Biochemistry of lipids, lipoproteins, and membranes:
Gespeichert in:
| Format: | Buch |
|---|---|
| Sprache: | English |
| Veröffentlicht: |
Amsterdam [u.a.]
Elsevier
2002
|
| Ausgabe: | 4. ed. |
| Schriftenreihe: | New comprehensive biochemistry
36 |
| Schlagworte: | |
| Online-Zugang: | Inhaltsverzeichnis |
| Beschreibung: | Includes bibliographical references and index |
| Beschreibung: | XXIX, 607 S. Ill., graph. Darst. |
| ISBN: | 0444511385 0444511393 |
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| 245 | 1 | 0 | |a Biochemistry of lipids, lipoproteins, and membranes |c ed.: Dennis E. Vance and Jean E. Vance |
| 250 | |a 4. ed. | ||
| 264 | 1 | |a Amsterdam [u.a.] |b Elsevier |c 2002 | |
| 300 | |a XXIX, 607 S. |b Ill., graph. Darst. | ||
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| 490 | 1 | |a New comprehensive biochemistry |v 36 | |
| 500 | |a Includes bibliographical references and index | ||
| 650 | 7 | |a Lipid Metabolism |2 cabt | |
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| 650 | 7 | |a Lipoproteins |2 cabt | |
| 650 | 7 | |a Cell Membranes |2 cabt | |
| 650 | 7 | |a Biochemistry |2 cabt | |
| 650 | 4 | |a Lipides - Métabolisme | |
| 650 | 4 | |a Lipoprotéines - Métabolisme | |
| 650 | 4 | |a Membranes lipidiques | |
| 650 | 4 | |a Cell Membrane |x physiology | |
| 650 | 4 | |a Lipid Metabolism | |
| 650 | 4 | |a Lipid membranes | |
| 650 | 4 | |a Lipids |x Metabolism | |
| 650 | 4 | |a Lipoproteins |x Metabolism | |
| 650 | 4 | |a Lipoproteins |x metabolism | |
| 650 | 4 | |a Signal Transduction | |
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Datensatz im Suchindex
| _version_ | 1804129679621226496 |
|---|---|
| adam_text | Contents
Preface v
List of contributors vii
Other volumes in the series xxvii
Chapter 1. Functional roles of lipids in membranes
William Dowhan and Mikhail Bogdanov 1
1. Introduction and overview 1
2. Diversity in lipid structure 2
2.1. Glycerol based lipids 2
2.2. Diglucoseamine phosphate based lipids 5
3. Properties of lipids in solution 7
3.1. Why do polar lipids self associate? 7
3.2. Physical properties of membrane bilayers 10
3.3. Special properties of cardiolipin 12
3.4. What does the membrane bilayer look like? 12
4. Engineering of membrane lipid composition 13
4.1. Alteration of lipid composition in bacteria 15
4.2. Alteration of lipid composition in yeast 16
5. Role of lipids in cell function 17
5.1. The bilayer as a supramolecular lipid matrix 17
5.1.1. Physical organization of the bilayer 17
5.1.2. Biological importance of non bilayer lipids 18
5.2. Selectivity of protein lipid interactions 19
5.2.1. Lipid association with a helical proteins 20
5.2.2. Lipid association with fi barrel proteins 22
5.2.3. Organization of protein complexes 22
5.2.4. Binding sites for peripheral membrane proteins 23
5.3. Translocation of proteins across membranes 24
5.4. Assembly of integral membrane proteins 25
5.4.1. Lipid assisted folding of membrane proteins 25
5.4.2. Scope of lipochaperone function 28
5.5. Lipid domains 28
5.5.1. Lipid rafts 29
5.5.2. Lipid domains in bacteria 31
5.6. Cytokinesis 31
6. Future directions 32
Abbreviations 33
References 33
xii
Chapter 2. Lipid modifications of proteins
Nikola A. Baumann and Anant K. Menon 37
1. Preamble 37
2. Protein prenylation 37
2.1. The CaaX prenyltransferases FTase and GGTase I 40
3. Myristoylation 41
3.1. AT Myristoyltransferase (NMT) 41
3.2. Myristoyl switches to regulate protein function 41
4. Protein thioacylation 42
4.1. Examples of thioacylated proteins 42
4.2. Membrane anchoring of thioacylated proteins: the need for multiple lipid modifications
and the role of dynamic thioacylation 43
4.3. Thioesterases 44
5. Cholesterol modification 45
5.1. Addition of cholesterol to hedgehog proteins 46
5.2. Biological significance of cholesterol modification 46
6. GPI anchoring of proteins 47
6.1. Biosynthesis of GPI 47
6.2. Subcellular location and membrane topology of GPI biosynthesis 49
6.3. Attachment of GPIs to proteins 49
6.4. GPI anchoring in mammals, parasitic protozoa and yeast 51
6.5. Functions of GPI anchors 52
7. Future directions 52
Abbreviations 53
References 53
Chapter 3. Fatty acid and phospholipid metabolism in prokaryotes
Richard J. Heath, Suzanne Jackowski and Charles O. Rock 55
1. Bacterial lipid metabolism 55
2. Membrane systems of bacteria 56
3. Bacterial fatty acid biosynthesis 57
3.1. Acyl carrier protein 57
3.2. Acetyl CoA carboxylase 59
3.3. Initiation of fatty acid biosynthesis 60
3.4. Elongation of acyl chains 61
3.4.1. The p ketoacyl ACP synthases 61
3.4.2. f5 Ketoacyl ACP reductase 62
