Verfügbarkeit: Bacterial protein toxins

Bacterial protein toxins:

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Format:	Buch
Sprache:	English
Veröffentlicht:	Berlin [u.a.] Springer 2000
Schriftenreihe:	Handbook of experimental pharmacology 145
Schlagworte:	Bacterial Toxins Proteins Bakteriengift Pharmakologie Aufsatzsammlung
Online-Zugang:	Inhaltsverzeichnis
Beschreibung:	XXXII, 700 S. Ill., graph. Darst.
ISBN:	3540661255

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Datensatz im Suchindex

_version_	1804127760275210240
adam_text	BACTERIA L PROTEI N TOXINS CONTRIBUTORS M. AEPFELBACHER, G. AHNERT-HILGER, K. AKTORIES, R. ANTOINE, J.T. BARBIERI, H. BARTH, S. BHAKDI, H. BIGALKE, P. BOQUET, W. BRABETZ, P.0 . FALNES, C. FIORENTINI, W. FISCHER, B. FLEISCHER, D.W. FRANK, M.C. GRAY, R. HAAS, L. HAMANN, S. HAUSCHILDT, J. HEESEMANN, E.L. HEWLETT, T. HIRAYAMA, F. HOFMANN, W.G.J. HOI, M. HOLTJE, I. JUST, S.H. LEPPLA, C. LOCHT, D.M. LYERLY, V. MASIGNANI, E. MEKADA, A.R. MELTON-CELSA, E. MERRITT, J. SCOTT MONCRIEF, J. MOSS, S. MIILLER-LOENNIES, J.R. MURPHY, B. NURNBERG, A.D. O BRIEN, I. OHISHI, S. OLSNES, I. PAHNER, M. PALMER, W.A. PATTON, M. PIZZA, M.R. POPOFF, R. RAPPUOLI, D. RAZE, E.T. RIETSCHEL, J.I. ROOD, B. ROUOT, K. RUCKDESCHEL, A.B. SCHROMM, K.D. SHARMA, L.F. SHOER, R.W. TITBALL, T. UMATA, A. VALEVA, F. VAN DEN AKKER, J.C. VANDERSPEK, M. VAUGHAN, A. VEITHEN, N. VITALE, A. WADA, I. WALEV, J. WESCHE, S.E.H. WEST, T.D. WILKINS, P. ZABEL, R. ZUMBIHL EDITORS K. AKTORIES AND I. JUST SPRINGER CONTENTS CHAPTER 1 UPTAKE OF PROTEIN TOXINS ACTING INSIDE CELLS S. OLSNES , J. WESCHE, AND P.0 . FALNES. WITH 3 FIGURES 1 A. INTRODUCTIO N AND BRIEF DESCRIPTIO N OF RELEVAN T TOXINS 1 B. BINDING TO CELL-SURFACE RECEPTOR S 4 C. ENDOCYTOSIS 5 D. RETROGRAD E VESICULAR TRANSPORT 7 I. TRANSPORT T O TH E GOLGI APPARATU S 7 II. TRANSPORT T O THE ENDOPLASMI C RETICULUM 7 E. TRANSLOCATION T O TH E CYTOSOL 8 I. FROM THE SURFACE 8 II . FROM ENDOSOME S 9 III . FROM TH E E R 9 F. STABILITY OF TOXINS IN THE CYTOSOL 11 G. TRANSLOCATION OF FUSION PROTEIN S 12 REFERENCES 14 CHAPTE R 2 COMMON FEATURES OF ADP-RIBOSYLTRANSFERASES V. MASIGNANI, M. PIZZA , AND R. RAPPUOLI. WITH 5 FIGURES 21 A . INTRODUCTIO N 21 B. THE WELL-CHARACTERIZED TOXINS 21 C. A COMMO N STRUCTUR E FOR TH E CATALYTIC SITE 26 I. REGION 1 27 II. REGION 3 29 III . REGION 2 30 D. OTHE R BACTERIAL TOXINS WITH ADP-RIBOSYLATIN G ACTIVITY 33 E . EUKARYOTI C MONO-ADP-RIBOSYLTRANSFERASE S 35 F. PRACTICAL APPLICATIONS 37 REFERENCE S 39 CONTENTS CHAPTE R 3 DIPHTHERIA TOXIN AND THE DIPHTHERIA-TOXIN RECEPTOR T. UMATA, K.D . SHARMA, AN D E . MEKADA . WITH 4 FIGURE S 45 A . INTRODUCTIO N 45 B. DIPHTHERI A TOXIN 45 I . SYNTHESIS OF DIPHTHERI A TOXIN 45 II . TOXICITY OF DIPHTHERI A TOXIN 46 III . STRUCTUR E AN D FUNCTIO N OF DIPHTHERI A TOXIN 48 1. TH E CATALYTIC DOMAI N 48 2 . TH E T DOMAI N 48 3 . TH E R DOMAI N 49 IV. SENSITIVITY T O DIPHTHERI A TOXIN 50 C. THE DIPHTHERIA-TOXI N RECEPTO R 51 I. IDENTIFICATION OF TH E DIPHTHERIA-TOXIN-RECEPTO R PROTEI N .. . 