Verfügbarkeit: The biology of human longevity

The biology of human longevity: inflammation, nutrition, and aging in the evolution of life spans

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Bibliographische Detailangaben
1. Verfasser:	Finch, Caleb Ellicott 1939- (VerfasserIn)
Format:	Buch
Sprache:	English
Veröffentlicht:	San Diego, Calif. [u.a.] Elsevier, Acad. Press 2007
Schlagworte:	Longevity > Physiological aspects Aging > Physiological aspects Inflammation Nutrition Altern Physiologie Langlebigkeit Lebensdauer
Online-Zugang:	Inhaltsverzeichnis
Beschreibung:	Literaturverz. S. 417 - 599
Beschreibung:	XIII, 626 S. Ill., graph. Darst.
ISBN:	9780123736574

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adam_text	CONTENTS Preface xi Acknowledgments xiii Chapter 1 Inflammation and Oxidation in Aging and Chronic Diseases PARTI 1.1. Overview 2 1.2. Experimental Models for Aging 10 1.2.1. Mortality Rate Accelerations 10 1.2.2. Mammals 12 1.2.3 Cultured Cell Models and Replicative Senescence 31 1.2.4. Invertebrate Models 32 1.2.5. Yeast 34 1.2.6. The Biochemistry of Aging 35 1.2.7. Biomarkers of Aging and Mortality Risk Markers 42 1.2.8. Evolutionary Theories of Aging 44 1.3. Outline of Inflammation 49 1.3.1. Innate Defense Mechanisms 50 1.3 2. Genetic Variations of Inflammatory Responses 54 1.3 3. Inflammation and Energy 56 1.3.4. Amyloids and Inflammation 59 1.4. Bystander Damage and Dependent Variables in Senescence 60 1.4.1. Free Radical Bystander Damage (Type 1) 61 1.4.2. Glyco oxidation (Type 2) 63 1.4.3 Chronic Proliferation (Type 3) 63 1.4.4. Mechanical Bystander Effects (Type 4) 64 PARTII 1.5. Arterial Aging and Atherosclerosis 65 1.5.1. Overview and Ontogeny 66 v vi Contents 1.5.2. Hazards of Hypertension 74 1.5.3 Mechanisms 75 1.5.3.1. Inflammation 75 1.5.3.2. Hemodynamics 79 1.5.3.3. Aging 81 1.5.3.4. Endothelial Progenitor Cells 84 1.5.4. Blood Risk Factors for Vascular Disease and Overlap with Acute Phase Responses 84 1.6. Alzheimer Disease and Vascular related Dementias 86 1.6.1. Neuropathology of Alzheimer Disease 87 1.6.2. Inflammation in Alzheimer Disease 91 1.6.3 Prodromal Stages of Alzheimer Disease 94 1.6.4. Overlap of Alzheimer and Cerebrovascular Changes 95 1.6.5. Insulin and IGF 1 in Vascular Disease and Alzheimer Disease 99 1.6.6. Blood Inflammatory Proteins: Markers for Disease or Aging, or Both? 101 1.7. Inflammation in Obesity 103 1.8. Processes of Normal Aging in the Absence of Specific Diseases 106 1.8.1. Brain 107 1.8.2. Generalized Inflammatory Changes in Normal Tissue Aging 107 1.9. Summary 112 Chapter 2 Infections, Inflammogens, and Drugs 2.1. Introduction 114 2.2. Vascular Disease 114 2.2.1. Historical Associations of Infections and Vascular Mortality 114 2.2.2. Modern Serologic Associations 115 2.3. Infections from the Central Tube: Metchnikoff Revisited 121 2.3.1. Humans: Leakage from Periodontal Disease and Possibly the Lower Intestine 121 2.3 2. Worms and Flies as Models for Human Intestinal Microbial Intrusion 125 2.4. Aerosols and Dietary Inflammogens 126 2.4.1. Aerosols 127 2.4.2. Food 129 Contents vii 2.5. Infections, inflammation, and life Span 131 2.5.1. Historical Human Populations 131 2.52. Longer Rodent Life Spans with Improved Husbandry 136 2.6. Are Infections a Cause of Obesity? 