3.4.3. p Hydroxyacyl ACP dehydrase 62
3.4.4. Enoyl ACP reductase 63
3.5. Synthesis of unsaturated fatty acids 63
3.6. Afterword: dissociable or dissociated enzymes? 64
4. Transfer to the membrane 65
5. Phospholipid biosynthesis 66
5.1. Phosphatidate cytidylyltransferase 66
5.2. Phosphatidylethanolamine production 68
5.2.1. Phosphatidylserine synthase 68
5.2.2. Phosphatidylserine decarboxylase 68
5.3. Phosphatidylglycerol synthesis 69
5.3.1. Phosphatidylglycerolphosphate synthase 69
5.3.2. PGP phosphatases 69
xiii
5.4. Cardiolipin biosynthesis 70
5.5. Cyclopropane fatty acids 70
6. Lipid A biosynthesis 71
7. Phospholipid flippase 73
8. Degradation of fatty acids and phospholipids 74
8.1. P Oxidation of fatty acids 74
8.1.1. Transport of fatty acids across the membrane 74
8.1.2. Degradation of fatty acids 74
8.2. Phospholipases 76
8.3. Thioesterases 77
9. Phospholipid turnover 78
9.1. The diacylglycerol cycle 78
9.2. The 2 acylglycerolphosphoethanolamine cycle 78
10. Regulation of lipid metabolism 80
10.1. Regulation of fatty acid chain length 80
10.2. Temperature modulation of fatty acid composition 80
10.3. Transcriptional regulation of the genes of fatty acid synthesis and degradation 81
10.4. Regulation of phospholipid headgroup composition 82
10.5. Coordinate regulation of fatty acid and phospholipid synthesis with macromolecular
biosynthesis 82
11. Lipid metabolism in other bacteria 84
11.1. Analysis of lipid metabolism by genomic inference 84
11.2. Branched chain fatty acid biosynthesis 85
11.3. Other ways to make unsaturated fatty acids 85
11.4. Bacteria with other phospholipid headgroups 86
11.5. Bacteria with a type I fatty acid synthase 87
11.6. Lipid synthesis in Archea 87
11.7. Other organisms with a bacterial like fatty acid synthase system 87
12. Inhibitors of lipid metabolism 88
12.1. p Decynoyl Af acetylcysteamine 88
12.2. Cerulenin and thiolactomycin 88
12.3. Diazaborines, isoniazid and triclosan 89
12.4. Lipid A biosynthesis inhibitors 89
13. Future directions 90
Abbreviations 90
References 91
Chapter 4. Lipid metabolism in plants
Katherine M. Schmid and John B. Ohlrogge 93
1. Introduction 93
2. Plant lipid geography 94
2.1. Plastids 94
2.2. Endoplasmic reticulum and lipid bodies 98
2.3. Mitochondria 98
2.4. Glyoxysomes and peroxisomes 98
3. Acyl ACP synthesis in plants 99
3.1. Components of plant fatty acid synthase 99
3.2. Desaturation of acyl ACPs 100
3.3. Acyl ACP thioesterases 100
4. Acetyl CoA carboxylase and control of fatty acid synthesis 101
4.1. Two forms of acetyl CoA carboxylase 101
4.2. Acetyl CoA carboxylase as control point 101
xiv
5. Phosphatidic acid synthesis: prokaryotic and eukaryotic acyltransferases 102
5.1. Plastidial acyltransferases 102
5.2. Extraplastidial acyltransferases 102
5.3. 16:3 and 18:3 plants 103
6. Glycerolipid synthesis pathways 103
6.1. Glycerolipids as substrates for desaturation 104
7. Lipid storage in plants 105
7.1. Lipid body structure and biogenesis 105
7.2. Seed triacylglycerols often contain unusual fatty acids 106
7.3. The pathway of triacylglycerol biosynthesis 107
7.4. Challenges in understanding triacylglycerol synthesis 108
8. Protective lipids 109
9. Sterol, isoprenoid and sphingolipid biosynthesis 109
10. Oxylipins as plant hormones 112
11. Progress in plant lipid research: the value of mutants 114
11.1. Mutants in lipid metabolism have helped link lipid structure and function 114
11.2. Arabidopsis mutants have allowed cloning of desaturases and elongases 117
12. Design of new plant oils 118
12.1. Design of new edible oils 119
12.1.1. Improvements in nutritional value and stability of vegetable oils 119
12.1.2. Alternatives to hydrogenated margarines and shortenings 120
12.2. Design of new industrial oils 121
12.2.1. High laurate and caprate oils 121
12.2.2. Production of waxes 122
12.2.3. Other industrial oils 123
13. Future prospects 123
Abbreviations 125
References 125
Chapter 5. Oxidation of fatty acids in eukaryotes
HorstSchulz 127
1. The pathway of p oxidafion: a historical account 127
2. Uptake and activation of fatty acids in animal cells 128
3. Fatty acid oxidation in mitochondria 130
3.1. Mitochondrial uptake of fatty acids 130
3.2. Enzymes of P oxidation in mitochondria 132
3.3. P Oxidation of unsaturated fatty acids 137
3.4. Regulation of fatty acid oxidation in mitochondria 139
4. Fatty acid oxidation in peroxisomes 142
4.1. Fatty acid uptake by peroxisomes 142
4.2. Pathways and enzymology of peroxisomal a oxidation and P oxidation 143
5. Inherited diseases of fatty acid oxidation 146
6. Future directions 148
Abbreviations 148
References 148
Chapter 6. Fatty acid synthesis in eukaryotes
