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This cutting-edge, interdisciplinary volume describes established and state of the art approaches for exploring the pathways that influence and control appetite, including: behavioural, electrophysiological, neuroanatomical, gene knockout and pharmacological techniques. The book presents key peptide and neurotransmitter systems, together with newly emerging concepts of metabolic signalling and hypothalamic inflammation. The impact of early life experience on neuroendocrine appetite circuits is also looked at, including early programming of these circuits by circulating hormones. Finally, new…mehr
This cutting-edge, interdisciplinary volume describes established and state of the art approaches for exploring the pathways that influence and control appetite, including: behavioural, electrophysiological, neuroanatomical, gene knockout and pharmacological techniques. The book presents key peptide and neurotransmitter systems, together with newly emerging concepts of metabolic signalling and hypothalamic inflammation. The impact of early life experience on neuroendocrine appetite circuits is also looked at, including early programming of these circuits by circulating hormones. Finally, new emerging therapeutic approaches to appetite suppression are discussed, including those linked to bariatric (weight loss) surgery. Neuroendocrinology of Appetite is especially focused on established and emerging technologies and approaches for investigating appetite control. It is written so as to provide an overview of sufficient depth for an undergraduate or new scientist in the field to come up to speed in the complementary approaches used by researchers in this field. Taking an interdisciplinary approach, the book aims to appeal to all those with a basic, clinical or therapeutic interest in research into obesity and eating disorders.
Professor Suzanne L Dickson, The Sahlgrenska Academy of the University of Gothenberg, Sweden Professor Julian G. Mercer, Rowett Institute of Nutrition and Health, University of Aberdeen, UK
Inhaltsangabe
Foreword vii List of Contributors ix Series Preface xi About the Companion Website xiii 1 Neuroanatomy of Feeding Pathways 1 Brian J. Oldfield, Paul N. Mirabella, and Aneta Stefanidis 2 Afferent Endocrine Control of Eating 24 Wolfgang Langhans and Jens Juul Holst 3 Ontogeny of Neuroendocrine Feeding Circuits 55 Sophie Croizier and Sebastien G. Bouret 4 Hypothalamic Peptides and Meal Patterns 76 Yada Treesukosol and Timothy H. Moran 5 Food Hedonics: Insight from Animal Models 90 Karolina P. Skibicka and Scott E. Kanoski 6 Functional and Anatomical Dissection of Feeding Circuits 112 Deniz Atasoy and Scott M. Sternson 7 Exploring Appetite and Hypothalamic Circuitry through Manipulating Gene Expression 134 Tara Jois and Mark W. Sleeman 8 Electrophysiology of the Appetite-Regulating Circuits of the Hypothalamus 151 Nancy Sabatier, John Menzies, and Gareth Leng 9 Functional Neuroimaging of Appetite and Gut-Brain Interactions 174 Paul A.M. Smeets and Hubert Preissl 10 Appetite Disorders: From Binge Eating to Anorexia Nervosa 201 Mathieu Méquinion, Susanne la Fleur, and Odile Viltart 11 Future Prospects of the Management of Appetite Disorders Bariatric Surgery 224 Carel le Roux and Karl Neff 12 Discovery of New Drugs for Weight Loss and Prevention of Weight Regain 247 Anders Lehmann, Udo Bauer, Stephan Hjorth, Rudolph L. Leibel and Michael Rosenbaum Index 000
1. Early Life and Environmental Influences * Early life programming (nutrition, stress) and epigenetics * Circadian/circannual influences * Gender/sex differences
2. Neuroanatomy of feeding pathways * Tract tracing/ pathways * Circuits, proteins, genes * Techniques: Immunocytochemistry, GFP-labelling of neurones, in situ hybridization, immediate early genes, tract tracing
3. Human Functional Brain Imaging
4. Appetite disorders * Clinical and preclinical models * Anorexia, binge eating and compulsive (over)eating.
5. Exploring appetite and hypothalamic circuitry through manipulating gene expression * Whole animal KOs and over-expression * Tissue/Cell specific gene manipulations * Inducible-knockouts, reporter lines * AAV delivery?
6. Peptide and catecholaminergic regulators of appetite
7. Appetite-regulating pathways revealed through optogenetics.
8. Metabolic signaling
9. Hypothalamic inflammation in obesity: impact on appetite * Topic should include glial cells and also impact on POMC neurons.