51 II . CLONIN G OF TH E DIPHTHERIA-TOXIN-RECEPTO R GEN E 52 III . TH E STRUCTUR E AN D FUNCTIO N OF TH E DIPHTHERIA-TOXI N RECEPTO R 53 IV. MOLECULES ASSOCIATE D WITH TH E DIPHTHERIA-TOXI N RECEPTO R 55 1. DRAP27/CD 9 55 2. HEPARIN-LIK E MOLECULE S 57 V. RECEPTO R AN D TOXIN ENTR Y PROCESS 58 VI . PHYSIOLOGICAL ROL E OF TH E DIPHTHERIA-TOXI N RECEPTO R 59 1. EGF-FAMIL Y GROWT H FACTO R 59 2 . JUXTACRIN E GROWT H REGULATO R 59 3. CONVERSIO N OF TH E MEMBRANE-ANCHORE D FORM T O TH E SOLUBLE FORM 60 REFERENCE S 61 CHAPTER 4 PSEUDOMONAS AERUGINOSA EXOTOXIN A : STRUCTURE/FUNCTION, PRODUCTION, AND INTOXICATION OF EUKARYOTIC CELLS S.E.H. WEST. WITH 3 FIGURES 67 A . INTRODUCTIO N 67 I. BASIC STRUCTUR E 68 II . ROL E OF ET A IN DISEAS E 70 B. PRODUCTIO N OF ET A BY TH E BACTERIA L CELL 71 I. CHARACTERIZATIO N OF TH E TOXA STRUCTURA L GEN E 71 II. ENVIRONMENTA L AN D TEMPORA L SIGNALS AFFECTING ET A PRODUCTIO N 71 III . REGULATIO N OF ET A PRODUCTIO N 72 IV. SECRETIO N FROM TH E BACTERIA L CELL 75 CONTENTS XVII C. INTOXICATION OF EUKARYOTI C CELLS 76 I. BINDING T O A SPECIFIC RECEPTO R ON THE EUKARYOTI C CELL SURFACE AND INTERNALIZATIO N BY RECEPTOR-MEDIATE D ENDOCYTOSI S 77 II . ACTIVATIO N BY PROTEOLYTIC CLEAVAGE AND/OR A CONFORMATIONA L CHANG E 79 III . REMOVA L OF A TERMINAL LYSINE RESIDU E AND TRANSLOCATION INT O TH E CYTOSOL 80 IV. ADP-RIBOSYLATIO N OF ELONGATIO N FACTOR 2 80 REFERENCE S 82 CHAPTE R 5 DIPHTHERIA-TOXIN-BASED FUSION-PROTEIN TOXINS TARGETED TO THE INTERLEUKIN-2 RECEPTOR: UNIQUE PROBES FOR CELL BIOLOGY AND A NEW THERAPEUTIC AGENT FOR THE TREATMENT OF LYMPHOMA J.R. MURPHY AND J.C. VANDERSPEK 91 A . INTRODUCTIO N 91 B. DIPHTHERIA-TOXIN-BASE D CYTOKIN E FUSION PROTEIN S 91 C. DAB389IL-2 AS A NOVEL BIOLOGICAL PROB E FOR CELL BIOLOGY 95 D. PRE-CIINICAL CHARACTERIZATIO N OF DAB486IL-2 AND DAB389IL-2 97 E . CLINICAL EVALUATIO N OF DAB486IL-2 AN D DAB389IL-2 98 I. RHEUMATOI D ARTHRITI S 99 II . PSORIASIS 100 III . NON-HODGKIN S LYMPHOMA 101 IV. CUTANEOU S T-CELL LYMPHOMA 102 REFERENCE S 104 CHAPTE R 6 STRUCTURE AND FUNCTION OF CHOLERA TOXIN AND RELATED ENTEROTOXINS F. VAN DEN AKKER. E. MKRRITT, AND W.G.J. HOI.. WITH 4 FIGURES 109 A. INTRODUCTIO N 109 B. THREE-DIMENSIONA L STRUCTURE S OF HOLOTOXIN S 110 C. TOXIN ASSEMBLY AND SECRETION 112 I. DESIGN OF ASSEMBLY ANTAGONIST S 113 D. CELL-SURFACE-RECEPTOR RECOGNITION 113 I. DESIGN OF RECEPTO R ANTAGONIST S 115 E. TOXIN INTERNALIZATION 115 F. ENZYMATI C MECHANISM 117 I. SUBSTRATES . ARTIFICIAL SUBSTRATES, AND INHIBITORS 117 II . NAD-BINDIN G SITE 119 XV JI J CONTENTS G. THE LT-II FAMILY 12 0 H . PERSPECTIVE S 2 5 REFERENCE S ^ 5 CHAPTE R 7 MECHANISM OF CHOLERA TOXIN ACTION: ADP-RIBOSYLATION FACTORS AS STIMULATORS OF CHOLERA TOXIN-CATALYZED ADP-RIBOSYLATIO N AND EFFECTORS IN INTRACELLULAR VESICULAR TRAFFICKING EVENTS W.A. PATTON, N. VITALE, J. MOSS , AN D M. VAUGHAN. WITH 4 FIGURES... . 