Vangipuram S. Rangan and Stuart Smith 151
1. Introduction 151
2. Acetyl CoA carboxylase 152
XV
2.1. The reaction sequence 152
2.2. Domain organization 152
2.3. Isoforms 153
3. Fatty acid synthase 153
3.1. The reaction sequence 153
3.2. The catalytic components 154
3.3. Domain organization 155
3.4. Chain initiation 156
3.5. Chain termination and product specificity 157
3.6. Interdomain communication 158
4. Short term regulation of fatty acid synthesis 161
4.1. Regulation of substrate supply for fatty acid synthesis 161
4.2. Regulation of acetyl CoA carboxylase a activity by reversible phosphorylation 162
4.3. Malonyl CoA, fuel sensing and appetite control 164
5. Regulation of the intracellular concentration of lipogenic enzymes 165
5.1. Strategies and methodology 165
5.2. The acetyl CoA carboxylase promoter 166
5.3. The fatty acid synthase promoter 167
5.4. Transcriptional regulation of lipogenic gene expression in response to dietary carbohydrate 168
5.4.1. The role of SREBPs 170
5.4.2. The role of SREBP co activators 171
5.4.3. TheroleofUSFs 172
5.4.4. The role of carbohydrate response elements 172
5.4.5. Signaling pathways 172
5.4.6. The role of thyroid hormone 173
5.4.7. Down regulation during fasting 173
5.4.8. Summary 174
5.5. Transcriptional regulation of lipogenic gene expression in response to dietary polyunsatu
rated fatty acids 174
5.6. Transcriptional regulation during development 175
6. Future directions 175
Abbreviations 177
References 177
Chapter 7. Fatty acid desaturation and chain elongation in eukaryotes
Harold W. Cook and Christopher R. McMaster 181
1. Introduction 181
1.1. Physical consequences of fatty acyl chain desaturation and elongation 181
1.2. Fatty acyl chains and biology 182
2. Chain elongation of long chain fatty acids 183
2.1. Endoplasmic reticulum elongation system 184
2.2. Mitochondrial elongation system 186
2.3. Functions of elongation systems 186
3. Formation of monounsaturated fatty acids by oxidative desaturation 187
3.1. Nomenclature to describe double bonds 187
3.2. Characteristics of monounsaturated fatty acid forming desaturation enzymes 188
3.3. Modification of A9 desaturase activities in vitro 190
3.4. Age related, dietary and hormonal regulation of A9 desaturase 190
4. Formation of polyunsaturated fatty acids 192
4.1. Characteristics in animal systems 192
4.2. Essential fatty acids — a contribution of plant systems 193
4.3. Families of fatty acids and their metabolism 193
xvi
4.3.1. The n 6 family 194
4.3.2. The n 3 family 196
4.3.3. The n 9 family 197
4.3.4. The n 7 family 198
5. Unsaturated fatty acids with trans double bonds 198
5.1. General properties 198
5.2. Trans polyenoic fatty acids 198
5.3. Fatty acids with conjugated double bonds 199
6. Abnormal patterns of distribution and metabolism of long chain saturated and unsaturated fatty
acids 199
6.1. Deficiency of essential fatty acids and related nutrients 199
6.2. Relationships to plasma cholesterol 200
7. Regulation through sensors and receptors 201
7.1. Membrane sensing factors and response elements 201
7.2. Peroxisomal proliferator activated receptors (PPARs) 201
8. Future directions 201
Abbreviations 202
References 202
Chapter 8. Phospholipid biosynthesis in eukaryotes
Dennis E. Vance 205
1. Introduction 205
2. Phosphatidic acid biosynthesis and conversion to diacylglycerol 205
2.1. Glycerol 3 P acyltransferase 205
2.2. l Acylglycerol 3 P acyltransferase 207
2.3. Dihydroxyacetone P acyltransferase 208
2.4. Phosphatidic acid phosphatase 208
3. Phosphatidylcholine biosynthesis 209
3.1. Historical background 209
3.2. Choline transport and oxidation 210
3.3. Choline kinase 210
3.4. CTP: phosphocholine cytidylyltransferase 211
3.5. CDP choline: 1,2 diacylglycerol cholinephosphotransferase 212
3.6. Phosphatidylethanolamine Af methyltransferase 213
4. Regulation of phosphatidylcholine biosynthesis 215
4.1. The rate limiting reaction 215
4.2. The translocation hypothesis 216
4.3. Regulation of phosphatidylcholine biosynthesis by lipids 216
4.4. Phosphorylation of cytidylyltransferase 218
4.5. Transcriptional and post transcriptional regulation of CTa 218
4.6. Transgenic and gene disrupted murine models of CTa 219
5. Phosphatidylethanolamine biosynthesis 219
5.1. Historical background and biosynthetic pathways 219
5.2. Enzymes of the CDP ethanolamine pathway 220
5.3. Regulation of the CDP ethanolamine pathway 222
5.4. Phosphatidylserine decarboxylase 222
6. Phosphatidylserine biosynthesis 222
6.1. Historical developments and biosynthesis 222
6.2. Chinese hamster ovary cell mutants and regulation 223
7. Inositol phospholipids 224
7.1. Historical developments 224
