Medical Biochemistry Metabolism with Clinical Correlations CARBOHYDRATE METABOLISM
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1 Medical Biochemistry Metabolism with Clinical Correlations CARBOHYDRATE METABOLISM
2 DIGESTIVE MECHANISM FOR CARBOHYDRATES 1. In the oral cavity - the salivary α-amylase - a single polypeptide chain, stabilized by calcium, activated by Cl -, optimum ph endoamylase that acts on α-1,4-glycoside bond in dietary starch and glycogen resulting α-limit dextrines (branched polyglucides with lower molecular mass than the one of starch), maltose and a small amount of glucose. Dietary diglucides (saccharose, lactose, trehalose of fungal origin) are not cleaved in the oral cavity 2. In the stomach salivary amylase is inactivated by the gastric juice acidic components
3 DIGESTIVE MECHANISM FOR CARBOHYDRATES 3. In the intestine Pancreatic α-amylase continues the hydrolysis of starch and glycogen to limit-dextrines and maltose Pancreatic olygo-α-1,6-glucosidase hydrolyses the limitdextrin to cleave the α-1,6-glucoside bonds (at branch points) Intestinal olygosaccharidases and Disaccharidases act in the intestinal wall: α-diglucosidases: maltase (maltose 2 α-glu) β-diglucosidases: galactosidase=lactase (lactose β- Gal+α-Glu) The end product are monoses (glucose, fructose, galactose), uronic acids, aminoglucides, mannose, fucose, xylose (from glycoproteins and glycolipids), ribose and deoxyribose (from the nucleic acids) inositol (phosphatidylinositol)
4 ABSORPTION OF MONOSES Secondary active mechanism, mediated by a special carrier, Na + dependent Absorption rates differ: Gal is absorbed at the higher rate than Glu Intestinal wall portal vein liver blood tissues
5 ABSORPTION OF MONOSES In the liver Fructose + ATP fructokinase F-6-P ADP Glucose + ATP glucokinase G-6-P G-6-P-ase Glucose Galactose + ATP ADP galactokinase Gal-6-P H 2 O H 3 PO 4 ADP Major consumers of glucose are the liver, the brain, the muscles From absorbed glucose: 65% used to generate energy, 30% to synthesize fat and 5% to synthesize glycogen
6 NORMAL BLOOD GLUCOSE LEVEL (GLYCEMIA) Glycemia = mg/dl Rises after a meal and falls to fasting level If the level falls below 60 mg/dl = hypoglycemia (danger for the brain cells and other cells depending on glucose for nourishment) If the level rises above 120mg/dl = hyperglycemia The liver is the key organ for regulating the glycemia. After the meal, glucose can be converted to glycogen or triacylglycerides and steroids can be catabolyzed to generate ATP and heat Glycemia represents the result of the balance between the cellular intake, storage and catabolism
7 DISTURBANCES IN CARBOHYDRATE DIGESTION Congenital or aquired Intolerance to carbohydrates: starch (deficiency of α-amylase), maltose (maltase deficiency) lactose (deficiency of lactase) when baby is breast fed and the ingested lactose exceeds the lactase ability to hydrolyze it; the lactose rested nonhydrolyzed causes intestinal disorders and favors the development of microflora; this deficiency may develop with age.