133 A . INTRODUCTIO N 133 B. CHOLER A TOXIN 135 I. STRUCTUR E 135 II . BIOCHEMISTR Y 135 III . TOXIN INTERNALIZATIO N 136 C. ADP-RIBOSYLATIO N FACTORS 137 I. DISCOVERY OF ARF S 137 II . BIOCHEMICAL CHARACTERIZATIO N OF ARF S 138 III . AR F STRUCTUR E 139 1. TH E PRIMAR Y STRUCTURE S OF ARF S 139 2. TH E TERTIARY STRUCTURE S OF ARF S 140 IV. OTHE R AR F FAMILY MEMBER S 141 1. ARF-RELATE D PROTEIN S 141 2. ARF-DOMAI N PROTEI N 1 143 V. MOLECULE S THA T REGULAT E AR F FUNCTION : GEP S AN D GAP S 145 1. AR F GUANIN E NUCLEOTIDE-EXCHANG E PROTEIN S 145 2. AR F GTPASE-ACTIVATIN G PROTEIN S 147 VI . OTHE R ARF-INTERACTIN G MOLECULES 149 1. PHOSPHOLIPAS E D 149 2. ARFAPTIN S 150 VII . AR F IN CELLS 150 1. ARFS ROL E IN VESICULAR TRAFFICKING EVENT S 150 2. SUBCELLULAR LOCALIZATION OF AR F 151 D. SUMMARY 152 REFERENCE S 152 CHAPTE R 8 PERTUSSIS TOXIN: STRUCTURE-FUNCTION RELATIONSHIP C. LOCHT, R. ANTOINE , A . VEITHEN , AN D D. RAZE . WITH 5 FIGURE S 167 A . INTRODUCTIO N 167 B. TH E RECEPTOR-BINDIN G ACTIVITY OF PT X 168 CONTENTS XIX C. MEMBRAN E TRANSLOCATION OF PT X 170 D. THE ENZYMATI C ACTIVITY OF S I 175 E . THE ENZYM E MECHANISM OF SI-CATALYZE D ADP-RIBOSYLATIO N ... . 176 F. THE CATALYTIC RESIDUE S OF PT X 178 G. SUBSTRAT E BINDING BY PT X 180 H . CONCLUSIONS 182 REFERENCE S 182 CHAPTE R 9 PERTUSSIS TOXIN AS A PHARMACOLOGICAL TOOL B. NURNBERG. WITH 3 FIGURES 187 A . INTRODUCTIO N 187 B. MOLECULAR ASPECT S OF PT ACTIVITY ON G PROTEIN S 189 I. GENERA L CONSIDERATION S 189 II . PT-SENSITIVE G PROTEIN S 190 1. MECHANISM OF P T ACTIO N 190 2. G-PROTEI N SPECIFICITY 191 III . P T AS A TOOL WITH WHICH T O STUDY G-PROTEIN-SUBUNI T COMPOSITIO N 193 C. FUNCTIONA L CONSEQUENCE S OF P T ACTIVITY 195 I. PT-AFFECTING RECEPTOR-G-PROTEIN-EFFECTO R COUPLING 195 II . PT-AFFECTING RECEPTOR-INDEPENDEN T ACTIVATION OF G PROTEIN S 197 III . US E OF PT IN STUDYING CELLULAR SIGNAL TRANSDUCTION 198 APPENDIX : EXPERIMENTA L PROTOCOL S FOR USING PT 199 I. SOURCE OF P T AND PREPARATIO N OF SOLUTIONS 199 II . TREATMEN T OF MAMMALIAN CELL CULTURE S WITH P T 199 III . ACTIVATION OF P T FOR IN VITRO ADP-RIBOSYLATIO N 199 IV. ADP-RIBOSYLATIO N OF CELL-MEMBRAN E PROTEIN S BY PT 200 V. ADP-RIBOSYLATIO N OF ISOLATED PROTEIN S BY PT . 200 VI . PREPARATIO N OF SAMPLES FOR SODIUM DODECYL SULFATE POLYACRYLAMIDE-GEL ELECTROPHORESI S 200 VII . CLEAVAGE OF ADP-RIBOS E FROM G A SUBUNITS 201 REFERENCES 201 CHAPTE R 10 CLOSTRIDIUM BOTULINUM C3 EXOENZYME AND C3-LIKE TRANSFERASES K. AKTORIES, H. BARTH, AND I. JUST. WITH 7 FIGURES 207 A. INTRODUCTIO N 207 B. ORIGIN AN D PURIFICATION OF C3 EXOENZYMES 207 I. ORIGIN OF C3 EXOENZYME S 207 II . PURIFICATION OF C3 EXOENZYMES 208 JX CONTENT S C. GENETICS OF C3 AND C3-LIKE EXOENZYMES 209 D. STRUCTURE-FUNCTION ANALYSIS OF C3 EXOENZYMES 210 E. ADP-RIBOSYLTRANSFERASE ACTIVITY 212 I. BASIC PROPERTIES 212 II. REGULATION BY DETERGENTS AND DIVALENT CATIONS 212 III. RHO PROTEINS AS SUBSTRATES FOR C3 213 IV. FUNCTIONAL CONSEQUENCES OF THE ADP-RIBOSYLATION OF RHO 215 F. APPLICATION OF C3-LIKE EXOENZYMES AS TOOLS 218 G. CELLULAR EFFECTS OF C3 EXOENZYMES 219 I. EFFECTS OF C3 ON CELL