7.2. CDP diacylglycerol synthase 224
xvii
7.3. Phosphatidylinositol synthase 224
8. Polyglycerophospholipids 225
8.1. Historical developments and biosynthetic pathways 225
8.2. Enzymes and subcellular location 226
9. Remodeling of the acyl substituents of phospholipids 227
10. Regulation of gene expression in yeast 229
11. Future directions 230
Abbreviations 231
References 231
Chapter 9. Ether linked lipids and their bioactive species
Fred Snyder, Ten ching Lee and Robert L. Wykle 233
1. Introduction 233
2. Historical highlights 233
3. Natural occurrence 235
4. Physical properties 237
5. Biologically active ether lipids 237
5.1. Platelet activating factor 237
5.2. Other ether linked mediators 239
5.3. Oxidized phospholipids 239
5.4. Receptors, overexpression, and knockout mice 239
5.5. Receptor antagonists 240
6. Enzymes involved in ether lipid synthesis 240
6.1. Ether lipid precursors 240
6.1.1. Acyl Co A reductase 240
6.1.2. Dihydroxyacetone P acyltransferase 241
6.2. Ether lipids 241
6.2.1. O Alkyl bond: mechanism of formation 241
6.2.2. O Alkyl analog of phosphatidic acid and alkylacylglycerols 243
6.2.3. Neutral ether linked glycerolipid 244
6.2.4. O Alkyl choline and ethanolamine containing phospholipids 244
6.2.5. Ethanolamine plasmalogens 245
6.2.6. Choline plasmalogens 245
6.3. PAF and related bioactive species 246
6.3.1. Remodeling route 246
6.3.2. De novo route 250
6.3.3. PAF transacetylase 250
7. Catabolic enzymes 253
7.1. Ether lipid precursors 253
7.1.1. Fatty alcohols 253
7.1.2. Dihydroxyaeetone P and acyldihydroxyacetone P 253
7.2. Ether linked lipids 254
7.2.1. O Alkyl cleavage enzyme 254
7.2.2. Plasmalogenases 255
7.2.3. Phospholipases and Upases 255
7.3. PAF and related bioactive species 255
7.3.1. Acetylhydrolase 255
8. Metabolic regulation 257
9. Functions 259
9.1. Membrane components 259
9.2. Cell mediators 259
10. Future directions 259
References 260
xviii
Chapter 10. Adipose tissue and lipid metabolism
David A. Bernlohr, Anne E. Jenkins and Assumpta A. Bennaars 263
1. Introduction 263
2. Adipose development 263
2.1. Development of white and brown adipose tissue in vivo 263
2.2. In situ models of adipose conversion 264
2.3. Transcriptional control during development 265
2.3.1. C/EBP family of transcription factors 265
2.3.2. PPAR/RXR family of transcription factors 266
2.3.3. SREBP family of factors 268
3. Biochemical aspects of lipid metabolism 269
3.1. Lipid delivery to adipose tissue 269
3.2. Fatty acid uptake and trafficking 269
3.3. Glucose transport and the generation of the triacylglycerol backbone 270
3.4. Fatty acid and triacylglycerol biosynthesis 271
3.5. Triacylglycerol mobilization 272
3.5.1. Catecholamines and adrenoreceptors in adipocytes 275
3.5.2. Glucagon 276
3.5.3. Steroid and thyroid hormone 277
3.5.4. Insulin and anti lipolysis 277
3.6. Brown fat lipid metabolism 279
3.6.1. Triacylglycerol synthesis and storage 280
3.6.2. Fatty acid oxidation, bioenergetics and thermogenesis 281
4. Molecular cell biology of adipose tissue 282
4.1. Energy balance and basal metabolic rate 282
4.2. The hypothalamus adipocyte circuit and the ob gene 283
4.3. Cytokine control of adipose lipid metabolism 285
5. Future directions 286
Abbreviations 287
References 288
Chapter 11. Phospholipases
David C. Wilton and Moseley Waite 291
1. Overview 291
1.1. Definition of phospholipases 291
1.2. Assay of phospholipases 292
1.3. Interaction of phospholipases with interfaces 293
1.3.1. Substrate effects 294
1.3.2. Enzyme effects 295
2. The phospholipases 296
2.1. Phospholipase A [ 296
2.1.1. Escherichia coli phospholipases A 296
2.1.2. Upases with phospholipase Ai activity 298
2.2. Phospholipase B and lysophospholipases 298
2.2.1. Phospholipase B from microorganisms 298
2.2.2. Mammalian lysophospholipases 298
2.3. Phospholipase hz 299
2.3.1. The 14 kDa secreted phospholipases Ai 299
2.3.2. Phospholipases A^ that involve a catalytic serine residue 307
2.4. Phospholipase C 310
xix
2.4.1. Bacterial phospholipases C 310
2.4.2. Mammalian phospholipases C 310
2.5. Phospholipase D 311
3. Future directions 312
Abbreviations 313
References 313
Chapter 12. Glycerolipids in signal transduction
Linda C. McPhail 315
1. Introduction 315
2. Inositol phosphates 316
2.1. Mechanisms of generation and metabolism 316
2.1.1. Phosphoinositide hydrolyzing phospholipase C 316
2.1.2. Inositol phosphate kinases and phosphatases 319
2.2. Cellular targets 320
2.2.1. Control of intracellular calcium levels by inositol 1,4,5 trisphosphate 320
2.2.2. Targets for other inositol phosphates 320
3. Diacylglycerols 320
3.1. Mechanisms of generation and metabolism 320
