Book contents
- Frontmatter
- Contents
- Contributors
- Part I General Principles of Cell Death
- Part II Cell Death in Tissues and Organs
- 11 Cell Death in Nervous System Development and Neurological Disease
- 12 Role of Programmed Cell Death in Neurodegenerative Disease
- 13 Implications of Nitrosative Stress-Induced Protein Misfolding in Neurodegeneration
- 14 Mitochondrial Mechanisms of Neural Cell Death in Cerebral Ischemia
- 15 Cell Death in Spinal Cord Injury – An Evolving Taxonomy with Therapeutic Promise
- 16 Apoptosis and Homeostasis in the Eye
- 17 Cell Death in the Inner Ear
- 18 Cell Death in the Olfactory System
- 19 Contribution of Apoptosis to Physiologic Remodeling of the Endocrine Pancreas and Pathophysiology of Diabetes
- 20 Apoptosis in the Physiology and Diseases of the Respiratory Tract
- 21 Regulation of Cell Death in the Gastrointestinal Tract
- 22 Apoptosis in the Kidney
- 23 Physiologic and Pathological Cell Death in the Mammary Gland
- 24 Therapeutic Targeting Apoptosis in Female Reproductive Biology
- 25 Apoptotic Signaling in Male Germ Cells
- 26 Cell Death in the Cardiovascular System
- 27 Cell Death Regulation in Muscle
- 28 Cell Death in the Skin
- 29 Apoptosis and Cell Survival in the Immune System
- 30 Cell Death Regulation in the Hematopoietic System
- 31 Apoptotic Cell Death in Sepsis
- 32 Host–Pathogen Interactions
- Part III Cell Death in Nonmammalian Organisms
- Plate section
- References
27 - Cell Death Regulation in Muscle
from Part II - Cell Death in Tissues and Organs
Published online by Cambridge University Press: 07 September 2011
- Frontmatter
- Contents
- Contributors
- Part I General Principles of Cell Death
- Part II Cell Death in Tissues and Organs
- 11 Cell Death in Nervous System Development and Neurological Disease
- 12 Role of Programmed Cell Death in Neurodegenerative Disease
- 13 Implications of Nitrosative Stress-Induced Protein Misfolding in Neurodegeneration
- 14 Mitochondrial Mechanisms of Neural Cell Death in Cerebral Ischemia
- 15 Cell Death in Spinal Cord Injury – An Evolving Taxonomy with Therapeutic Promise
- 16 Apoptosis and Homeostasis in the Eye
- 17 Cell Death in the Inner Ear
- 18 Cell Death in the Olfactory System
- 19 Contribution of Apoptosis to Physiologic Remodeling of the Endocrine Pancreas and Pathophysiology of Diabetes
- 20 Apoptosis in the Physiology and Diseases of the Respiratory Tract
- 21 Regulation of Cell Death in the Gastrointestinal Tract
- 22 Apoptosis in the Kidney
- 23 Physiologic and Pathological Cell Death in the Mammary Gland
- 24 Therapeutic Targeting Apoptosis in Female Reproductive Biology
- 25 Apoptotic Signaling in Male Germ Cells
- 26 Cell Death in the Cardiovascular System
- 27 Cell Death Regulation in Muscle
- 28 Cell Death in the Skin
- 29 Apoptosis and Cell Survival in the Immune System
- 30 Cell Death Regulation in the Hematopoietic System
- 31 Apoptotic Cell Death in Sepsis
- 32 Host–Pathogen Interactions
- Part III Cell Death in Nonmammalian Organisms
- Plate section
- References
Summary
Introduction To Muscle
Skeletal muscle constitutes ~40% of total body weight, and its primary function is to provide force and energy for locomotion, breathing, and postural support. It can also act as a source of heat production during cold-induced stress or exercise. Skeletal muscle is a highly adaptable tissue that exhibits a remarkable range of plasticity in response to different stimuli. It possesses distinctive structural and biochemical properties that distinguish it from all other tissues. There is a significant variation in size, type, and shape of skeletal muscles within the body. However, the underlying morphological structure remains the same. Common to all skeletal muscle is the presence of multiple myonuclei per cell, the innervation of several cells by single α-motor neurons, and the presence of ligaments and tendons.
- Type
- Chapter
- Information
- ApoptosisPhysiology and Pathology, pp. 313 - 322Publisher: Cambridge University PressPrint publication year: 2011