MORPHOLOGY AND ACTIN STRUCTURE 219 II. EFFECTS OF C3 ON CELL-CELL CONTACTS 222 III. EFFECTS OF C3 ON ENDOCYTOSIS AND PHAGOCYTOSIS 223 IV. EFFECTS OF C3 ON CELL SIGNALLING NOT DIRECTLY INVOLVING THE ACTIN CYTOSKELETON 223 1. PHOSPHOLIPASE D AND PIP5 KINASE 223 2. SIGNALLING TO THE NUCLEUS AND GENE TRANSCRIPTION 224 H. CONCLUDING REMARKS 224 REFERENCES 225 CHAPTER 11 PSEUDOMONAS AERUGINOSA EXOENZYME S, A BIFUNCTIONAL CYTOTOXIN SECRETED BY A TYPE-ILL PATHWAY XT. BARBIEKI AND D.W. FRANK. WITH 6 FIGURES 235 A. INTRODUCTION 235 B. INITIAL BIOCHEMICAL CHARACTERIZATION OF EXOS 236 C. GENETIC ANALYSIS OF THE STRUCTURAL GENES ENCODING EXOS 236 D. EXOS REQUIRES FAS TO EXPRESS ADP-RIBOSYLTRANSFERASE ACTIVITY 237 E. MOLECULAR PROPERTIES OF EXOS 237 F. SECRETION OF EXOS VIA A TYPE-III SECRETION PATHWAY 239 G. REGULATION OF EXOS REGULON EXPRESSION 240 H. THE CARBOXYL TERMINUS OF EXOS COMPRISES THE ADP-RIBOSYLTRANSFERASE DOMAIN 240 I. FUNCTIONAL MAPPING OF EXOS 240 II. EXOS IS A BIGLUTAMIC-ACID TRANSFERASE 240 III. EXOS CAN ADP-RIBOSYLATE NUMEROUS PROTEINS 242 IV. EXOS ADP-RIBOSY ATES RAS AT MULTIPLE ARGININE RESIDUES 243 I. EXOS IS A BIFUNCTIONAL CYTOTOXIN 244 I. CYTOTOXIC PROPERTIES OF EXOS 245 II. THE AMINO TERMINUS OF EXOS STIMULATES RHO-DEPENDENT DEPOLYMERIZATION OF ACTIN 245 CONTENTS XXI III . THE CARBOXYL TERMINUS OF EXOS IS AN ADP - RIBOSYLTRANSFERASE THA T IS CYTOTOXIC T O CULTURE D CELLS 246 J. MECHANISM FOR THE INHIBITION OF RAS-MEDIATE D SIGNAL TRANSDUCTION BY EXOS 246 K. FUNCTIONA L AND SEQUENCE RELATIONSHI P BETWEEN EXOS AND TH E VERTEBRAT E ADP-RIBOSYLTRANSFERASE S 247 L. CONCLUSION 248 REFERENCE S 248 CHAPTE R 12 STRUCTURE AND FUNCTION OF ACTIN-ADENOSINE-DIPHOSPHATE-RIBOSYLATING TOXINS I. OHISHI . WITH 2 FIGURES 253 A . INTRODUCTIO N 253 B. CLOSTRIDIUM BOTULINUM C 2 TOXIN 253 I. ACTIN-ADP-RIBOSYLATIN G TOXIN OF C. BOTULINUM TYPES C AND D 253 II . MOLECULAR STRUCTUR E OF BOTULINUM Q TOXIN 254 III . MOLECULAR FUNCTION S OF TWO COMPONENT S OF C : TOXIN 256 IV. ADP-RIBOSYLATIO N OF ACTIN BY C 2 TOXIN 257 1. ADP-RIBOSYLATIO N OF INTRACELLULA R ACTIN OF CULTURE D CELLS * 258 2. ADP-RIBOSYLATIO N OF PURIFIED ACTIN 260 C. C. PERFRINGENS IOTA TOXIN 262 I. ACTIN-ADP-RIBOSYLATIN G TOXIN OF C. PERFRINGENS TYPE E 262 II . MOLECULAR STRUCTUR E AN D FUNCTION 263 D. C. SPIROFORME TOXIN 265 I. ACTIN-ADP-RIBOSYLATIN G TOXIN OF C. SPIROFORME 265 II. MOLECULAR STRUCTUR E AN D FUNCTION 265 E. C. DIFFICILE TOXIN 266 I. ACTIN-ADP-RIBOSYLATIN G TOXIN OF C. DIFFICILE 266 II . MOLECULAR STRUCTUR E AND FUNCTION 266 F. CONCLUDING REMARK S 268 REFERENCES 269 CHAPTE R 13 MOLECULAR BIOLOGY OF ACTIN-ADP-RIBOSYLATING TOXINS M.R. POPOFF. WITH 9 FIGURES 275 A. INTRODUCTIO N 275 B. BACTERI A PRODUCING ACTIN-ADP-RIBOSYLATIN G TOXINS 276 I. C. BOTULINUM 276 II . C. PERFRINGENS 276 XXII CONTENTS III . C. SPIROFORME 277 IV. C. DIFFICILE 277 C. FAMILIES OF ACTIN-ADP-RIBOSYLATING TOXINS 277 I. C2-TOXIN FAMILY 278 II . IOTA-TOXIN FAMILY 279 III. RELATEDNESS BETWEEN C2-TOXIN AND IOTA-TOXIN FAMILIES . . . 