3.1.1. Hydrolysis of phospholipids 320
3.1.2. Diacylglycerol kinases 322
3.2. Protein kinase C is an important target for diacylglycerol 323
3.3. Non PKC targets of diacylglycerol 324
4. Phospholipase D and the generation of phosphatidic acid 325
4.1. Discovery and molecular nature of phospholipase D 325
4.2. Localization and regulation of phospholipase D 326
4.3. Functions regulated by phospholipase D and phosphatidic acid 327
4.3.1. Membrane trafficking, secretion and cell proliferation 327
4.3.2. NADPH oxidase 328
5. Phosphoinositides 328
5.1. Phosphoinositide kinases and phosphatases 330
5.1.1. Phosphatidylinositol 4 and 5 kinases 330
5.1.2. Phosphoinositide 3 kinases 330
5.1.3. PTEN and other phosphoinositide phosphatases 332
5.2. Cellular targets 335
5.2.1. Domains that bind polyphosphoinositides 335
5.2.2. Domains that bind phosphatidylinositol 3 phosphate 336
6. Lysophosphatidic acid and other lysophospholipids 337
6.1. Sources of lysophospholipids 337
6.2. Lysophospholipids are extracellular signaling molecules 337
7. Future directions 338
Abbreviations 338
References 339
Chapter 13. The eicosanoids: cyclooxygenase, lipoxygenase, and epoxygenase
pathways
William L. Smith and Robert C. Murphy 341
1. Introduction 341
1.1. Terminology, structures, and nomenclature 341
1.2. Prostanoid chemistry 343
XX
2. Prostanoid biosynthesis 344
2.1. Mobilization of arachidonate 344
2.2. Cytosolic and secreted phospholipase AiS 344
2.3. Mobilization of 2 arachidonyl glycerol (2 AG) 346
2.4. Prostaglandin endoperoxide Hi (PGH2) formation 346
2.5. PGHS active site 347
2.6. Physico chemical properties of PGHSs 348
2.7. PGHSs and nonsteroidal anti inflammatory drugs 349
2.8. Regulation of PGHS 1 and PGHS 2 gene expression 350
2.9. PGH2 metabolism 352
3. Prostanoid catabolism and mechanisms of action 353
3.1. Prostanoid catabolism 353
3.2. Physiological actions of prostanoids 353
3.3. Prostanoid receptors 353
4. Leukotrienes and lipoxygenase products 354
4.1. Introduction and overview 354
4.2. Leukotriene biosynthesis 356
4.3. Enzymes involved in leukotriene biosynthesis 357
4.3.1. 5 Lipoxygenase 357
4.3.2. 5 Lipoxygenase activating protein (FLAP) 358
4.3.3. LTA4 hydrolase 358
4.3.4. LTC4 synthase 359
4.4. Regulation of leukotriene biosynthesis 359
4.5. Metabolism of leukotrienes 361
4.6. Biological activities of leukotrienes 362
4.7. Other lipoxygenase pathways 364
4.7.1. 12 Lipoxygenase 364
4.7.2. 15 Lipoxygenase 365
5. Cytochrome P 450s and epoxygenase pathways 366
5.1. Epoxygenase P 450 isozymes 367
5.2. Occurrence of EETs 367
5.3. Metabolism of EETs 367
5.4. Biological actions of EETs 368
6. Future directions 368
Abbreviations 369
References 369
Chapter 14. Sphingolipids: metabolism and cell signaling
AlfredH. MerrillJr. andKonradSandhoff 373
1. Introduction 373
1.1. Biological significance of sphingolipids 374
1.1.1. Biological structures 374
1.1.2. Biological recognition 375
1.1.3. Signal transduction 376
1.2. Structures and nomenclature of sphingolipids 376
2. Chemistry and distribution 380
2.1. Sphingoid bases 380
2.2. Ceramides 380
2.3. Phosphosphingolipids 383
2.4. Glycosphingolipids 383
2.4.1. Neutral glycosphingolipids 383
2.4.2. Acidic glycosphingolipids 383
xxi
2.5. Lysosphingolipids 385
2.6. Sphingolipids covalently linked to proteins 385
2.7. Sphingolipids in food 385
3. Biosynthesis of sphingolipids 385
3.1. Sphingoid bases and ceramide 386
3.1.1. Synthesis of the long chain base backbone 386
3.1.2. Synthesis of the iV acyl derivatives of sphingoid bases 389
3.2. Sphingomyelin and ceramide phosphorylethanolamine 389
3.3. Neutral glycosphingolipids 390
3.4. Gangliosides 392
3.5. Sulfatoglycosphingolipids 393
4. Sphingolipid catabolism 393
4.1. Sphingomyelin 395
4.2. Glycosphingolipids 395
4.3. Ceramide 396
4.4. Sphingosine 397
5. Regulation of sphingolipid metabolism 398
5.1. De novo sphingolipid biosynthesis versus turnover in generating bioactive (signaling)
metabolites 398
5.2. Complex sphingolipid formation in tissue development 398
5.3. Neural development and function 400
5.4. Physiology (and pathophysiology) of the intestinal tract 400
5.5. Oncogenic transformation, tumor antigens, and immunomodulation 400
6. Sphingolipids and signal transduction 401
6.1. Interactions between gangliosides and growth factor receptors 401
6.2. Hydrolysis to bioactive lipid backbones 401
6.2.1. Ceramide 402
6.2.2. Sphingoid bases 402
6.2.3. Sphingosine 1 phosphate 403
7. Bioactive sphingolipids appear to be at the heart of numerous aspects of cell regulation in normal
and pathologic conditions 403
8. Future directions 404
Abbreviations 405