142 2.7. Inflammation, Dementia, and Cognitive Decline 143 2.7.1. Alzheimer Disease 143 2.7.2. HIV, Dementia, and Amyloid 145 2.7.3 Peripheral Amyloids 147 2.7.4. Inflammation and Cognitive Decline During Usual Aging 147 2.8. Immunosenescence and Stem Cells 150 2.8.1. Immunosenescence and Cumulative Exposure 150 2.8.2. Immunosenescence and Telomere Loss 152 2.8.3 Inflammation and Stem Cells 153 2.9 Cancer, Infection, and inflammation 154 2.9 1. Helicobacter Pylori and Hepatitis B Virus 154 2.92. Smoking and Lung Cancer 156 2.10. Pharmacopleiotropies in Vascular Disease, Dementia, and Cancer 158 2.10.1. Anti inflammatory and Anti coagulant Drugs 158 2.10.2. Aspirin and Other NSAIDs 161 2.10.3. Statins 162 2.10.31. Vascular Disease 162 2.10.3.2. Dementia 164 2.10.4. Sex Steroid Replacement (Hormone Therapy) 165 2.10.5. Plant derived Micronutrients and Neutriceuticals 169 2.11. Summary 172 Chapter 3 Energy Balance, Inflammation, and Aging 3.1. Introduction 176 3.2. Diet Restriction and Aging 177 3.2.1. Overview of Animal Models 177 3.2.2. Diet Restriction and Disease in Rodent Models 184 3 2.3. Diet Restriction, Starvation, Vascular Disease, and Longevity in Humans 186 3.2.4. Diet Restriction, Infections and Inflammation 192 3 2.5. Somatic Repair and Regeneration 199 viii Contents 3.3. Energy Sensing in Diet Restriction and Satiety 200 3.3.1. Physiology 201 3.3.2. Biochemistry 202 3.3.3. Relevance to Arterial Disease and Cancer 210 3.4. Exercise, Cardiovascular Health, and Longevity 211 3.4.1. Humans 212 3.4.2. Rodent Models 215 3.4.3. Mechanisms in Exercise and Longevity 216 3.5. Diet, Exercise, and Neurodegeneration 219 3.5.1. Alzheimer Disease 219 3.5.2. Synaptic Atrophy in the Absence of Neurodegeneration 221 3.6. Laboratory Rodents as Models 225 for the Couch Potato 3.7. Energy Balance in the Life History 228 3.8. Summary 231 Chapter 4 Nutrition and Infection in the Developmental Influences on Aging 4.1. Introduction 234 4.2. Synopsis of the Fetal Origins Theory 236 4.3. The Barker Studies of Infections 241 and Vascular Disease 4.4. Size, Health, and Longevity 245 4.4.1. Adult Height, Vascular Disease, and Longevity 246 4.4.2. Size at Birth and Adult Height 249 4.4.3. Criteria for Growth Retardation 252 4.4.4. Maternal Metabolism and Fetal Growth 254 4.4.5. Birth Size and Adult Vascular and Metabolic Disease 258 4.4.6. Twins: Small Size at Birth and Catch up Growth, but Normal Longevity 262 4.5. Infection and Undernutrition on Birthweight and Later Disease 262 4.5.1. The Tangle 263 4.5.2. Maternal Infections and Nutrition 263 4.5.3. Smoking and Aerosols 267 Contents ix 4.6. Infection and Nutrition in Postnatal Development and Later Disease 267 4.6.1. Diarrheas in Growth Retardation 267 4.6.2. Seasonal Effects 268 4.6.3 Serum Immune Response Markers of Chronic Infection in Health Poor Children 270 4.6.4. Infections During Development 272 4.6.5. The Cost of Infections to Postnatal Growth: Evidence from Migration and Antibiotics 273 4.6.6. Unknowns 275 4.7. Famine 276 4.7.1. World War II (WWII) 276 4.7.2. 