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بسم الله الرحمن الرحيم.

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Presentation on theme: "بسم الله الرحمن الرحيم."— Presentation transcript:

1 بسم الله الرحمن الرحيم

2 Glucose Metabolism: An Overview

3 Metabolic Pathway Definition Site: Cellular (tissue) and Subcellular
Reactions Rate-limiting enzyme(s) Regulatory mechanism(s): Rapid, short-term: Allosteric Covalent modification Slow, long-term: Induction/repression

4 Metabolic Pathways of Glucose: Production and Utilization
Glycogenolysis Hexose interconversion Gluconeogenesis Production Glucose Utilization Glycolysis HMP/PPP Glycogenesis Hexose interconversion Krebs cycle

5 Metabolic Pathways of Glucose: Catabolic and Anabolic
Catabolic cycles Glycolysis (Mainly) Krebs (Mainly) Glycogenolysis HMP Anabolic cycles Gluconeogenesis Glycogenesis

6 Glycogenesis and Glycogenolysis
Synthesis of glycogen from glucose Mainly liver and muscle, Cytosol Glycogenolysis Degradation of glycogen into glucose

7 Hexose Monophosphate Pathway (HMP) or Pentose Phosphate Pathway (PPP)
Important source for NADPH Reductive syntheses Source for metabolically active ribose Production of nucleotides: For nucleic acids For co-enzymes

8 Glucose Transport Na+-Monosaccharide Cotransporter:
Against concentration gradient Energy dependent Carrier-mediated Coupled to Na+ transport Small intestine, renal tubules & choroid plexus Na+-Independent Facilitated Diffusion: With concentration gradient Energy Independent Glucose Transporters (GLUT 1-14)

9 Glucose Transport: Facilitated Diffusion

10 Glucose Transporters Tissue-specific expression pattern
GLUT-1 RBCs and brain GLUT-2 Liver, kidney & pancreas GLUT-3 Neurons GLUT-4 Adipose tissue & skeletal muscle GLUT-5 Small intestine & testes GLUT-7 Liver (ER-membrane) Functions: GLUT-1, 3 & 4 Glucose uptake from blood GLUT-2 Blood & cells (either direction) GLUT-5 Fructose transport

11 Glycolysis: Objectives
Major oxidative pathway of glucose The main reactions of glycolytic pathway The rate-limiting enzymes/Regulation ATP production (aerobic/anaerobic) Pyruvate kinase deficiency hemolytic anemia

12 Glycolysis: An Overview
Glycolysis, the major pathway for glucose oxidation, occurs in the cytosol of all cells. It is unique, in that it can function either aerobically or anaerobically, depending on the availability of oxygen and intact mitochondria. It allows tissues to survive in presence or absence of oxygen, e.g., skeletal muscle. RBCs, which lack mitochondria, are completely reliant on glucose as their metabolic fuel, and metabolizes it by anaerobic glycolysis.

13 Glycolysis

14 Aerobic Vs Anaerobic Glycolysis

15 Aerobic Glycolysis-1 Hexokinase Glucokinase

16 Aerobic Glycolysis-2

17 Aerobic Glycolysis: 3-5

18 2 2 Aerobic Glycolysis: 6 -10 2 2 2 2

19 Aerobic Glycolysis-1 Hexokinase: Most tissues Glucokinase: Hexokinase
Hepatocytes Hexokinase Glucokinase

20 PFK-1 : Regulation

21 Aldolase and Triose Isomerase

22 Glyceraldehyde 3-Phosphate Dehydrogenase
2 2 2 For each NADH, 3 ATP will be produced by ETC in the mitochondria i.e., 6 ATP are produced 2 2 2

23 Phospho- glycerate Kinase
2 Phospho- glycerate Kinase 2 Substrate- Level Phosphorylation 2 2 2 2

24 2 2 2 Substrate- Level Phosphorylation 2 2 Pyruvate Kinase 2

25 Substrate-level phosphorylation Vs. Oxidative phosphorylation
Phosphorylation is the metabolic reaction of introducing a phosphate group into an organic molecule. Oxidative phosphorylation:  The formation of high-energy phosphate bonds by phosphorylation of ADP to ATP coupled to the transfer of electrons from reduced coenzymes to molecular oxygen via the electron transport chain (ETC); it occurs in the mitochondria. Substrate-level phosphorylation:  The formation of high- energy phosphate bonds by phosphorylation of ADP to ATP (or GDP to GTP) coupled to cleavage of a high- energy metabolic intermediate (substrate). It may occur in cytosol or mitochondria

26 Pyruvate Kinase Covalent Modification

27 Pyruvate Kinase Deficiency Hemolytic Anemia

28 Summary: Regulation of Glycolysis
Regulatory Enzymes (Irreversible reactions): Glucokinase/hexokinase PFK-1 Pyruvate kinase Regulatory Mechanisms: Rapid, short-term: Allosteric Covalent modifications Slow, long-term: Induction/repression Apply the above mechanisms for each enzyme where applicable

29 Aerobic Glycolysis: ATP Production
ATP Consumed: 2 ATP ATP Produced: Substrate-level 2 X 2 = 4 ATP Oxidative-level 2 X 3 = 6 ATP Total ATP Net: – 2 = 8 ATP

30 Take Home Message Glycolysis is the major oxidative pathway for
glucose Glycolysis is employed by all tissues Glycolysis is a tightly-regulated pathway PFK-1 is the rate-limiting regulatory enzyme

31 Take Home Message Glycolysis is mainly a catabolic pathway for
ATP production, But ….. It has some anabolic features (amphibolic) Pyruvate kinase deficiency in RBCs results in hemolytic anemia

32 THANK YOU

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