to ProQuest Ebook Central affiliated libraries.
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