19th Century Famines 286 4.8. Maternal Physiology, Fetal Growth, and Later Chronic Disease 289 4.9 Growth in Adaptive Responses to the Environment 295 4.10. Genomics of Fetal Growth Regulation 298 4.10.1. Inherited Genetic Variations 299 4.10.2. Gene Imprinting: Inherited but Epigenetic Influences on Development 299 4.11. Summary 302 Chapter 5 Genetics 5.1. Introduction 306 5.2. Sources of Individual Variations in Aging and life Span 306 5.3. Sex Differences in Longevity 310 5.4. Metabolism and Host Defense in Worm and Fly 315 5.4.1. Metabolic Gene Signaling 315 5.4.2. Immunity and Metabolism 318 5.5. The Worm 323 5.5.1. Overview 323 5 5.2. Slower Eating Increases Life Span 325 5.5.3 Metabolism and Host Defense 325 5.6. Fly 329 5.6.1. Overview 329 5.6.2. Metabolism and Diet Restriction 330 X Contents 5.6.3. Heart 333 5.6.4. Infections, Host Defense, and Stress Resistance 335 5.6.5. Natural Variations in Longevity Pathways 337 5.7. Mammals 338 5.7.1. Growth and Metabolism 338 5.7.1.1. Rodent Mutants with Altered Insulin Signaling and Fat Metabolism 343 5.7.1.2. Human Hereditary Variations in Metabolic Genes 351 5.7.1.3. Size and Longevity 354 5.7.1.4. The Insulin Sensitivity Paradox 355 5.7.2. Inflammation 355 5.7.3 Lipoproteins and Cholesterol Metabolism 357 5.7.4. ApoE4 Interactions with Diet, Cognition, and Vascular Aging 363 5.7.5. ApoE Alleles, Infection, and Reproduction 368 5.8. Summary 370 Chapter 6 The Human Life Span: Present, Past, and Future 6.1. Introduction 373 6.2. From Great Ape to Human 376 6.2.1. Human Life History Evolution 376 6.2.2. Chimpanzee Aging 383 6.2.3. The Evolution of Meat Eating 385 6.2.4. Meat Adaptive Genes 391 6.2.5. The Increase in Life Expectancy 402 6.3. Four Major Shifts in Human life History from Genetic and Cultural Evolution 404 6.4. The Instability of life Spans 406 6.4.1. Infections 406 6.4.2. Air Quality 409 6.4.3. Obesity and Diabetes 410 6.4.4. Prospects 412 6.5. Summary of Chapters 1 6: Mechanisms in Aging and life History Evolution 413 References 417 Name Index 599 Subject Index 625
adam_txt	CONTENTS Preface xi Acknowledgments xiii Chapter 1 Inflammation and Oxidation in Aging and Chronic Diseases PARTI 1.1. Overview 2 1.2. Experimental Models for Aging 10 1.2.1. Mortality Rate Accelerations 10 1.2.2. Mammals 12 1.2.3 Cultured Cell Models and Replicative Senescence 31 1.2.4. Invertebrate Models 32 1.2.5. Yeast 34 1.2.6. The Biochemistry of Aging 35 1.2.7. Biomarkers of Aging and Mortality Risk Markers 42 1.2.8. Evolutionary Theories of Aging 44 1.3. Outline of Inflammation 49 1.3.1. Innate Defense Mechanisms 50 1.3 2. Genetic Variations of Inflammatory Responses 54 1.3 3. Inflammation and Energy 56 1.3.4. Amyloids and Inflammation 59 1.4. Bystander Damage and Dependent Variables in Senescence 60 1.4.1. Free Radical Bystander Damage (Type 1) 61 1.4.2. Glyco oxidation (Type 2) 63 1.4.3 Chronic Proliferation (Type 3) 63 1.4.4. Mechanical Bystander Effects (Type 4) 64 PARTII 1.5. Arterial Aging and Atherosclerosis 65 1.5.1. Overview and Ontogeny 66 v vi Contents 1.5.2. Hazards of Hypertension 74 1.5.3 Mechanisms 75 1.5.3.1. Inflammation 75 1.5.3.2. Hemodynamics 79 1.5.3.3. Aging 81 1.5.3.4. Endothelial Progenitor Cells 84 1.5.4. Blood Risk Factors for Vascular Disease and Overlap with Acute Phase Responses 84 1.6. Alzheimer Disease and Vascular related Dementias 86 1.6.1. Neuropathology of Alzheimer Disease 87 1.6.2. Inflammation in Alzheimer Disease 91 1.6.3 Prodromal Stages of Alzheimer Disease 94 1.6.4. Overlap of Alzheimer and