Chapter 28, Stryer Short Course

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Presentation transcript:

Chapter 28, Stryer Short Course Fatty Acid Synthesis Chapter 28, Stryer Short Course

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”

Role of LDL and HDL

Biosynthesis of Lipids Triacylglyerides as fuels Glycerophospholipids in membrane Prostaglandins as signal molecules Cholesterol and derivatives

Fatty Acid Synthesis Opposite of beta oxidation in the sense that 2-carbon acetate units are linked to form even-chain, saturated fatty acids Differs from Fatty acid degradation In cytoplasm, not matrix Acyl carrier protein rather than CoA Enzymes linked in a complex Utilizes NADPH Energetically linked to ATP hydrolysis

Transport to Cytoplasm Acetyl CoA takes the oxaloacetate taxi out of the matrix Recycling transforms NADH into NADPH, which is reducing power needed for fatty acid synthesis

Integration of Pathways

Activation of Acetyl Group Acetyl CoA carboxylase (analogous to pyruvate carboxylase of gluconeogenesis) Requires biotin, ATP A regulation step—shifts fuel away from CAC

Transfer to Acyl Carrier Protein Acyl carrier protein is 77 residues Scaffold for building “macro CoA”

Four Step Elongation Enzyme complex coordinates synthesis Coordination of enzyme activity Makes palmitate (16 C)

Step 1: Condensation Opposite of thiolase Loss of CO2 drives reaction to completion

Rough Mechanism

Steps 2-4: Opposite of beta Oxidation Input of 2 NADPH Major use of PPP Triclosan: broad spectrum antibiotic

Synthesis of Palmitate 16-carbon fatty acid produced in major synthesis complex Problem 31: What is the ATP cost of synthesizing palmitate from acetyl-CoA?

Post-synthesis Modification Elongations possible with other enzymes Many organisms can make odd-chain fatty acids Essential Fatty acids

Prostaglandins and COX Inhibitors

Regulation Carnitine Transporter Acetyl CoA carboxylase Matrix malonyl CoA Error in this picture Actually produced by acetyl CoA carboxylase isozyme in matrix Acetyl CoA carboxylase Local AMP level Citrate and Fatty Acids Hormones

AMP level AMP-activated protein kinase Fuel sensor Inactivates acetyl CoA carboxylase under low energy conditions in cell

Citrate and Fatty Acids [Citrate] high in well fed state Lots of OAA and acetyl CoA Carboxylase forms active filaments If [fatty acids] is high, no need to synthesize Fatty acids break down filaments

Hormone-level control Glucagon and epinephrine Suppress acetyl CoA carboxylase by keeping it phosphorylated Insulin—activates storage Leads to dephosphorylation of carboxylase

Metabolism of Ethanol Liver damage Too much NADH and acetyl CoA Shuts down citric acid cycle Fatty acid synthesis upregulated “fatty liver” Ketone bodies form acidosis