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歐亞書局
PRINCIPLES OF BIOCHEMISTRY
Chapter 21
Lipid Biosynthesis
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21.1 Biosynthesis of Fatty Acids and
Eicosanoids21.2 Biosynthesis of
Triacylglycerols21.3 Biosynthesis of Membrane Phospholipids21.4 Biosynthesis of Cholesterol, Steroids, and Isoprenoids
p.805
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Biosynthesis requires the participation of a three-carbon intermediate, malonyl-CoA, that is not involved in fatty acid breakdown.
p.805
21.1 Biosynthesis of Fatty Acidsand Eicosanoids
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Malonyl-CoA Is Formed from Acetyl-CoA and Bicarbonate
The formation of malonyl-CoA from acetyl-CoA is an irreversible process, catalyzed by acetyl-CoA carboxylase. The bacterial enzyme has three separate polypeptide subunits (Fig. 21–1).
p.805
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FIGURE 21-1 Part 1
p.806FIGURE 21–1 The acetyl-CoA carboxylase reaction.
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FIGURE 21-1 Part 2
p.806
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FIGURE 21-1 Part 3
p.806
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Fatty Acid Synthesis Proceeds in a Repeating Reaction Sequence
In all organisms, the long carbon chains of fatty acids are assembled in a repeating four-step sequence (Fig. 21–2), catalyzed by a system collectively referred to as fatty acid synthase.
There are two major variants of fatty acid synthase: fatty acid synthase I (FAS I), and fatty acid synthase II (FAS II).
p.806
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歐亞書局 p.807
FIGURE 21-2
FIGURE 21–2 Addition of two carbons to a growing fatty acyl chain: a four-step sequence.
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FIGURE 21-3(a)
p.807FIGURE 21–3 The structure of fatty acid synthase type I systems.
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FIGURE 21-3(b)
p.807
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Carbons C-16 and C-15 of the palmitate are derived from the methyl and carboxyl carbon atoms, respectively, of an acetyl-CoA used directly to prime the system at the outset (Fig. 21–4).
The Mammalian Fatty Acid Synthase Has Multiple Active Sites
Acyl carrier protein (ACP) is the shuttle that holds the system together. The Escherichia coli ACP is a small protein (Mr 8,860) containing the prosthetic group 4'-phosphopantetheine (Fig. 21–5).
p.808
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FIGURE 21-4
p.808
FIGURE 21–4 The overall process of palmitate synthesis.
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FIGURE 21-5
p.809
FIGURE 21–5 Acyl carrier protein (ACP).
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Fatty Acid Synthase Receives the Acetyl and Malonyl Groups
Step Condensation
Step Reduction of the Carbonyl Group
Step Dehydration
Step Reduction of the Double Bond
p.809
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FIGURE 21–6 Part 1
p.810
FIGURE 21–6 Sequence of events during synthesis of a fatty acid.
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FIGURE 21–6 Part 2
p.810
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FIGURE 21–6 Part 3
p.810
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FIGURE 21–6 Part 4
p.810
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FIGURE 21–6 Part 5
p.810
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FIGURE 21–6 Part 6
p.810
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FIGURE 21–6 Part 7
p.810
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FIGURE 21–6 Part 8
p.810
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The Fatty Acid Synthase Reactions Are Repeated to Form Palmitate
To start the next cycle of four reactions that lengthens the chain by two more carbons, another malonyl group is linked to the now unoccupied phosphopantetheine —SH group of ACP (Fig. 21–7).
p.811
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FIGURE 21–7
p.811
FIGURE 21–7 Beginning of the second round of the fatty acid synthesis cycle.
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Fatty Acid Synthesis Occurs in the Cytosol of Many Organisms but in the Chloroplasts of Plants
In most higher eukaryotes, the fatty acid synthase complex is found exclusively in the cytosol (Fig. 21–8), as are the biosynthetic enzymes for nucleotides, amino acids, and glucose.
In hepatocytes and adipocytes, cytosolic NADPH is largely generated by the pentose phosphate pathway and by malic enzyme (Fig. 21–9a).
p.811
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FIGURE 21-8
p.812
FIGURE 21–8 Subcellular localization of lipid metabolism.
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FIGURE 21-9
p.812
FIGURE 21–9 Production of NADPH.