Cerebrovascular Changes 95 1.6.5. Insulin and IGF 1 in Vascular Disease and Alzheimer Disease 99 1.6.6. Blood Inflammatory Proteins: Markers for Disease or Aging, or Both? 101 1.7. Inflammation in Obesity 103 1.8. Processes of Normal Aging in the Absence of Specific Diseases 106 1.8.1. Brain 107 1.8.2. Generalized Inflammatory Changes in Normal Tissue Aging 107 1.9. Summary 112 Chapter 2 Infections, Inflammogens, and Drugs 2.1. Introduction 114 2.2. Vascular Disease 114 2.2.1. Historical Associations of Infections and Vascular Mortality 114 2.2.2. Modern Serologic Associations 115 2.3. Infections from the Central Tube: Metchnikoff Revisited 121 2.3.1. Humans: Leakage from Periodontal Disease and Possibly the Lower Intestine 121 2.3 2. Worms and Flies as Models for Human Intestinal Microbial Intrusion 125 2.4. Aerosols and Dietary Inflammogens 126 2.4.1. Aerosols 127 2.4.2. Food 129 Contents vii 2.5. Infections, inflammation, and life Span 131 2.5.1. Historical Human Populations 131 2.52. Longer Rodent Life Spans with Improved Husbandry 136 2.6. Are Infections a Cause of Obesity? 142 2.7. Inflammation, Dementia, and Cognitive Decline 143 2.7.1. Alzheimer Disease 143 2.7.2. HIV, Dementia, and Amyloid 145 2.7.3 Peripheral Amyloids 147 2.7.4. Inflammation and Cognitive Decline During 'Usual' Aging 147 2.8. Immunosenescence and Stem Cells 150 2.8.1. Immunosenescence and Cumulative Exposure 150 2.8.2. Immunosenescence and Telomere Loss 152 2.8.3 Inflammation and Stem Cells 153 2.9 Cancer, Infection, and inflammation 154 2.9 1. Helicobacter Pylori and Hepatitis B Virus 154 2.92. Smoking and Lung Cancer 156 2.10. Pharmacopleiotropies in Vascular Disease, Dementia, and Cancer 158 2.10.1. Anti inflammatory and Anti coagulant Drugs 158 2.10.2. Aspirin and Other NSAIDs 161 2.10.3. Statins 162 2.10.31. Vascular Disease 162 2.10.3.2. Dementia 164 2.10.4. Sex Steroid Replacement (Hormone Therapy) 165 2.10.5. Plant derived Micronutrients and Neutriceuticals 169 2.11. Summary 172 Chapter 3 Energy Balance, Inflammation, and Aging 3.1. Introduction 176 3.2. Diet Restriction and Aging 177 3.2.1. Overview of Animal Models 177 3.2.2. Diet Restriction and Disease in Rodent Models 184 3 2.3. Diet Restriction, Starvation, Vascular Disease, and Longevity in Humans 186 3.2.4. Diet Restriction, Infections and Inflammation 192 3 2.5. Somatic Repair and Regeneration 199 viii Contents 3.3. Energy Sensing in Diet Restriction and Satiety 200 3.3.1. Physiology 201 3.3.2. Biochemistry 202 3.3.3. Relevance to Arterial Disease and Cancer 210 3.4. Exercise, Cardiovascular Health, and Longevity 211 3.4.1. Humans 212 3.4.2. Rodent Models 215 3.4.3. Mechanisms in Exercise and Longevity 216 3.5. Diet, Exercise, and Neurodegeneration 219 3.5.1. Alzheimer Disease 219 3.5.2. Synaptic Atrophy in the Absence of Neurodegeneration 221 3.6. Laboratory Rodents as Models 225 for the 'Couch Potato' 3.7. Energy Balance in the Life History 228 3.8. Summary 231 Chapter 4 Nutrition and Infection in the Developmental Influences on Aging 4.1. Introduction 234 4.2. Synopsis of the Fetal Origins Theory 236 4.3. The Barker Studies of Infections 241 and Vascular Disease 4.4. Size, Health, and Longevity 245 4.4.1. Adult Height, Vascular Disease, and Longevity 246 4.4.2. Size at Birth and Adult Height 249 