8 THE CATABOLISM GLYCOLYSIS (EMBDEN-MEYERHOFF-PARNAS PATHWAY) The glycolysis or lactic acid fermentation is the anaerobic degradation of glucose to 2 molecules of lactic acid C 6 H 12 O 6 anaerobic glycolysis 2 CH 3 CH COOH+ 2 ATP 11 separate steps of glycolysis form a chain of functionally related enzymes (multienzymes functional system) in which the product of a reaction catalyzed by one enzyme serves as substrate for the enzyme in the next step The glycolytic enzymes exist outside the mitochondria, in a dissolved state or loosely bound to the endoplasmic reticulum membrane Exergonic process = the energy is accumulated in ATP phosphate bonds OH
9 GLYCOGENOLYSIS In mammalian cells the glycogen is a reserve carbohydrate, in the cytoplasm of cells, as granules of nm diameter, containing enzymes necessary to synthesize and degrade the glycogen and regulate these processes. The degradation = glycogenolysis takes place in the liver Phosphorolysis of glycogen is catalysed by glycogenphosphorylase or phosphorylase (α and β) acts on α-1,4- glycoside bond in the linear chain of glycogen, beginning at the nonreducing end, producing glucose-1-p and dextrin; when 4 glucose units remain on a branch, a debranching enzyme moves the 3 outer units of the limit branch to the nonreducing end of another branch to be available for removal by glycogen phosphorylase; the last glucose unit of the original branch is attached to glycogen through an α-1,6-glycosidic bond; the debranching enzyme hydrolyses this final glycosidic bond G-1-P is conversed to G-6-P in the presence of phosphoglucomutase G-6-P remains in the cell where it was created in the muscle G-6-P enters in the glycolysis in the liver, intestine and kidney G-6-P-ase removes the phosphate group generating glucose that can enter the blood for delivery to cells that need it Hydrolysis (amylolysis) proceeds under the action of amylase
10 ANAEROBIC GLYCOLYSIS and GLYCOGENOLYSIS - ATP - ATP GLICOLYSIS Glucose G-6-P F-6-P F-1,6-bisP hexokinase Mg 2+ (Mn 2+ ) 1,6-P-glucomutase glucose-phosphate isomerase Mg 2+ (Mn 2+ ) fosfo-fructo kinase Mg 2+ GLYCOGENOLYSIS Glycogen + H 3 PO 4 G-1-P glycogen phosphorylase aldolase Glyceraldehyde-3-P triose-p-isomerase Dihydroxyacetone-1-P + 2 ATP + 2 ATP H 3 PO 4 2x 1,3-Bisphosphoglycerate 2x 3-P-Glycerate 2x 2-P-Glycerate 2x 2-P-Enolpyruvate 2x Pyruvic acid 2x Lactic acid glyceraldehyde-3-p DH phosphoglycerate kinase phosphoglycerate phosphomutase enoyl hydratase Mg 2+ (Mn 2+ ) pyruvate kinase Mg 2+ (Mn 2+ ) lactate dehydrogenase 2 NADH+H + 2 NADH+H +
11 ANAEROBIC GLYCOLYSIS and GLYCOGENOLYSIS ENERGY BALANCE - ATP Glucose G-6-P F-6-P Glycogen + H 3 PO 4 G-1-P Glycolysis: + 4 ATP formed - 2 ATP used = 2 ATP/glucose - ATP F-1,6-bisP Glyceraldehyde-3-P H 3 PO 4 Dihydroxyacetone-1-P 2 NADH+H + Glycogenolysis: + 4 ATP formed - 1 ATP used = 3 ATP/glucose + 2 ATP 2x 1,3-Bisphosphoglycerate 2x 3-P-Glycerate 2x 2-P-Glycerate 2x 2-P-Enolpyruvate + 2 ATP 2x Pyruvic acid 2x Lactic acid 2 NADH+H +
12 AEROBIC GLYCOLYSIS ANAEROBIC STAGE Glucose + 2 ATP + 2 H 3 PO NAD + 2 pyruvic acid + 4 ATP + 2 NADH+H + AEROBIC STAGE 1. Pyruvic acid + CoA-SH + NAD + acetyl-coa + CO 2 + NADH+H + 2. Tricarboxylic acid (TCA) cycle = citric acid cycle = KREBS CYCLE: integrative function (unifies carbohydrate, lipid and protein metabolic pathways) amphibolic function (catabolism of acetyl CoA and anabolism of other materials) energetic function (1 ATP per cycle) hydrogen donating function (reduced coenzymes NADH+H +, FADH 2 ) GLICOLYSIS GLYCOGENOLYSIS Glucose Glycogen - ATP hexokinase + H 3 PO 4 Mg 2+ (Mn 2+ ) glycogen phosphorylase G-6-P 1,6-P-glucomutase G-1-P - ATP 2 H 3 PO 4 2 NADH+H + glucose-phosphate isomerase Mg 2+ (Mn 2+ ) F-6-P fosfo-fructo kinase Mg 2+ F-1,6-bisP aldolase triose-p-isomerase Glyceraldehyde-3-P Dihydroxyacetone-1-P 2 1,3-Bisphosphoglycerate 2 ATP 2 3-P-Glycerate