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Acetate Is Shuttled out of Mitochondria as Citrate
The mitochondrial inner membrane is impermeable to acetyl-CoA, so an indirect shuttle transfers acetyl group equivalents across the inner membrane (Fig. 21–10). Intramitochondrial acetyl-CoA first reacts with oxaloacetate to form citrate, in the citric acid cycle reaction catalyzed by citrate synthase.
Citrate then passes through the inner membrane on the citrate transporter. In the cytosol, citrate cleavage by citrate lyase regenerates acetyl-CoA and oxaloacetate in an ATP-dependent reaction.
p.813
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FIGURE 21–10
p.813
FIGURE 21–10 Shuttle for transfer of acetyl groups from mitochondria to the cytosol.
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歐亞書局 p.814
Fatty Acid Biosynthesis Is Tightly Regulated
In vertebrates, palmitoyl-CoA, the principal product of fatty acid synthesis, is a feedback inhibitor of the enzyme; citrate is an allosteric activator (Fig. 21–11a).
Acetyl-CoA carboxylase is also regulated by covalent modification.
In its active (dephosphorylated) form, acetyl-CoA carboxylase polymerizes into long filaments (Fig. 21–11b).
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FIGURE 21–11
p.814
FIGURE 21–11 Regulation of fatty acid synthesis.
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Long-Chain Saturated Fatty Acids Are Synthesized fromPalmitate
Palmitate, the principal product of the fatty acid synthase system in animal cells, is the precursor of other long-chain fatty acids (Fig. 21–12).
It may be lengthened to form stearate (18:0) or even longer saturated fatty acids by further additions of acetyl groups, through the action of fatty acid elongation systems present in the smooth endoplasmic reticulum and in mitochondria.
p.814
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FIGURE 21-12
p.815
FIGURE 21–12 Routes of synthesis of other fatty acids.
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Desaturation of Fatty Acids Requires a Mixed-Function Oxidase
Palmitate and stearate serve as precursors of the two most common monounsaturated fatty acids of animal tissues: palmitoleate, 16:1(Δ9), and oleate, 18:1(Δ9); both of these fatty acids have a single cis double bond between C-9 and C-10.
The double bond is introduced into the fatty acid chain by an oxidative reaction catalyzed by fatty acyl–CoA desaturase (Fig. 21–13), a mixed-function oxidase.
p.815
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FIGURE 21-13
p.815
FIGURE 21–13 Electron transfer in the desaturation of fatty acids invertebrates.
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The ER enzymes act not on free fatty acids but on a phospholipid, phosphatidylcholine, that contains at least one oleate linked to the glycerol (Fig. 21–14).
Because they are necessary precursors for the synthesis of other products, linoleate and α-linolenate are essential fatty acids for mammals.
p.815
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FIGURE 21-14
p.817
FIGURE 21–14 Action of plant desaturases.
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Eicosanoids Are Formed from 20-Carbon Polyunsaturated Fatty Acids
Enzymes of the smooth ER then convert arachidonate to prostaglandins, beginning with the formation of prostaglandin H2 (PGH2), the immediate precursor of many other prostaglandins and of thromboxanes (Fig. 21–15a).
The two reactions that lead to PGH2 are catalyzed by a bifunctional enzyme, cyclooxygenase (COX), also called prostaglandin H2 synthase.
p.817
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FIGURE 21-15(a)
p.818
FIGURE 21–15 The “cyclic” pathway from arachidonate toprostaglandins and thromboxanes.
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歐亞書局 p.818
FIGURE 21-15(b)
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FIGURE 21-15(c)
p.818
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歐亞書局
Thromboxane synthase, present in blood platelets (thrombocytes), converts PGH2 to thromboxane A2, from which other thromboxanes are derived (Fig. 21–15a).
Thromboxanes, like prostaglandins, contain a ring of five or six atoms; the pathway from arachidonate to these two classes of compounds is sometimes called the “cyclic” pathway, to distinguish it from the “linear” pathway that leads from arachidonate to the leukotrienes, which are linear compounds (Fig. 21–16).
p.819
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FIGURE 21-16
p.819
FIGURE 21–16 The “linear” pathway from arachidonate toleukotrienes.