10. Hedonics * Historic landmarks and use of knowledge from chemical drug reward. * How to investigate hedonic pathways. * Pros and cons of different techniques. * How to interpret data arising. * Integration of peripheral signals and CNS signals
11. Afferent endocrine regulation * Historic studies identifying the existence of circulating satiety factor(s) and leptin's discovery. * Hormones provide a tool to explore metabolic control of appetite pathways. Signal integration. Assay issues. * Fasting versus fed; obese versus lean, Pathophysiology
12. Ontogeny of energy balance circuits
13. Electrophysiology of appetite Recording from isolated cells, tissue slices, terminal prep in vivo, free living animals.
14. Future prospects of the management of appetite disorders: Bariatric surgery * Bariatric procedures * Experimental surgical models eg vagal deafferentation * Neurobiological mechanism * new knowledge emerging
15. New emerging therapeutic approaches to for appetite suppression * Logical drug design * High throughput * Cross-over drugs from other research areas e.g. topiramate * Double hit drugs (series/parallel)
Foreword vii List of Contributors ix Series Preface xi About the Companion Website xiii 1 Neuroanatomy of Feeding Pathways 1 Brian J. Oldfield, Paul N. Mirabella, and Aneta Stefanidis 2 Afferent Endocrine Control of Eating 24 Wolfgang Langhans and Jens Juul Holst 3 Ontogeny of Neuroendocrine Feeding Circuits 55 Sophie Croizier and Sebastien G. Bouret 4 Hypothalamic Peptides and Meal Patterns 76 Yada Treesukosol and Timothy H. Moran 5 Food Hedonics: Insight from Animal Models 90 Karolina P. Skibicka and Scott E. Kanoski 6 Functional and Anatomical Dissection of Feeding Circuits 112 Deniz Atasoy and Scott M. Sternson 7 Exploring Appetite and Hypothalamic Circuitry through Manipulating Gene Expression 134 Tara Jois and Mark W. Sleeman 8 Electrophysiology of the Appetite-Regulating Circuits of the Hypothalamus 151 Nancy Sabatier, John Menzies, and Gareth Leng 9 Functional Neuroimaging of Appetite and Gut-Brain Interactions 174 Paul A.M. Smeets and Hubert Preissl 10 Appetite Disorders: From Binge Eating to Anorexia Nervosa 201 Mathieu Méquinion, Susanne la Fleur, and Odile Viltart 11 Future Prospects of the Management of Appetite Disorders Bariatric Surgery 224 Carel le Roux and Karl Neff 12 Discovery of New Drugs for Weight Loss and Prevention of Weight Regain 247 Anders Lehmann, Udo Bauer, Stephan Hjorth, Rudolph L. Leibel and Michael Rosenbaum Index 000
1. Early Life and Environmental Influences * Early life programming (nutrition, stress) and epigenetics * Circadian/circannual influences * Gender/sex differences
2. Neuroanatomy of feeding pathways * Tract tracing/ pathways * Circuits, proteins, genes * Techniques: Immunocytochemistry, GFP-labelling of neurones, in situ hybridization, immediate early genes, tract tracing
3. Human Functional Brain Imaging
4. Appetite disorders * Clinical and preclinical models * Anorexia, binge eating and compulsive (over)eating.
5. Exploring appetite and hypothalamic circuitry through manipulating gene expression * Whole animal KOs and over-expression * Tissue/Cell specific gene manipulations * Inducible-knockouts, reporter lines * AAV delivery?
6. Peptide and catecholaminergic regulators of appetite
7. Appetite-regulating pathways revealed through optogenetics.
8. Metabolic signaling
9. Hypothalamic inflammation in obesity: impact on appetite * Topic should include glial cells and also impact on POMC neurons.
10. Hedonics * Historic landmarks and use of knowledge from chemical drug reward. * How to investigate hedonic pathways. * Pros and cons of different techniques. * How to interpret data arising. * Integration of peripheral signals and CNS signals
11. Afferent endocrine regulation * Historic studies identifying the existence of circulating satiety factor(s) and leptin's discovery. * Hormones provide a tool to explore metabolic control of appetite pathways. Signal integration. Assay issues. * Fasting versus fed; obese versus lean, Pathophysiology
12. Ontogeny of energy balance circuits
13. Electrophysiology of appetite Recording from isolated cells, tissue slices, terminal prep in vivo, free living animals.
14. Future prospects of the management of appetite disorders: Bariatric surgery * Bariatric procedures * Experimental surgical models eg vagal deafferentation * Neurobiological mechanism * new knowledge emerging
15. New emerging therapeutic approaches to for appetite suppression * Logical drug design * High throughput * Cross-over drugs from other research areas e.g. topiramate * Double hit drugs (series/parallel)
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