6. How Are Fatty Acids Produced? 7. How Are Acylglycerols and Compound Lipids Produced? 8. How Is Cholesterol Produced?

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1 Lipid Metabolism

2 Learning bjectives 1 How Are Lipids Involved in the Generationand Storage of Energy? 2 How Are Lipids Catabolized? 3 What Is the Energy Yield from the xidation of Fatty Acids? 4 How Are Unsaturated Fatty Acids and dd- Carbon Fatty Acids Catabolized? 5 What Are Ketone Bodies?

3 6. How Are Fatty Acids Produced? 7. How Are Acylglycerols and Compound Lipids Produced? 8. How Is Cholesterol Produced?

4 Lipids vs. Carbohydrates A gram of nearly anhydrous fat stores more than six times as much energy as a gram of hydrated glycogen, which is likely the reason that triacylglycerols rather than glycogen were selected in evolution as the major energy reservoir. The glycogen and glucose stores provide enough energy to sustain biological function for about 24 hours, whereas the triacylglycerol stores allow survival for several weeks.

5 Fatty Acids and Energy Fatty acids in triacylglycerols are the principal storage form of energy for most organisms their carbon chains are in a highly reduced form the energy yield per gram of fatty acid oxidized is greater than that per gram of carbohydrate oxidized C 6 H Glucos e CH 3 ( CH 2 ) 14 CH Palmitic acid 6 C H C H 2 Energy (kj mol -1 )

6 Chylomicron Formation Free fatty acids and monoacylglycerols are absorbed by intestinal epithelial cells. Triacylglycerols are resynthesized and packaged with other lipids and apoprotein B-48 to form chylomicrons, which are then released into the lymph system.

7

8 Hydrolysis of Glycerol Esters

9 Glycerol formed by lipolysis is absorbed by the liver and phosphorylated, oxidized to dihydroxyacetone phosphate, and then isomerized to glyceraldehyde 3-phosphate.

10 Step 1: RC - Step 2: RC- AMP RC - Activation of Fatty Acids + ATP RC- AMP + PP i Acyl adenylate intermediate + CoA-SH RC- SCoA + AMP An acyl-coa + ATP + CoA-SH acyl-coa synthetase RC- SCoA + AMP + PP i Essential Note: Even one ATP is required in the activation step, another ATP is required to hydrolyze the PPi in order to be recycled into ATP again

11 Transport of Acyl-CoA The acyl-coa crosses the outer mitochondrial membrane, but not the inner membrane The acyl group is then transferred to carnitine, carried across the inner mitochondrial membrane, and transferred to mitochondrial CoA-SH Carnitine Palmitoyltransferase (CPT-1) has specificity for acyl groups between 14 and 18 carbons long RC- SCoA + H + CH 2 N( CH 3 ) 3 CHCH 2 C - Carnitine RC + CH 2 N( CH 3 ) 3 CHCH 2 C - An acyl-carnitine + HS-CoA

12 Transport of Acyl-CoA

13 -xidation -xidation: a series of four enzymecatalyzed reactions that cleaves carbon atoms two at a time from the carboxyl end of a fatty acid.

14 -xidation

15 Summary Fatty acids are activated and transported to the mitochondrial matrix for further catabolism The breakdown of fatty acids takes place in the mitochondrial matrix and proceeds by successive removal of two-carbon units as acetyl-coa Each Cleavage of a two-carbon moiety requires a four-step reaction sequences called -oxidation

16 Energetics of -xidation 9 ATP 27 NADH 9 FADH2 18 C2 17 H2 This series of reactions is then repeated on the shortened fatty acid chain and continues until the entire fatty acid chain is degraded to acetyl-coa CH 3 ( CH 2 ) 16 C- SCoA ctadecanoyl-coa (Stearyl-CoA) 9 cycles of TCA 8 CoA-SH + 8 NAD + 8 FAD 9 CH 3 C-SCo A + Acetyl-CoA eight cycles of -oxidation 8 NADH 8 FADH 2

17 Energetics of -xidation

18 Energetics of -xidation The overall equation for oxidation of stearic acid can be obtained by adding the equations for -oxidation, the citric acid cycle, and oxidative phosphorylation CH 3 ( CH 2 ) 1 6 CSCo A A DP P i 1 8 C H A TP + Co A -S H

19 dd-numbered Fatty Acids 1

20 How Are Unsaturated Fatty Acids Catabolized?

21

22 Summary FA with odd number of carbons produce propionyl-coa in the last step of the oxidation Propionyl-CoA can be converted to succinyl-coa, which plays a role in the citric acid cycle The oxidation of unsaturated FA requires enzymes that catalyze isomerization around the double bonds so that oxidation can proceed ( isomerase & oxidase).

23 Metabolic water

24 Polar Bear

25 Humming Bird

26 Kangaroo Rat

27 What are the similarities between the previous animals? What is the difference between camel and Kangaroo rat?

28 Ketone Bodies Ketone bodies: acetone, -hydroxybutyrate, and acetoacetate formed principally in the liver mitochondria. can be used as a fuel in most tissues and organs. Formation occurs when the amount of acetyl-coa produced is excessive compared to the amount of oxaloacetate available to react with it, because it is being used in gluconeogenesis during high intake of lipids and low intake of carbohydrates diabetes not suitably controlled strenuous exercise starvation

29 2 CH 3 C-SCo A Acetyl-CoA Ketone Bodies HS-CoA 1 NADH CH 3 -C- CH 2 -C - Acetoacetate 2+ H20 CH 3 CCH 2 C- SCoA Acetoacetyl-CoA NAD + + H + H CH 3 -CH-CH 2 - C - -Hydroxybutyrate Used for energy C 2 CH 3 -C- CH 3 Acetone Used for energy acetone smell on the breath of uncontrolled DM patient

30 Which tissues can use Ketone Bodies? Why can t red blood cells and liver use ketone bodies for energy production?

31 Heart muscle and the renal cortex use acetoacetate in preference to glucose. Glucose is the major fuel for the brain and red blood cells in well-nourished people on a balanced diet. However, the brain adapts to the utilization of acetoacetate during starvation and diabetes. In prolonged starvation, 75% of the fuel needs of the brain are met by ketone bodies.