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21.2 Biosynthesis of TriacylglycerolsTriacylglycerols and Glycerophospholipids Are Synthesized from the Same Precursors
The vast majority of the glycerol 3-phosphate is derived from the glycolytic intermediate dihydroxyacetone phosphate (DHAP) by the action of the cytosolic NAD-linked glycerol 3-phosphate dehydrogenase; in liver and kidney, a small amount of glycerol 3-phosphate is also formed from glycerol by the action of glycerol kinase (Fig. 21–17).
The other precursors of triacylglycerols are fatty acyl–CoAs, formed from fatty acids by acyl-CoA synthetases.
p.820
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FIGURE 21-17 Part 1
p.820
FIGURE 21–17 Biosynthesis of phosphatidic acid.
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FIGURE 21-17 Part 2
p.820
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The first stage in the biosynthesis of triacylglycerols is the acylation of the two free hydroxyl groups of Lglycerol 3-phosphate by two molecules of fatty acyl–CoA to yield diacylglycerol 3-phosphate, more commonly called phosphatidic acid or phosphatidate.
In the pathway to triacylglycerols, phosphatidic acid is hydrolyzed by phosphatidic acid phosphatase to form a 1,2-diacylglycerol (Fig. 21–18).
p.821
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FIGURE 21-18
p.821
FIGURE 21–18 Phosphatidic acid in lipid biosynthesis.
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Triacylglycerol Biosynthesis in Animals Is Regulated by Hormones
The rate of triacylglycerol biosynthesis is profoundly altered by the action of several hormones. Insulin, for example, promotes the conversion of carbohydrate to triacylglycerols (Fig. 21–19).
p.821
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FIGURE 21-19
p.821
FIGURE 21–19 Regulation of triacylglycerol synthesis by insulin.
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FIGURE 21-20
p.822
FIGURE 21–20 The triacylglycerol cycle.
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歐亞書局 p.822
Flux through this triacylglycerol cycle between adipose tissue and liver may be quite low when other fuels are available and the release of fatty acids from adipose tissue is limited, but as noted above, the proportion of released fatty acids that are reesterified remains roughly constant at 75% under all metabolic conditions.
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Adipose Tissue Generates Glycerol 3-phosphate by Glyceroneogenesis
Glyceroneogenesis is a shortened version of gluconeogenesis, from pyruvate to DHAP (see Fig. 14–16), followed by conversion of the DHAP to glycerol 3-phosphate by cytosolic NAD-linked glycerol 3-phosphate dehydrogenase (Fig. 21–21).
Acting through the glucocorticoid receptor, these steroid hormones increase the expression of the gene encoding PEP carboxykinase in the liver, thus increasing gluconeogenesis and glyceroneogenesis (Fig. 21–22).
p.822
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FIGURE 21-21
p.822
FIGURE 21–21 Glyceroneogenesis.
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FIGURE 21-22(a)
p.823FIGURE 21–22 Regulation of glyceroneogenesis.
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FIGURE 21-22(b)
p.823
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21.3 Biosynthesis of Membrane Phospholipids In eukaryotic cells, phospholipid synthesis occurs
primarily on the surfaces of the smooth endoplasmic reticulum and the mitochondrial inner membrane.
Cells Have Two Strategies for Attaching Phospholipid Head Groups
The polar head group of glycerophospholipids is attached through a phosphodiester bond, in which each of two alcohol hydroxyls forms an ester with phosphoric acid (Fig. 21–23).
p.824
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FIGURE 21-23
p.825
FIGURE 21–23 Head-group attachment.
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FIGURE 21-24
p.825
FIGURE 21–24 Two general strategies for forming the phosphodiester bond of phospholipids.
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The CDP is attached either to the diacylglycerol, forming the activated phosphatidic acid CDP-diacylglycerol (strategy 1), or to the hydroxyl of the head group (strategy 2).
Phospholipid Synthesis in E.coli Employs CDP-Diacylglycerol
The diacylglycerol is activated by condensation of phosphatidic acid with cytidine triphosphate (CTP) to form CDP-diacylglycerol, with the elimination of pyrophosphate (Fig. 21–25).
p.825
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FIGURE 21-25 Part 1
p.826
FIGURE 21–25 Origin of the polar head groups of phospholipids in E. coli.