References 406
Chapter 15. Cholesterol biosynthesis
Laura Liscum 409
1. Introduction 409
2. The cholesterol biosynthetic pathway 410
2.1. Enzyme compartmentalization 415
2.2. Mevalonic aciduria 416
2.3. Smith Lemli Opitz syndrome 417
2.4. Other enzyme deficiencies 418
3. Regulation of cholesterol synthesis 418
3.1. Transcriptional regulation 419
3.2. mRNA translation 422
3.3. Phosphorylation 422
3.4. Proteolysis 423
3.5. Sterol sensing domain 425
4. Metabolism of cholesterol 426
4.1. Oxysterols 426
4.2. Cholesteryl ester synthesis 428
xxii
5. Future directions 429
Abbreviations 429
References 430
Chapter 16. Metabolism and function of bile acids
Luis B. Agellon 433
1. Introduction 433
2. Bile acid structure 433
3. Biosynthesis of bile acids 436
3.1. The classical and alternative bile acid biosynthetic pathways 436
3.2. Mutations affecting key enzymes involved in bile acid biosynthesis 438
4. Transport of bile acids 439
4.1. Enterohepatic circulation 439
4.2. Intracellular transport 441
5. Molecular regulation of key enzymes in the bile acid biosynthetic pathways 441
5.1. Transcriptional control 442
5.2. Post transcriptional control 445
6. Future directions 446
Abbreviations 446
References 447
Chapter 17. Lipid assembly into cell membranes
Dennis R. Voelker 449
1. Introduction 449
2. The diversity of lipids 449
3. Methods to study intra and inter membrane lipid transport 451
3.1. Fluorescent probes 451
3.2. Spin labeled analogs 452
3.3. Asymmetric chemical modification of membranes 453
3.4. Phospholipid transfer proteins 454
3.5. Rapid plasma membrane isolation 455
3.6. Organelle specific lipid metabolism 456
4. Lipid transport processes 457
4.1. Intramembrane lipid translocation and model membranes 457
4.2. Intramembrane lipid translocation and biological membranes 459
4.2.1. Prokaryotes 459
4.2.2. Eukaryotes 459
4.3. Intermembrane lipid transport 463
4.3.1. Transport in prokaryotes 463
4.3.2. Transport in eukaryotes 465
5. Future directions 479
Abbreviations 480
References 480
Chapter 18. Lipoprotein structure
Ana Jonas 483
1. Introduction 483
1.1. Main lipoprotein classes 483
xxiii
1.2. Lipoprotein subclasses 484
2. Lipid components 486
2.1. Lipid composition 486
2.2. Fatty acid composition 486
2.3. Lipid organization 487
3. Apolipoproteins 488
3.1. Classes and general properties 488
3.2. Gene organization 490
3.3. Primary sequences 491
3.4. Secondary structures 492
3.5. Three dimensional structures in solution 494
4. Complexes of apolipoproteins with lipids 496
4.1. Binding of apolipoproteins to phospholipid surfaces 496
4.2. Lipoprotein like complexes 498
4.3. Reconstituted HDL 499
4.4. Structures of native lipoproteins 501
5. Future directions 502
Abbreviations 503
References 503
Chapter 19. Assembly and secretion of lipoproteins
Jean E. Vance 505
1. Overview of lipoprotein secretion into the circulation 505
2. Structural features of apolipoprotein B 507
3. Transcriptional regulation of apo B synthesis 509
3.1. DNA elements regulating apo B transcription 509
3.2. Apo B mRNA editing 510
4. Models used for studying apo B and VLDL secretion 511
5. Covalent modifications of apo B 512
6. Regulation of apo B secretion by lipid supply 513
6.1. Fatty acids and triacylglycerols 513
6.2. Phospholipids 514
6.3. Cholesterol and cholesteryl esters 515
6.4. Microsomal triacylglycerol transfer protein 516
6.4.1. MTP deficiency in humans and mice 516
6.4.2. Studies on the function of MTP in cultured cells 517
6.4.3. MTP gene expression 520
7. Translocation and intracellular degradation of apo B 520
7.1. Proteasomal degradation of apo B 520
7.2. Degradation of apo B within the secretory pathway 521
8. Assembly and secretion of chylomicrons 522
9. Assembly of lipoprotein(a) 523
10. Future directions 524
Abbreviations 524
References 525
Chapter 20. Dynamics of lipoprotein transport in the human circulatory system
Phoebe E. Fielding and Christopher J. Fielding 527
1. Overview 527
1.1. Functions of the major lipoproteins 527
xxiv
1.2. Forward lipid transport 528
1.3. Reverse lipid transport 528
2. Lipoprotein triglyceride and lipolysis 529
2.1. Initial events 529
2.2. The structure and activation of lipoprotein lipase (LPL) 531
2.3. Transport of LPL to its endothelial site 533
2.4. Structure of the LPL substrate complex at the vascular surface 534
2.5. Kinetics of the LPL reaction and the role of albumin 535
2.6. Later metabolism of chylomicron and VLDL triacylglycerol 536
2.7. Congenital deficiencies of lipoprotein triacylglycerol metabolism 537
3. HDL and plasma cholesterol metabolism 537
3.1. The origin of HDL 537
3.2. Role of the ABCA1 transporter in HDL genesis 538