279 D. ACTIN-ADP-RIBOSYLATING-TOXIN GENES AND PREDICTED MOLECULES 282 I. IOTA-TOXIN GENES AND IOTA-TOXIN PROTEINS 282 II . C. SPIROFORME TOXIN AND CD T GENES 283 III. C. SPIROFORME TOXIN AND CDT PROTEINS 283 IV. C2-TOXIN GENES AND C2 PROTEINS 284 E. RELATEDNESS OF ACTIN-ADP-RIBOSYLATING TOXINS WITH OTHER TOXINS 284 I. RELATEDNESS WITH ADP-RIBOSYLATING TOXINS 284 II. RELATEDNESS WITH BACILLUS ANTHRACIS TOXINS 288 1. SEQUENCE HOMOLOGY 288 2. IMMUNOLOGICAL RELATEDNESS 289 3. FUNCTIONAL COMPARISON 289 III. RELATEDNESS WITH OTHE R BINARY TOXINS 290 1. BACILLUS BINARY TOXINS 290 2. LEUKOCIDINS AND Y-LYSINS 291 F. GENETICS OF THE ACTIN-ADP-RIBOSYLATING TOXINS 292 I. GENOMIC LOCALIZATION 292 II. GENE TRANSFER 293 G. GENE EXPRESSION 294 I. GENES OF ENZYMATIC AND BINDING-COMPONENT GENES ARE ORGANIZED IN AN OPERO N 294 II. GENE REGULATION 295 H. IDENTIFICATION OF ACTIN-ADP-RIBOSYLATING-TOXIN-PRODUCING CLOSTRIDIA BY GENETIC METHODS 297 I. FUNCTIONAL DOMAINS 297 I. ENZYMATIC-COMPONENT DOMAINS 297 1. ENZYMATIC SITE 297 2. ENZYMATIC-COMPONENT DOMAIN WHICH INTERACTS WITH THE BINDING COMPONENT 299 3. ACTIN-BINDING SITE 300 II. BINDING-COMPONENT DOMAINS 300 K. CONCLUDING REMARKS 302 REFERENCES 302 CONTENTS XXIII CHAPTE R 14 MOLECULAR MECHANISMS OF ACTION OF THE LARGE CLOSTRIDIAL CYTOTOXINS I. JUST, F. HOFMANN, AND K. AKTORIES. WITH 6 FIGURES 307 A . INTRODUCTIO N 307 B. STRUCTUR E OF THE TOXINS 308 C. CELL ENTR Y 309 D. MOLECULA R MOD E OF ACTION 315 I. ELUCIDATIO N OF THE MOLECULAR MECHANISM OF ACTION 315 II . ENZYMATIC ACTIVITY 316 1. CO-SUBSTRATES 316 2. CATALYTIC DOMAI N AND REQUIREMENT S FOR CATALYSIS 318 3. RECOGNITION OF THE PROTEIN SUBSTRATES 320 III . CELLULAR TARGETS OF TH E CYTOTOXINS 321 1. RH O AND RAS PROTEIN S AS SUBSTRATE S 321 2. SITE OF MODIFICATION 321 3. CELLULAR FUNCTIONS OF RH O PROTEINS 322 IV. FUNCTIONA L CONSEQUENCE S OF GLUCOSYLATION 324 1. CONSEQUENCE S ON TH E GTPAS E CYCLE 324 2. BIOLOGICAL CONSEQUENCE S 325 E . CONCLUDING REMARK S 327 REFERENCE S 327 CHAPTE R 15 MOLECULAR BIOLOGY OF LARGE CLOSTRIDIAL TOXINS J.S. MONCRIEF, D.M. LYERLY, AND T.D. WILKINS. WITH 2 FIGURES 333 A . INTRODUCTIO N 333 B. PURIFICATION AND CHARACTERIZATIO N OF LARGE CLOSTRIDIAL TOXINS 335 I. TOXIN PRODUCTIO N 335 II . PURIFICATION AND PHYSICOCHEMICAL PROPERTIE S 336 1. C. DIFFICILE TOXINS 336 2. C. SORDELLII AND C. NOVYI TOXINS 337 III . BIOLOGICAL PROPERTIE S 337 1. C. DIFFICILE TOXINS 337 2. C. SORDELLII AND C. NOVYI TOXINS 339 3. RECEPTOR S 340 C. MECHANISM OF ACTION 341 D. MOLECULA R GENETIC S OF THE TOXINS 342 I. C. DIFFICILE TOXIN A AND B GENE S 342 II . C. DIFFICILE TOXIGENIC ELEMEN T 344 III . ATYPICAL STRAINS OF C. DIFFICILE 344 IV. C. SORDELLII AND C. NOVYI GENE S 345 V. SEQUENC E IDENTITY AND CONSERVED FEATURE S OF THE TOXINS .. . 