32 Utilization of Acetoacetate as a Fuel. Acetoacetate can be converted into two molecules of acetyl CoA, which then enter the citric acid cycle. (Absent in liver)

33 Biosynthesis is not the exact reversal of oxidation Fatty Acid Biosynthesis Biosynthetic reactions occur in the cytosol

34 Synthesis of Fatty Acids Anabolic reactions take place in the cytosol

35 Synthesis of Fatty Acids Carboxylation of acetyl-coa in the cytosol catalyzed by acetyl-coa carboxylase biotin is the carrier of the carboxyl group Malonyl-CoA is key intermediate that is produced 1 CH 3 C-SCo A Acetyl-CoA + HC 3 - ATP ADP + P i CH 2 C-SCo A Biotin, Mn 2+ C - Malonyl-CoA

36 Synthesis of Fatty Acids Step 1: priming of the system by acetyl-coa CH 3 C-SCo A + HS-ACP Acetyl-CoA CH 3 C-S-ACP + HS-CoA Acetyl-ACP CH 3 C-S-ACP Acetyl-ACP CH 3 C-SCo A Acetyl-CoA + HS-Synthase CH 3 C-S-Synthase Acetyl-Synthase + HS-Synthase CH 3 C-S-Synthase Acetyl-Synthase + HS-ACP + HS-CoA

37 Synthesis of Fatty Acids Step 2: ACP-malonyltransferase reaction CH 2 C-SCo A C - Malonyl-CoA + HS-ACP CH 2 C-S-ACP C - Malonyl-ACP + HS-CoA

38 Step 3: condensation reaction (C 2 is lost from malonyl ACP as it combines with acetyl Synthase.) CH 3 C-S-Synthase Acetyl-Synthase + CH 2 C-ACP C - Malonyl-ACP CH 3 C-CH 2 - C-S- ACP Acetoacetyl-ACP + C 2 + HS-Synthase

39 Synthesis of Fatty Acids Step 4: the first reduction C H 3 C - C H 2 - C - S - A C P Acetoacetyl-ACP Step 5: dehydration H C H CH 2 -C- S- ACP H 3 C D- -Hydroxybutyryl-ACP + N A D P H + H + H H 3 C H C C H 2 D- -Hydroxybutyryl-ACP H C H 3 C - C - S - A C P C-S-A CP C H Crotonyl-ACP + N A D P + + H 2

40 Synthesis of Fatty Acids Step 6: the second reduction H C-S-ACP C C H 3 C H Crotonyl-ACP + NADPH + H + CH 3 -CH 2 - CH 2 -C- S- ACP Butyryl-ACP + NADP +

41

42 Synthesis of Fatty Acids The cycle now repeats on butyryl-acp CH 3 CH 2 CH 2 C-S- ACP Butyryl-ACP + CH 2 C-S-ACP - C 2 Malonyl-ACP 3. condensation 4. reduction 5. dehydration 6. reduction CH 3 CH 2 CH 2 CH 2 CH 2 C- S- ACP Hexanoyl-ACP The production is six carbon atoms (B-ketoacyl-ACP)

43

44

45 Sources of NADPH for Fatty Acid Synthesis First, oxaloacetate is reduced to malate by NADH. This reaction is catalyzed by a malate dehydrogenase in the cytosol. Second, malate is oxidatively decarboxylated by an NADP + -linked malate enzyme (also called malic enzyme).

46 ne molecule of NADPH is generated for each molecule of acetyl CoA that is transferred from mitochondria to the cytosol. Hence, eight molecules of NADPH are formed when eight molecules of acetyl CoA are transferred to the cytosol for the synthesis of palmitate. The additional six molecules of NADPH required for this process come from the pentose phosphate pathway

47 Synthesis of Fatty Acids Repeated turns of this series of reactions occurs to lengthen the growing fatty acid chain. Hexanoyl ACP returns to condense with malonyl ACP during the third turn of this cycle. Longer products also return to condense with malonyl CoA until the chain has grown to its appropriate length (most often C16).

48 Fatty Acid Metabolism Degradation Products acetyl-coa No malonyl-coa No requirement for biotin xidative process requires NAD +, FAD produces ATP Begins at carboxyl end In mitochondria, no ordered aggregate --- enzymes L- -Hydroxyacyl intermediates Synthesis Precursor s acetyl-coa Malonyl-CoA Carboxylated biotin required Reductive process requires NADPH requires ATP Begins at CH 3 CH 2 end In cytosol, catalyzed by ordered multienzyme complex D- -Hydroxyacyl-ACP intermediates

49 Fatty Acid Synthase Inhibitors May Be Useful Drugs Mice treated with inhibitors of the condensing enzyme showed remarkable weight loss due to inhibition of feeding. The results of additional studies revealed that this inhibition is due, at least in part, to the accumulation of malonyl CoA. Thus, fatty acid synthase inhibitors are exciting candidates both as antitumor and as antiobesity drugs.

50 Metabolism of Fatty Acids

51 Mammals lack the enzymes to introduce double bonds at carbon atoms beyond C-9 in the fatty acid chain. Hence,mammals cannot synthesize linoleate (18:2) and linolenate (18:3). Linoleate and linolenate are the two essential fatty acids.

52 END of part I Lipid Metabolism

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