3.3. The role of caveolae in HDL genesis 539
3.4. The role of LCAT in HDL genesis 540
3.5. Regeneration of prebeta migrating HDL 541
3.6. Regulation of gene expression and structure of apo A1 542
3.7. Structure and properties of LCAT 544
3.8. Congenital deficiencies of LCAT and HDL 544
4. Reactions linking the metabolism of apo A1 and apo B lipoproteins 545
4.1. Metabolic implications 545
4.2. Phospholipid transfer protein (PLTP) 546
4.3. Cholesteryl ester transfer protein (CETP) 546
4.4. Scavenger receptor BI (SR BI) 547
4.5. Animal models of human plasma cholesterol metabolism 549
5. Summary and future directions 550
Abbreviations 550
Acknowledgements 551
References 551
Chapter 21. Lipoprotein receptors
Wolfgang J. Schneider 553
1. Introduction 553
2. Removal of LDL from the circulation 555
2.1. Receptor mediated endocytosis 555
2.2. The LDL receptor pathway 557
2.3. Relationships between structure and function of the LDL receptor 558
2.3.1. The ligand binding domain 558
2.3.2. The epidermal growth factor precursor homology domain 559
2.3.3. The O linked sugar domain 559
2.3.4. The membrane anchoring domain 559
2.3.5. The cytoplasmic tail 559
2.4. The human LDL receptor gene — organization and naturally occurring mutations .... 559
2.4.1. Class I: null alleles — no detectable receptor 561
2.4.2. Class 2: slow or absent processing of the precursor 561
2.4.3. Class 3: defective ligand binding 561
2.4.4. Class 4: internalization defective 561
2.4.5. Class 5: recycling defective 561
3. Removal of triacylglycerol rich lipoproteins from the plasma 562
3.1. Catabolism of chylomicrons 562
3.2. The so called VLDL receptor: a role in catabolism of VLDL? 563
4. Multifunctional receptors in the chicken 563
XXV
5. VLDL receptor and apoE receptor type 2 (apoER2) as signal transducers 564
5.1. ApoER2 — a close relative of the VLDL receptor 564
5.2. Genetic models reveal new roles for apoER2 and VLDL receptor 565
6. Other relatives of the LDL receptor family 566
6.1. Small and mid sized LDL receptor relatives: LRP 3, 4, 5, and 6 566
6.2. The unusual one: LR11 567
6.3. Large LDL receptor relatives: megalin and LR32 567
6.3.1. Megalin, a true lipid transport receptor 567
6.3.2. LR32(LRP1B) 568
7. Scavenger receptors 568
7.1. ClassASRs 568
7.2. Lectin like oxidized LDL receptor (LOX) l 569
8. Future directions 569
Abbreviations 570
References 570
Chapter 22. Lipids and atherosclerosis
IraTabas 573
1. Introduction 573
2. Cholesterol and atherosclerosis 576
2.1. Cholesterol deposition in the arterial wall 576
2.2. Cholesterol accumulation in lesional macrophages: lipoprotein internalization 577
2.3. Cholesterol accumulation in lesional macrophages: intracellular trafficking of lipoprotein
derived cholesterol 578
2.4. Accumulation of free cholesterol in lesional macrophages 579
2.5. Cholesterol accumulation in lesional smooth muscle cells 581
2.6. The fate of foam cell cholesterol in atheromata 581
3. Oxysterols and atherosclerosis 582
3.1. Origins of oxysterols 582
3.2. Oxysterols in plasma, lipoproteins, and atherosclerotic lesions 583
3.3. Physiologic significance of oxysterols in atherosclerosis 583
4. Triglycerides and atherosclerosis 585
5. Fatty acids and atherosclerosis 586
5.1. Direct effects of fatty acids 586
5.2. Oxidation of long chain polyunsaturated fatty acids: introduction 586
5.3. Oxidative metabolites of arachidonic acid 586
5.4. Atherogenic and anti atherogenic effects of other long chain polyunsaturated acids . . . 588
6. Phospholipids and related lipids 589
6.1. Introduction 589
6.2. Oxidative modification of phosphatidylcholine in lesional lipoproteins 589
6.3. The phospholipids of lesional cells 592
6.4. Sphingomyelin and ceramide 593
6.5. Glycosphingolipids 594
7. Future directions 596
References 596
Index 599
|
| any_adam_object | 1 |
| building | Verbundindex |
| bvnumber | BV015023213 |
| callnumber-first | Q - Science |
| callnumber-label | QD415 |
| callnumber-raw | QD415 QP751 |
| callnumber-search | QD415 QP751 |
| callnumber-sort | QD 3415 |
| callnumber-subject | QD - Chemistry |
| classification_rvk | WD 4000 |
| ctrlnum | (OCoLC)51001207 (DE-599)BVBBV015023213 |
| dewey-full | 572/.57 |
| dewey-hundreds | 500 - Natural sciences and mathematics |
| dewey-ones | 572 - Biochemistry |
| dewey-raw | 572/.57 |
| dewey-search | 572/.57 |
| dewey-sort | 3572 257 |
| dewey-tens | 570 - Biology |
| discipline | Biologie |
| edition | 4. ed. |
| format | Book |
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| id | DE-604.BV015023213 |
| illustrated | Illustrated |
| indexdate | 2024-07-09T19:08:58Z |
| institution | BVB |