4.4.3. Criteria for Growth Retardation 252 4.4.4. Maternal Metabolism and Fetal Growth 254 4.4.5. Birth Size and Adult Vascular and Metabolic Disease 258 4.4.6. Twins: Small Size at Birth and Catch up Growth, but Normal Longevity 262 4.5. Infection and Undernutrition on Birthweight and Later Disease 262 4.5.1. The Tangle 263 4.5.2. Maternal Infections and Nutrition 263 4.5.3. Smoking and Aerosols 267 Contents ix 4.6. Infection and Nutrition in Postnatal Development and Later Disease 267 4.6.1. Diarrheas in Growth Retardation 267 4.6.2. Seasonal Effects 268 4.6.3 Serum Immune Response Markers of Chronic Infection in Health Poor Children 270 4.6.4. Infections During Development 272 4.6.5. The Cost of Infections to Postnatal Growth: Evidence from Migration and Antibiotics 273 4.6.6. Unknowns 275 4.7. Famine 276 4.7.1. World War II (WWII) 276 4.7.2. 19th Century Famines 286 4.8. Maternal Physiology, Fetal Growth, and Later Chronic Disease 289 4.9 Growth in Adaptive Responses to the Environment 295 4.10. Genomics of Fetal Growth Regulation 298 4.10.1. Inherited Genetic Variations 299 4.10.2. Gene Imprinting: Inherited but Epigenetic Influences on Development 299 4.11. Summary 302 Chapter 5 Genetics 5.1. Introduction 306 5.2. Sources of Individual Variations in Aging and life Span 306 5.3. Sex Differences in Longevity 310 5.4. Metabolism and Host Defense in Worm and Fly 315 5.4.1. Metabolic Gene Signaling 315 5.4.2. Immunity and Metabolism 318 5.5. The Worm 323 5.5.1. Overview 323 5 5.2. Slower Eating Increases Life Span 325 5.5.3 Metabolism and Host Defense 325 5.6. Fly 329 5.6.1. Overview 329 5.6.2. Metabolism and Diet Restriction 330 X Contents 5.6.3. Heart 333 5.6.4. Infections, Host Defense, and Stress Resistance 335 5.6.5. Natural Variations in Longevity Pathways 337 5.7. Mammals 338 5.7.1. Growth and Metabolism 338 5.7.1.1. Rodent Mutants with Altered Insulin Signaling and Fat Metabolism 343 5.7.1.2. Human Hereditary Variations in Metabolic Genes 351 5.7.1.3. Size and Longevity 354 5.7.1.4. The Insulin Sensitivity Paradox 355 5.7.2. Inflammation 355 5.7.3 Lipoproteins and Cholesterol Metabolism 357 5.7.4. ApoE4 Interactions with Diet, Cognition, and Vascular Aging 363 5.7.5. ApoE Alleles, Infection, and Reproduction 368 5.8. Summary 370 Chapter 6 The Human Life Span: Present, Past, and Future 6.1. Introduction 373 6.2. From Great Ape to Human 376 6.2.1. Human Life History Evolution 376 6.2.2. Chimpanzee Aging 383 6.2.3. The Evolution of Meat Eating 385 6.2.4. Meat Adaptive Genes 391 6.2.5. The Increase in Life Expectancy 402 6.3. Four Major Shifts in Human life History from Genetic and Cultural Evolution 404 6.4. The Instability of life Spans 406 6.4.1. Infections 406 6.4.2. Air Quality 409 6.4.3. Obesity and Diabetes 410 6.4.4. Prospects 412 6.5. Summary of Chapters 1 6: Mechanisms in Aging and life History Evolution 413 References 417 Name Index 599 Subject Index 625
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index_date	2024-07-02T19:05:23Z
indexdate	2024-07-09T21:08:40Z
institution	BVB
isbn	9780123736574
language	English
oai_aleph_id	oai:aleph.bib-bvb.de:BVB01-016166919
oclc_num	633508296
open_access_boolean
owner	DE-19 DE-BY-UBM DE-578 DE-384
owner_facet	DE-19 DE-BY-UBM DE-578 DE-384
physical	XIII, 626 S. Ill., graph. Darst.