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FIGURE 21-25 Part 2
p.826
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FIGURE 21-25 Part 3
p.826
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Eukaryotes Synthesize Anionic Phospholipids from CDP-Diacylglycerol
Cardiolipin synthesis in eukaryotes differs slightly: phosphatidylglycerol condenses with CDP-diacylglycerol (Fig. 21–26), not another molecule of phosphatidylglycerol as in E. coli.
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FIGURE 21-26
p.827
FIGURE 21–26 Synthesis of cardiolipin and phosphatidylinositolin eukaryotes.
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Eukaryotic Pathways to Phosphatidylserine, Phosphatidylethanolamine, and Phosphatidylcholine Are Interrelated
Yeast, like bacteria, can produce phosphatidylserine by condensation of CDP-diacylglycerol and serine, and can synthesize phosphatidylethanolamine from phosphatidylserine in the reaction catalyzed by phosphatidylserine decarboxylase (Fig. 21–27).
Phosphatidylethanolamine may be converted to phosphatidylcholine (lecithin) by the addition of three methyl groups to its amino group.
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FIGURE 21-27 Part 1
p.828
FIGURE 21–27 The major path from phosphatidylserineto phosphatidylethanolamine and phosphatidylcholine in all eukaryotes.
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FIGURE 21-27 Part 2
p.828
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The pathways to phosphatidylcholine and phosphatidylethanolamine in various organisms are summarized in Figure 21–29.
Plasmalogen Synthesis Requires Formation of an Ether-Linked Fatty Alcohol
The biosynthetic pathway to ether lipids, including plasmalogens and the platelet-activating factor, involves the displacement of an esterified fatty acyl group by a long-chain alcohol to form the ether linkage (Fig. 21–30).
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FIGURE 21-29
p.829
FIGURE 21–29 Summary of the pathways for synthesis of major phospholipids.
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Sphingolipid and Glycerophospholipid Synthesis Share Precursors and Some Mechanisms
The biosynthesis of sphingolipids takes place in four stages: (1) synthesis of the 18-carbon amine sphinganine from palmitoyl-CoA and serine; (2) attachment of a fatty acid in amide linkage to yield N-acylsphinganine; (3) desaturation of the sphinganine moiety to form N-acylsphingosine (ceramide); and (4) attachment of a head group to produce a sphingolipid such as a cerebroside or sphingomyelin.
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21.4 Biosynthesis of Cholesterol,Steroids, and IsoprenoidsCholesterol Is Made from Acetyl-CoA in Four Stages
The pattern of labeling in the cholesterol isolated from the two groups of animals (Fig. 21–32) provided the blueprint for working out the enzymatic steps in cholesterol biosynthesis.
Synthesis takes place in four stages, as shown in Figure 21–33.
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FIGURE 21-32
p.832
FIGURE 21–32 Origin of the carbon atoms of cholesterol.
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FIGURE 21-33
p.832
FIGURE 21–33 Summary of cholesterol biosynthesis.
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Stage Synthesis of Mevalonate from Acetate
The first stage in cholesterol biosynthesis leads to the intermediate mevalonate (Fig. 21–34).
Stage Conversion of Mevalonate to Two Activated Isoprenes
In the next stage of cholesterol synthesis, three phosphate groups are transferred from three ATP molecules to mevalonate (Fig. 21–35).
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FIGURE 21-34 Part 1
p.833
FIGURE 21–34 Formation of mevalonate from acetyl-CoA.
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FIGURE 21-34 Part 2
p.833
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FIGURE 21-35 Part 1
p.833FIGURE 21–35 Conversion of mevalonate to activated isoprene units.
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FIGURE 21-35 Part 2
p.833
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Stage Condensation of Six Activated Isoprene Units toForm Squalene
Geranyl pyrophosphate undergoes another head-to-tail condensation with isopentenyl pyrophosphate, yielding the 15-carbon intermediate farnesyl pyrophosphate. Finally, two molecules of farnesyl pyrophosphate join head to head, with the elimination of both pyrophosphate groups, to form squalene.
Stage Conversion of Squalene to the Four-Ring Steroid Nucleus
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FIGURE 21-36 Part 1
p.834
FIGURE 21–36 Formation of squalene.
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FIGURE 21-36 Part 2
p.834
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FIGURE 21-37 Part 1
p.835
FIGURE 21–37 Ring closure converts linear squalene to the condensed steroid nucleus.