346 XXIV CONTENTS 1. N-TERMINAL GLUCOSYLTRANSFERASE DOMAIN 346 2. REPEATING UNITS 347 3. ADDITIONAL CONSERVED FEATURES 348 VI. GEN E TRANSFER IN C. DIFFICILE 349 E. REGULATION OF C. DIFFICILE TOXINS 349 F. CONCLUSIONS 351 REFERENCES 351 CHAPTE R 16 THE CYTOTOXIC NECROTIZING FACTOR 1 FROM ESCHERICHIA COLI P. BOQUET AND C. FIORENTINI. WITH 5 FIGURES 361 A. INTRODUCTION 361 B. THE CNF1 GEN E AND THE PREVALENCE OF CNF1 -PRODUCING STRAINS AMONG UROPATHOGENIC E. COLI 362 I. THE CNF1 GEN E 362 II. PREVALENCE OF CNF1-PRODUCING STRAINS AMONG UROPATHOGENIC E. COLI 363 C. PRODUCTION, PURIFICATION AND CELLULAR EFFECTS OF E. COLI CNF1 364 I. PRODUCTION AND PURIFICATION OF E. COLI CNF1 364 II. CELLULAR EFFECTS OF E. COLI CNF1 365 D. CNF1 MOLECULAR MECHANISM OF ACTION 365 I. INTRACELLULAR ENZYMATIC ACTIVITY OF CNF1 365 II. CONSEQUENCES OF CNF1 ACTIVITY ON RH O GTP-BINDING PROTEINS 368 E. STRUCTURE-FUNCTION RELATIONSHIPS OF CNF1 AND THE FAMILY OF DERMONECROTIC TOXINS 373 I. THE C-TERMINAL PART OF CNF1 CONTAINS ITS ENZYMATIC ACTIVITY 373 II. THE N-TERMINAL PART OF CNF1 CONTAINS ITS CELL-BINDING ACTIVITY 375 F. POSSIBLE ROLES FOR CNF1 AS A VIRULENCE FACTOR 375 I. CNF1 AND INDUCTION OF PHAGOCYTOSIS 375 II. CNF1 AND CELL APOPTOSIS 377 III. CNF1: EPITHELIAL CELL PERMEABILITY AND PMN TRANS EPITHELIAL MIGRATION 378 G. CONCLUSIONS 379 REFERENCES 379 CONTENTS XXV CHAPTE R 17 SHIGA TOXINS OF SHIGELLA DYSENTERIAE AND ESCHERICHIA COLI A.R . MELTON-CELS A AND A.D . O BRIEN . WITH 1 FIGURE 385 A . PROFILE OF THE SHIGA-TOXIN FAMILY 385 I. NOMENCLATUR E AND HISTORY 385 II . TH E STX FAMILY 386 1. TRAITS THA T MAK E TH E MEMBER S PAR T OF A FAMILY 386 2. CHARACTERISTICS THA T DISTINGUISH STX FAMILY MEMBER S .. . 387 III . ROL E OF STXS IN S. DYSENTERIAE TYPE 1 AND STE C DISEASE 388 1. PATHOGENESIS OF INFECTION CAUSE D BY ORGANISMS THA T PRODUC E STXS 388 2. ASSOCIATIONS BETWEEN STXS AND DEVELOPMEN T OF H C AND/O R THE HU S 388 3 . FINDINGS WITH ANIMA L AND TISSUE CULTUR E MODELS THA T SUPPOR T A PRIMARY ROL E FOR STXS IN VIRULENCE OF SHIGA S BACILLUS AND STE C 389 B. STX GENETIC S AND EXPRESSION 389 I. LOCATION , ORGANIZATION , AND NUCLEOTID E AND DEDUCE D AMIN O ACID SEQUENCES OF STX FAMILY MEMBE R OPERON S .. . 389 II . REGULATIO N OF TOXIN PRODUCTIO N 391 III . TOXIN PURIFICATION 391 C. STRUCTURE-FUNCTIO N ANALYSES OF STX FAMILY MEMBER S 392 I. STRUCTUR E OF STX 392 II . GENETI C ANALYSES OF STX FUNCTION 393 D. INTRACELLULA R TRAFFICKING OF TH E SHIGA TOXINS 396 E . VIRULENCE/TOXICITY DIFFERENCES AMONG THE STXS 397 F. IMMUN E RESPONS E T O STXS, PASSIVE ANTI-STX THERAPY, AND VACCINE DEVELOPMEN T 397 I. ANTI-TOXIN RESPONSE S DURING STE C INFECTION 397 II . PASSIVE THERAPY WITH ANTI-STX ANTIBODIE S 398 III . VACCINE DEVELOPMEN T 398 G. SUMMAR Y 399 REFERENCE S 399 CHAPTE R 18 CLOSTRIDIAL NEUROTOXINS H. BIGALKE AND L.F. SHOER. WITH 8 FIGURES 407 A . INTRODUCTIO N 407 B. TETANU S AND BOTULISM IN MAN AND ANIMALS 409 I. MODE S OF POISONING 409 II . CLINICAL MANIFESTATIONS 410 III . PATHOPHYSIOLOGY 410 CONTENTS C. STRUCTURE OF CLOSTRIDIAL NEUROTOXINS 412 I. GENETIC DETERMINATION 412 II. STRUCTURE OF PROTEINS 413 D. TOXICOKINETICS OF CLOSTRIDIAL NEUROTOXINS 417 I. RECEPTOR BINDING AND INTERNALIZATION 417 II. TRANSLOCATION FROM