publishDate	2007
publishDateSearch	2007
publishDateSort	2007
publisher	Elsevier, Acad. Press
record_format	marc
spelling	Finch, Caleb Ellicott 1939- Verfasser (DE-588)17207519X aut The biology of human longevity inflammation, nutrition, and aging in the evolution of life spans Caleb E. Finch San Diego, Calif. [u.a.] Elsevier, Acad. Press 2007 XIII, 626 S. Ill., graph. Darst. txt rdacontent n rdamedia nc rdacarrier Literaturverz. S. 417 - 599 Longevity Physiological aspects Aging Physiological aspects Inflammation Nutrition Altern (DE-588)4068596-2 gnd rswk-swf Physiologie (DE-588)4045981-0 gnd rswk-swf Langlebigkeit (DE-588)4166707-4 gnd rswk-swf Lebensdauer (DE-588)4034837-4 gnd rswk-swf Lebensdauer (DE-588)4034837-4 s Langlebigkeit (DE-588)4166707-4 s Altern (DE-588)4068596-2 s Physiologie (DE-588)4045981-0 s DE-604 HBZ Datenaustausch application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=016166919&sequence=000002&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis
spellingShingle	Finch, Caleb Ellicott 1939- The biology of human longevity inflammation, nutrition, and aging in the evolution of life spans Longevity Physiological aspects Aging Physiological aspects Inflammation Nutrition Altern (DE-588)4068596-2 gnd Physiologie (DE-588)4045981-0 gnd Langlebigkeit (DE-588)4166707-4 gnd Lebensdauer (DE-588)4034837-4 gnd
subject_GND	(DE-588)4068596-2 (DE-588)4045981-0 (DE-588)4166707-4 (DE-588)4034837-4
title	The biology of human longevity inflammation, nutrition, and aging in the evolution of life spans
title_auth	The biology of human longevity inflammation, nutrition, and aging in the evolution of life spans
title_exact_search	The biology of human longevity inflammation, nutrition, and aging in the evolution of life spans
title_exact_search_txtP	The biology of human longevity inflammation, nutrition, and aging in the evolution of life spans
title_full	The biology of human longevity inflammation, nutrition, and aging in the evolution of life spans Caleb E. Finch
title_fullStr	The biology of human longevity inflammation, nutrition, and aging in the evolution of life spans Caleb E. Finch
title_full_unstemmed	The biology of human longevity inflammation, nutrition, and aging in the evolution of life spans Caleb E. Finch
title_short	The biology of human longevity
title_sort	the biology of human longevity inflammation nutrition and aging in the evolution of life spans
title_sub	inflammation, nutrition, and aging in the evolution of life spans
topic	Longevity Physiological aspects Aging Physiological aspects Inflammation Nutrition Altern (DE-588)4068596-2 gnd Physiologie (DE-588)4045981-0 gnd Langlebigkeit (DE-588)4166707-4 gnd Lebensdauer (DE-588)4034837-4 gnd
topic_facet	Longevity Physiological aspects Aging Physiological aspects Inflammation Nutrition Altern Physiologie Langlebigkeit Lebensdauer
url	http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=016166919&sequence=000002&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA
work_keys_str_mv	AT finchcalebellicott thebiologyofhumanlongevityinflammationnutritionandagingintheevolutionoflifespans

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