glyceraldehyde-3-p DH phosphoglycerate kinase phosphoglycerate phosphomutase 2 2-P-Glycerate enoyl hydratase Mg 2+ (Mn 2+ ) 2 2-P-Enolpyruvate 2 ATP pyruvate kinase Mg 2+ (Mn 2+ CO ) 2 pyruvate DH complex 2 Pyruvic acid fumarate hydratase H 2 O fumaric acid malate DH malic acid CoA-SH NADH+H + oxalylacetic acid NADH+H + ANAEROBIC STAGE TRICARBOXYLIC ACID CYCLE CITRIC ACID CYCLE KREBS CYCLE AEROBIC STAGE CH 3 -CO-S-CoA H 2 O citrate synthase citric acid aconitase H 2 O cis-aconitate H 2 O aconitase isocitric acid NADH+H + isocitrate DH FADH succinate DH 2 Mn 2+ CO 2 succinic acid NADH+H + 2-oxoglutaric acid succinate thiokinase 2-oxoglutarate DH complex CoA-SH succinyl-s-coa CO GTP 2 CoA-SH ATP
13 AEROBIC GLYCOLYSIS ENERGY BALANCE ANAEROBIC STAGE: - 2 ATP used + 4 ATP generated + 2 NADH+H + formed AEROBIC GLICOLYSIS Glucose ANAEROBIC STAGE 2 ATP 4 ATP 2 NADH+H + CO 2 AEROBIC STAGE 2 Pyruvic acid CH 3 -CO-S-CoA CoA-SH NADH+H + oxalylacetic acid H 2 O AEROBIC STAGE 2 NADH+H + formed 2 KREBS CYCLE each cycle produce: 3 NADH+H + 1 FADH 2 1 GTP ATP malic acid NADH+H + H 2 O fumaric acid FADH 2 NADH+H + succinic acid NADH+H + citric acid H 2 O cis-aconitate H 2 O isocitric acid CO 2 2-oxoglutaric acid CoA-SH ATP GTP succinyl-s-coa CO 2 CoA-SH TRICARBOXYLIC ACID CYCLE CITRIC ACID CYCLE KREBS CYCLE
14 TISSUE RESPIRATION AND OXIDATIVE PHOSPHORILATION Hydrogen is the major fuel for energy generation In the mitochondria the flow of electrons from hydrogen is channeled towards the terminal acceptor, oxygen. This results in formation of water (the end product of tissue respiration) H S-H 2 2 NADH+H + H 2 H - 2 2e 2e - FADH 2e - 2e - 2e CoQH 2 cyt b cyt c 1 cyt c cyt a+a 3 1/2 O 2 2 H + H 2 O 1/2 O 2 2- The general reaction of respiratory chain is: Reduced coenzyme (H 2 ) 2H e - + oxidized coenzyme ½ O e - ½ O 2-2 2H + + ½ O 2-2 H 2 O + Energy (ATP)
15 The respiratory chain is made up of proton and electron carriers: 1. Transport of hydrogen from reduced coenzymes NADH+H + formed by the action of NAD-dependent dehydrogenases on a substrate (isocitrate, 2-oxoglutarate, malate) or FADH 2 formed by the action of FAD dependent dehydrogenase on a substrate (succinate) To Coenzyme Q (ubiquinone) O OH H 3 C O CH H + (+ 2 e - ) H 3 C O CH 3 H 3 C O R - 2 H + (- 2 e - ) H 3 C O R O oxidized from (CoQ) reduced form (CoQH 2 ) 2. Transport of electrons is performed by cytochromes b, c 1, c, a and a 3-2 e - 2 cyt (Fe 2+ ) + 2 e - 2 cyt (Fe 3+ ) OH reduced form oxidized form
16 OXIDATIVE PHOSPHORYLATION The mechanism for energy generation by transfer of electrons and protons from a substrate to oxygen It is the coupling of the respiratory chain with phosphorylation ADP + H 3 PO 4 ATP + H 2 O The P/O ratio (phosphorylation ratio) = number of ATP/number of O is a measure for respiration-phosphorylation coupling. P/O for NADH+H + = 3/1 = 3 1 NADH+H + = 3 ATP P/O for FADH 2 = 2/1 = 2 1 FADH 2 = 2 ATP H 2 H 2 H - S-H 2 e e - e - e - e - 2 NADH+H+ FADH 2 CoQH 2 cyt b cyt c 1 cyt c cyt a+a 3 1/2 O 2 ATP H + ATP ATP H 2 O 1/2 O 2
17 AEROBIC GLYCOLYSIS ENERGY BALANCE ANAEROBIC STAGE: - 2 ATP used (-1 ATP) + 4 ATP formed 8 ATP (9 ATP) + 2 NADH+H + formed = 6 ATP AEROBIC STAGE 2 NADH+H + formed = 6 ATP 2 KREBS CYCLE: 3 NADH+H + =3x3= 9 ATP 1 FADH 2 = 2 ATP 12 ATP/CYCLE x 2 = 24 ATP 1 GTP ATP TOTAL 38 ATP /molecule of glucose in aerobic glycolysis (39 ATP /molecule of glucose in aerobic glycogenolysis)
18 THE CENTRAL ROLE OF GLUCOSE IN THE CARBOHYDRATE METABOLISM Interrelated metabolic pathways designed to use glucose efficiently and to ensure an adequate supply in the blood stream Glycogen Glucose UDP-Glucose H 3 PO 4 Glucose-1-P ATP Glucose-6-P Pentose-phosphates pathway Uronic acid pathway uronic acids Anaerobic stage pentoses pyruvic acid lactic acid Aerobic stage (Krebs cycle) CO 2 NADH+H + FADH 2 respiratory chain oxydative phosphorylation Anaerobic glycolysis Aerobic glycolysis ATP H 2 O