ENDOSOMES INTO THE CYTOSOL AND PRIMING 419 III. SORTING, ROUTING AND AXONAL TRANSPORT 421 E. TOXICODYNAMICS OF CLOSTRIDIAL NEUROTOXINS 422 I. MODE OF ACTION OF CLOSTRIDIAL NEUROPROTEASES 422 II. FUNCTION OF SUBSTRATES 425 F. CLOSTRIDIAL NEUROTOXINS SERVE AS TOOLS IN CELL BIOLOGY AND AS THERAPEUTIC AGENTS 427 REFERENCES 431 CHAPTE R 19 ANTHRAX TOXIN S.H. LEPPLA. WITH 1 FIGURE 445 A. INTRODUCTION 445 B. TOXIN GENES 446 I. GENE LOCATION AND ORGANIZATION 446 II. DNA SEQUENCES AND TRANSCRIPTIONAL REGULATION 446 C. TOXIN-COMPONENT PROTEINS 447 I. TOXIN PRODUCTION, PURIFICATION, AND PROPERTIES 447 II. PA STRUCTURE AND FUNCTION 448 III. LF STRUCTURE AND FUNCTION 452 IV. E F STRUCTURE AND FUNCTION 454 V. PA FAMILY MEMBERS 455 D. CELLULAR UPTAKE AND INTERNALIZATION 456 I. CELLULAR RECEPTOR FOR PA 456 II. PROTEOLYTIC ACTIVATION OF PA 456 III. LF AND E F BINDING TO PA63 457 IV. ENDOCYTIC UPTAKE 458 V. CHANNEL FORMATION 459 VI. TRANSLOCATION AND CYTOSOLIC TRAFFICKING 461 E. INTRACELLULAR ACTIONS 462 I. E F ADENYLATE CYCLASE 462 II. LF METALLOPROTEASE 463 F. THERAPEUTIC APPLICATIONS OF LF FUSION PROTEINS 464 G. SUMMARY AND FUTURE PROSPECTS 465 REFERENCES . . . 465 CONTENTS XXVI1 CHAPTE R 20 ADENYLYL-CYCLASE TOXIN FROM BORDETELLA PERTUSSIS E.L . HEWLET T AND M.C. GRAY. WITH 1 FIGURE 473 A . INTRODUCTIO N AND BACKGROUND 473 B. GEN E AN D PROTEI N STRUCTURE 474 C. BIOLOGICAL ACTIVITIES OF AC TOXIN 475 I. ENZYMATI C ACTIVITY 475 II . CELL-INVASIVE ACTIVITY 476 III. POR E FORMATION AND HEMOLYSIS 477 IV. SUMMARY 479 D. POSSIBLE ROLE/S FOR AC TOXIN IN PATHOGENESIS 480 E . AC TOXIN AS A PROTECTIVE ANTIGE N 481 F. USES OF A C TOXIN AS A NOVEL RESEARCH REAGEN T 482 G. FUTUR E DIRECTION S 482 REFERENCE S 483 CHAPTE R 21 HELICOBACTER PYLORI VACUOLATING CYTOTOXIN W. FISCHER AND R. HAAS . WITH 4 FIGURES 489 A . INTRODUCTIO N 489 B. IDENTIFICATION AND PURIFICATION OF THE H. PYLORI VACUOLATING CYTOTOXI N 490 C. GEN E STRUCTUR E AND MECHANISM OF SECRETION 491 I. CLONING AND MOLECULAR CHARACTERISATION OF VACA ENCODING TH E VACUOLATING CYTOTOXIN 491 II . AUTOTRANSPORTE R ORGANISATION OF THE VACA PRECURSOR 493 III. MOSAIC GEN E STRUCTUR E OF VAC A ALLELES IN THE H. PYLORI POPULATION 493 IV. CONSEQUENCE S OF THE VAC A MOSAIC GEN E STRUCTUR E 494 V. PRESENC E OF VACA HOMOLOGUE S IN THE H. PYLORI GENOM E . . . 494 D. REGULATIO N OF VACA GEN E EXPRESSION 495 E . EXTRACELLULA R STRUCTUR E AND ACTIVATION OF THE VACUOLATING CYTOTOXIN 496 I. PROCESSING AND QUATERNAR Y STRUCTUR E 496 II . ACTIVATION BY ACID 496 F. EFFECTS OF VACA ON EUCARYOTIC CELLS 497 I. BINDING T O TARGET CELLS AND MECHANISM OF UPTAK E 497 II . VACUOLE FORMATION 499 III. OTHE R EFFECTS OF VACA 501 G. CLINICAL RELEVANCE OF THE VACUOLATING CYTOTOXIN 502 H. VACA AS A VACCINE CANDIDAT E 503 I. CONCLUDIN G REMARK S 503 REFERENCE S -^ 4 XXVIII CONTENTS CHAPTE R 22 STAPHYLOCOCCAL A TOXIN S. BHAKDI , I. WALEV, M. PALMER, AN D A . VALEVA. WITH 8 FIGURE S 509 A . OCCURRENC E AN D BIOLOGICAL SIGNIFICANCE 509 B. PURIFICATION AN D PROPERTIE S OF