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FIGURE 21-37 Part 2
p.835
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Cholesterol and Other Lipids Are Carried on Plasma Lipoproteins
They are carried in the blood plasma as plasma lipoproteins, macromolecular complexes of specific carrier proteins, apolipoproteins, with various combinations of phospholipids, cholesterol, cholesteryl esters, and triacylglycerols.
Chylomicrons are the largest of the lipoproteins and the least dense, containing a high proportion of triacylglycerols.
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TABLE 21-1
p.836
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FIGURE 21-39(a)
p.837FIGURE 21–39 Lipoproteins.
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FIGURE 21-39(b)
p.837
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TABLE 21-2
p.837
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When the diet contains more fatty acids than are needed immediately as fuel, they are converted to triacylglycerols in the liver and packaged with specific apolipoproteins into very-low-density lipoprotein (VLDL).
The loss of triacylglycerol converts some VLDL to VLDL remnants (also called intermediate density lipoprotein, IDL); further removal of triacylglycerol from VLDL produces low-density lipoprotein (LDL).
p.838
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FIGURE 21-40(a)
p.838FIGURE 21–40 Lipoproteins and lipid transport.
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FIGURE 21-40(b)
p.838
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The fourth major lipoprotein type, high-density lipoprotein (HDL), originates in the liver and small intestine as small, protein-rich particles that contain relatively little cholesterol and no cholesteryl esters.
HDLs contain apoA-I, apoC-I, apoC-II, and other apolipoproteins, as well as the enzyme lecithin-cholesterol acyl transferase (LCAT), which catalyzes the formation of cholesteryl esters from lecithin (phosphatidylcholine) and cholesterol (Fig. 21–41).
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FIGURE 21-41
p.839
FIGURE 21–41 Reaction catalyzed by lecithin-cholesterol acyl transferase (LCAT).
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Depleted HDL can also pick up cholesterol stored in extrahepatic tissues and carry it to the liver, in reverse cholesterol transport pathways.
Cholesteryl Esters Enter Cells by Receptor-Mediated Endocytosis
The binding of LDL to an LDL receptor initiates endocytosis, which conveys the LDL and its receptor into the cell within an endosome (Fig. 21–42).
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FIGURE 21-42
p.840
FIGURE 21–42 Uptake of cholesterol by receptor-mediated endocytosis.
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Cholesterol Biosynthesis Is Regulated at Several Levels
It is SCAP that binds cholesterol and a number of other sterols, thus acting as a sterol sensor. When sterol levels are high, the SCAP-SREBP complex probably interacts with another protein that retains the entire complex in the ER.
Several other mechanisms also regulate cholesterol synthesis (Fig. 21–44).
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FIGURE 21-43
p.841
FIGURE 21–43 SREBP activation.
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FIGURE 21-44
p.842
FIGURE 21–44 Regulation of cholesterol formation balances synthesis with dietary uptake.
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When the sum of cholesterol synthesized and cholesterol obtained in the diet exceeds the amount required for the synthesis of membranes, bile salts, and steroids, pathological accumulations of cholesterol in blood vessels (atherosclerotic plaques) can develop, resulting in obstruction of blood vessels (atherosclerosis).
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Steroid Hormones Are Formed by Side-Chain Cleavage and Oxidation of Cholesterol
Humans derive all their steroid hormones from cholesterol (Fig. 21–45). Two classes of steroid hormones are synthesized in the cortex of the adrenal gland: mineralocorticoids and glucocorticoids.
Sex hormones are produced in male and female gonads and the placenta. They include progesterone, and androgens and estrogens.
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Synthesis of steroid hormones requires removal of some or all of the carbons in the “side chain” on C-17 of the D ring of cholesterol.
p.844
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FIGURE 21-45
p.844FIGURE 21–45 Some steroid hormones derived from cholesterol.
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FIGURE 21-46 Part 1
p.844
FIGURE 21–46 Side-chain cleavage in the synthesis of steroid hormones.
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FIGURE 21-46 Part 2
p.844
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Intermediates in Cholesterol Biosynthesis Have Many Alternative Fates
In addition to its role as an intermediate in cholesterol biosynthesis, isopentenyl pyrophosphate is the activated precursor of a huge array of biomolecules with diverse biological roles (Fig. 21–47).
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FIGURE 21-47
p.845FIGURE 21–47 Overview of isoprenoid biosynthesis.