Fatty Acid Catabolism C483 Spring 2013
1. Which lipid form is transported across the inner mitochondrial membrane before β-oxidation? A) Acylcarnitine. B) Fatty acyl CoA. C) Acetoacetyl CoA. D) Lysophospholipid CoA. 2. There are four steps in the β-oxidation pathway. Some reaction types are listed below. Give the proper reaction types in the order that they occur in the β-oxidation pathway. 1. Condensation5. hydration 2. Oxidation6. phosphorylation 3. Reduction 7. rearrangement 4. Thiolysis A) 1, 7, 2, 2 B) 6, 3, 4, 2 C) 1, 2, 3, 4 D) 2, 5, 2, 4
3. The conversion of the laurate CoA (a 12-carbon acylCoA) to carbon dioxide via β- oxidation, the citric acid cycle and oxidative phosphorylation yield approximately ________ ATP equivalents. A) 78 B) 80 C) 82 D) A patient is found to have a high concentration of cholesterol in the blood and deposits of cholesterol under the skin. The patient is diagnosed with familial hypercholesterolemia. What is the likely cause of this condition? A) A deficiency in insulin production by the pancreas. B) Insufficient chylomicron concentration in the blood. C) Overproduction of lysosomal lipases. D) Lack of LDL receptors on the surfaces of nonhepatic cells. 5. Ketone bodies form when ______________ is in low concentration: A)Acetyl CoA B)Triacylglyceride C)Cholesterol D)oxaloacetate
Overview Lipids as a fuel source—diet Beta oxidation – Mechanism – ATP production Ketone bodies as fuel
TAG and FA High energy – More reduced – Little water content – 9 Cal/g vs 4 Cal/g for carbs Unsaturated FA Glycerol
Digestion Cross from intestine into bloodstream
Lipoprotein Metabolism Liver is the packaging center VLDL are sent out of liver Constant cycling of LDL in blood Genetic cholesterol problem: no LDL receptors in non-liver cells HDLs are “good cholesterol”
Utilization Stage 1: Mobilization Hormone Sensitive Lipase
Utilization Stage 2: Transport into Matrix FA FA-CoA costs ATP AMP (2 ATP equivalents) Carnitine ester: high energy bond Mammals also degrade FA in peroxisome Major site of regulation of FA degradation
Utilization Stage 3: Beta Oxidation Four step process Production of – QH 2 – NADH – Acetyl CoA
Step 1: Acyl CoA Dehydrogenase Similar to succinate DH from citric acid cycle Prosthetic FAD/FADH 2 High energy electrons passed on to QH ATP
Step 2: Enoyl CoA Hydratase Similar to fumarate hydratase from citric acid cycle Addition of water No energy cost/production
Step 3: 3-hydroxyacyl CoA DH Similar to malate DH from citric acid cycle Oxidation of secondary alcohol to ketone NADH production 2.5 ATP
Step 4: Thiolase CoA is used as a nucleophile in a “nucleophilic acyl substitution” FA shortened by 2 carbons Acetyl CoA produced 10 ATP through CAC
ATP Accounting How much ATP is netted from palmitate (16 carbons)? – Cost 2 ATP to activate to palmitate CoA – Run through beta oxidation SEVEN times 7 QH2 = 10.5 ATP 7NADH = 17.5 ATP – 8 acetyl CoA produced = 80 ATP Total: 106 ATP, or ATP per carbon Compare to glucose, which is 5.33 ATP per C
Processing Other FA Unsaturated and trans fatty acids – Enzymes can handle processing – Produce 1.5 ATP less per unsaturation (why?) Odd chain fatty acids – Rare, but do occur in diet – One of 2 requirements for Vitamin B12 (cobalamine) in human diet
Alternate Fate of Acetyl CoA Fasting, Diabetes Glycolysis is down, gluconeogenesis is up Oxaloacetate depleted Citric acid cycle has diminished capacity Acetyl CoA levels build up Ketone bodies are formed
Ketone Bodies Water soluble form of lipids Less potential energy than FA Main energy source of brain in starvation Also used in muscle and intestine
Regulation
Answers 1.A 2.D 3.B 4.D 5.D