Carbohydrate Metabolism in Health and Disease
Medical Biochemistry – Carbohydrates: Carbohydrate Metabolism in Health and Disease
What you’ll learn
- Medical Biochemistry.
- Biochemical process knowledge.
- Biochemical pathways in diseases.
- Biochemical lab diagnosis.
Course Content
- Introduction –> 3 lectures • 11min.
- Syllabus –> 1 lecture • 1min.
- Glycolysis –> 2 lectures • 10min.
- Krebs Cycle –> 1 lecture • 26min.
Requirements
Medical Biochemistry – Carbohydrates: Carbohydrate Metabolism in Health and Disease
Carbohydrates serve as a vital source of energy for various cellular processes and form structural components in certain organisms. Understanding the metabolism of carbohydrates is crucial not only for appreciating normal physiological functions but also for diagnosing and managing metabolic disorders and diseases.
Glycolysis and Gluconeogenesis
Glycolysis is the catabolic pathway that converts glucose into pyruvate, releasing energy stored in the glucose molecule. In contrast, gluconeogenesis is the anabolic pathway responsible for synthesizing glucose from non-carbohydrate precursors. These pathways are tightly regulated to maintain glucose homeostasis.
Glycogen Metabolism
Glycogen serves as the primary intracellular storage form of glucose. In times of energy demand, glycogen is rapidly broken down to glucose-1-phosphate through glycogenolysis. Glycogenesis is the opposite process, where glucose is stored as glycogen.
Pentose Phosphate Pathway
This is crucial for the generation of NADPH and ribose-5-phosphate, which are essential for fatty acid synthesis and nucleotide synthesis, respectively.
Carbohydrate Metabolism in Health
- Energy Production: Glycolysis and oxidative phosphorylation provide the necessary ATP for cellular activities.
- Regulation: Insulin and glucagon are key hormones that regulate these metabolic pathways.
- Storage: Excess glucose is stored as glycogen in the liver and muscle cells, preventing hyperglycemia.
Carbohydrate Metabolism in Disease
- Diabetes Mellitus: Characterized by insulin resistance or inadequate insulin production, leading to hyperglycemia.
- Glycogen Storage Diseases: These are genetic disorders that affect the enzymes involved in glycogen metabolism.
- Fructose Intolerance: This involves defects in fructose metabolism, leading to fructose accumulation in the body.
- Galactosemia: A disorder where the body can’t properly metabolize the sugar galactose, leading to its accumulation in the blood.
- Lactose Intolerance: Inability to digest lactose due to a deficiency in the enzyme lactase.
Conclusion
Carbohydrate metabolism is a complex but tightly regulated process that is crucial for energy balance in the body. Disruption in any part of this system due to genetic predisposition, lifestyle choices, or other factors can lead to disease. Understanding these pathways provides valuable insights for therapeutic interventions.
Understanding the biochemistry of carbohydrates and their metabolism is critical in both health and disease. Diagnostic tools can pinpoint disruptions in these pathways, providing invaluable information for medical intervention and treatment planning.