| isbn | 0444511385 0444511393 |
| language | English |
| lccn | 2002192786 |
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| physical | XXIX, 607 S. Ill., graph. Darst. |
| publishDate | 2002 |
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| publisher | Elsevier |
| record_format | marc |
| series | New comprehensive biochemistry |
| series2 | New comprehensive biochemistry |
| spelling | Biochemistry of lipids, lipoproteins, and membranes ed.: Dennis E. Vance and Jean E. Vance 4. ed. Amsterdam [u.a.] Elsevier 2002 XXIX, 607 S. Ill., graph. Darst. txt rdacontent n rdamedia nc rdacarrier New comprehensive biochemistry 36 Includes bibliographical references and index Lipid Metabolism cabt Lipids cabt Lipoproteins cabt Cell Membranes cabt Biochemistry cabt Lipides - Métabolisme Lipoprotéines - Métabolisme Membranes lipidiques Cell Membrane physiology Lipid Metabolism Lipid membranes Lipids Metabolism Lipoproteins Metabolism Lipoproteins metabolism Signal Transduction Lipoproteide (DE-588)4074259-3 gnd rswk-swf Lipide (DE-588)4035873-2 gnd rswk-swf Lipidmembran (DE-588)4167790-0 gnd rswk-swf Membranlipide (DE-588)4203814-5 gnd rswk-swf Biomembran (DE-588)4006884-5 gnd rswk-swf Biochemie (DE-588)4006777-4 gnd rswk-swf (DE-588)4143413-4 Aufsatzsammlung gnd-content Lipide (DE-588)4035873-2 s Lipoproteide (DE-588)4074259-3 s Biomembran (DE-588)4006884-5 s Biochemie (DE-588)4006777-4 s 1\p DE-604 Lipidmembran (DE-588)4167790-0 s 2\p DE-604 Membranlipide (DE-588)4203814-5 s 3\p DE-604 Vance, Dennis E. Sonstige oth Vance, Jean E. Sonstige oth New comprehensive biochemistry 36 (DE-604)BV000003914 36 HBZ Datenaustausch application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=010091679&sequence=000002&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis 1\p cgwrk 20201028 DE-101 https://d-nb.info/provenance/plan#cgwrk 2\p cgwrk 20201028 DE-101 https://d-nb.info/provenance/plan#cgwrk 3\p cgwrk 20201028 DE-101 https://d-nb.info/provenance/plan#cgwrk |
| spellingShingle | Biochemistry of lipids, lipoproteins, and membranes New comprehensive biochemistry Lipid Metabolism cabt Lipids cabt Lipoproteins cabt Cell Membranes cabt Biochemistry cabt Lipides - Métabolisme Lipoprotéines - Métabolisme Membranes lipidiques Cell Membrane physiology Lipid Metabolism Lipid membranes Lipids Metabolism Lipoproteins Metabolism Lipoproteins metabolism Signal Transduction Lipoproteide (DE-588)4074259-3 gnd Lipide (DE-588)4035873-2 gnd Lipidmembran (DE-588)4167790-0 gnd Membranlipide (DE-588)4203814-5 gnd Biomembran (DE-588)4006884-5 gnd Biochemie (DE-588)4006777-4 gnd |
| subject_GND | (DE-588)4074259-3 (DE-588)4035873-2 (DE-588)4167790-0 (DE-588)4203814-5 (DE-588)4006884-5 (DE-588)4006777-4 (DE-588)4143413-4 |
| title | Biochemistry of lipids, lipoproteins, and membranes |
| title_auth | Biochemistry of lipids, lipoproteins, and membranes |
| title_exact_search | Biochemistry of lipids, lipoproteins, and membranes |
| title_full | Biochemistry of lipids, lipoproteins, and membranes ed.: Dennis E. Vance and Jean E. Vance |
| title_fullStr | Biochemistry of lipids, lipoproteins, and membranes ed.: Dennis E. Vance and Jean E. Vance |
| title_full_unstemmed | Biochemistry of lipids, lipoproteins, and membranes ed.: Dennis E. Vance and Jean E. Vance |
| title_short | Biochemistry of lipids, lipoproteins, and membranes |
| title_sort | biochemistry of lipids lipoproteins and membranes |
| topic | Lipid Metabolism cabt Lipids cabt Lipoproteins cabt Cell Membranes cabt Biochemistry cabt Lipides - Métabolisme Lipoprotéines - Métabolisme Membranes lipidiques Cell Membrane physiology Lipid Metabolism Lipid membranes Lipids Metabolism Lipoproteins Metabolism Lipoproteins metabolism Signal Transduction Lipoproteide (DE-588)4074259-3 gnd Lipide (DE-588)4035873-2 gnd Lipidmembran (DE-588)4167790-0 gnd Membranlipide (DE-588)4203814-5 gnd Biomembran (DE-588)4006884-5 gnd Biochemie (DE-588)4006777-4 gnd |
| topic_facet | Lipid Metabolism Lipids Lipoproteins Cell Membranes Biochemistry Lipides - Métabolisme Lipoprotéines - Métabolisme Membranes lipidiques Cell Membrane physiology Lipid membranes Lipids Metabolism Lipoproteins Metabolism Lipoproteins metabolism Signal Transduction Lipoproteide Lipide Lipidmembran Membranlipide Biomembran Biochemie Aufsatzsammlung |
| url | http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=010091679&sequence=000002&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA |
| volume_link | (DE-604)BV000003914 |
| work_keys_str_mv | AT vancedennise biochemistryoflipidslipoproteinsandmembranes AT vancejeane biochemistryoflipidslipoproteinsandmembranes |