19 THE ANABOLISM GLYCOGEN SYNTHESIS (GLYCOGENESIS) Occurs when glycemia is high, allowing the excess glucose to be stored: Liver glycogen regulates the glucose in the blood Muscle glycogen is the source for ATP synthesis, needed by the active muscles Steps: The conversion of G to G-6-P (catalyzed by hexokinase) Conversion of G-6-P to G-1-P (catalyzed by phospho-g-mutase) G-1-P is activated by UTP (G-1-P-uridyltransferase) forming UDP-G UDP-G is added at the C4 hydroxyl group of a nonreducing end of the glycogen molecule (containing at least 4 glucose units); the reaction is catayzed by glycogen-synthase Branches (α-1,6 bonds) are added by the transfer of several glucose units to an interior glucose unit (α-1,4-glucan-branching enzyme)
20 GLUCONEOGENESIS It is necessary to maintain the adequate glucose concentration in the blood, when the diet is deficient in glucose or the needs are increased (as during fasting) It takes place in the liver and kidney It is the synthesis of glucose from noncarbohydrate precursors: Lactate from the anaerobic glycolysis Most aminoacids from the dietary proteins Glycerol from triacylglycerides The pathways are: Lactate and glucogenic aminoacids (all except leucine and lysine) are converted to either pyruvate or oxaloacetate Glycerol is converted to glycerol-3-p (by glycerol kinase) that is transformed in dihydroxyacetone-p by glycerol-3-p dehydrogenase which enter glycogenogenesis
21 GLUCONEOGENESIS It is influenced by the ATP concentration in the cell: Low ATP inhibits gluconeogenesis and stimulates the reaction of acetyl-coa with oxaloacetate to form citrate (Krebs cycle) High ATP stimulates gluconeogenesis, decreasing the Krebs cycle activity and alowing the oxaloacetate to be available for gluconeogenesis The first reaction, the conversion of pyruvate to oxaloacetate takes place in the mitochondria All the reaction except the first occur in the cytosol. 4 reactions use enzymes unique to gluconeogenesis: pyruvate carboxylase, phosphoenolpyruvate carboxykinase, F-1,6-bisphosphatase G-6-P-ase the rest of the reactions are the reversal of glycolysis and use the same enzymes as glycolysis;
22 GLUCONEOGENESIS 1. The conversion of pyruvate to oxaloacetate by addition of CO2 is catalyzed by pyruvate carboxylase, in the mitochondria This is the rate-limiting step of gluconeogenesis Biotin (vitamin) is the cofactor and carries the activated CO2 ATP is hydrolyzed to ADP and Pi Acetyl-CoA increases the enzyme activity 2. Oxaloacetate is reduced to malate (by MDH) that can cross the mitochondrial membrane to the cytosol; it is reoxidized to oxaloacetate. 3. Oxaloacetate is decarboxylated and phosphorylated to phosphoenolpyruvate (PEP) by PEP carboxykinase using GTP as high energy phosphate donor (GDP and CO2 result) 4. PEP follows the reverse reactions of glycolysis 5. F-1,6-bisP is converted to F-6-P by F-1,6-bisP-ase (its activity is regulated by AMP, citrate, F-2,6-bisP) 6. F-6-P is converted to G-6-P by isomerisation 7. G-6-P is converted to G by the hydrolysis by G-6-P-ase (present only in liver and kidneys)
23 GLUCONEOGENESIS Glycolysis and gluconeogenesis are coordinately regulated so that both processes do not operate simultaneously. They are controlled by regulation of their enzymes and concentration of the substrate in the blood For glycolysis - glucose For gluconeogenesis - lactate, aminoacids, pyruvate, oxaloacetate and glycerol In the liver, the conversion of lactate (product of the anaerobic glycolysis in the muscles) into glucose is called Cori cycle (glucose-lactate cycle): Lactate is transported to the liver Lactate is transformed to pyruvate Pyruvate is converted to glucose by gluconeogenesis Glucose is transported in the blood to the muscles where it is oxidized to produce energy for muscle contraction
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