MONOMERI C TOXIN 509 C. MECHANIS M OF ACTION 510 I. BINDIN G 510 II . OLIGOMERIZATIO N 511 III . POR E FORMATIO N 512 D. STRUCTUR E OF OLIGOMERIC PORE S 512 I. STRUCTUR E OF TH E HEPTAMERI C PORE FORME D IN DETERGEN T SOLUTION 512 II . STRUCTUR E OF THE MEMBRANE-BOUN D OLIGOME R 514 E . BIOLOGICAL EFFECTS 517 I. CYTOCIDAL ACTION 517 II . SECONDAR Y CELLULAR REACTION S 517 1. REACTION S PROVOKE D BY TRANSMEMBRAN E FLUX OF MONOVALEN T ION S 517 2. CA 2+ -DEPENDEN T REACTION S 518 3 . LONG-RANG E EFFECTS OF A TOXIN 520 4. SYNERGISM BETWEE N A TOXIN AN D OTHE R TOXINS 520 F. RESISTANC E AN D REPAI R MECHANIS M 520 G. USE OF A TOXIN IN CELL BIOLOGY 522 H . MEDICAL RELEVANC E OF A TOXIN 523 REFERENCE S 524 CHAPTE R 2 3 BACTERIAL PHOSPHOLIPASES R.W. TITBALL AN D J.I. ROOD . WITH 5 FIGURE S 529 A . INTRODUCTIO N 529 B. RELATE D GROUP S OF PHOSPHOLIPASE S 529 I. ZIN C METALLOPHOSPHOLIPAS E CS 530 II . GRAM-NEGATIV E PLC S 535 III . PHOSPHATIDYLINOSITO L PLC S 535 IV. PHOSPHOLIPAS E D S 536 C. FUNCTIONA L AN D BIOLOGICAL PROPERTIE S OF PHOSPHOLIPASE S 536 D. MODULATIO N OF EUKARYOTI C CELL METABOLIS M 538 I. HYDROLYSIS OF MEMBRAN E PHOSPHOLIPID S 538 II. HYDROLYSIS OF MEMBRAN E PHOSPHOLIPID S MODULATE S CELL METABOLIS M 541 E . REGULATIO N 542 I. REGULATIO N OF TH E C. PERFRINGENS PIC GEN E 542 CONTENTS XXL X II. ENVIRONMENTAL CONTROL OF PLC PRODUCTION IN P. AERUGINOSA 542 III. REGULATION OF THE LISTERIA PHOSPHOLIPASES BY PRFA 543 F. ROLE IN DISEASE 544 I. GAS GANGRENE 544 II. P. AERUGINOSA INFECTIONS 546 III. THE PATHOGENESIS OF LISTERIOSIS 547 IV. CASEOUS LYMPHADENITIS IN RUMINANTS 548 G. CONCLUSIONS 548 REFERENCES 549 CHAPTE R 24 PORE-FORMING TOXINS AS CELL-BIOLOGICAL AND PHARMACOLOGICAL TOOLS G. AHNERT-HILGER, I. PAHNER, AND M. HOLTJE. WITH 5 FIGURES 557 A. PERMEABILIZED CELLS: AN APPROACH TO THE STUDY OF INTRACELLULAR PROCESSES 557 B. OR-TOXIN AND SLO AS TOOLS WITH WHICH TO STUDY FUNCTIONAL ASPECTS OF INTRACELLULAR ORGANELLES 559 I. BIOLOGICAL ACTIVITY AND CELL PERMEABILITY 559 1. PROTOCOL 1: PERMEABILIZATION OF ATTACHED CELLS BY A-TOXIN OR SLO 560 A) ALTERNATE PROTOCOL 1 560 2. PROTOCOL 2: PERMEABILIZATION OF CELLS IN SUSPENSION 560 A) COMMENTARY FOR PROTOCOLS 1 AND 2 561 3. PROTOCOL 3: ASSAY TO COMPARE BIOLOGICAL ACTIVITY OF VARIOUS PORE-FORMING TOXINS USING RABBIT ERYTHROCYTES 561 A) COMMENTARY FOR PROTOCOL 3 562 4. PROTOCOL 4: TRYPAN-BLUE EXCLUSION TEST 562 A) COMMENTARY FOR PROTOCOL 4 563 II. INTRODUCTION OF MEMBRANE IMPERMEABLE PROTEINS 563 1. PROTOCOL 5: INTRODUCTION OF MEMBRANE-IMPERMEABLE PROTEINS. IMMUNOFLUORESCENCE FOR SYNAPTOPHYSIN 565 A) COMMENTARY FOR PROTOCOL 5 565 2. PROTOCOL 6: INTRODUCTION OF MEMBRANE-IMPERMEABLE PROTEINS. TENT/LC 566 A) COMMENTARY FOR PROTOCOL 6 567 III. ASSAY FOR EXOCYTOSIS IN PERMEABILIZED CELLS 567 1. PROTOCOL 7: MEASURING EXOCYTOSIS IN PERMEABILIZED SUSPENSION CELLS 568 2. PROTOCOL 8: MEASURING EXOCYTOSIS IN PERMEABILIZED ATTACHED CELLS 570 A) COMMENTARY FOR BASIC PROTOCOLS 7 AND 8 570 XX X CONTENTS IV. REGULATION OF VESICULAR TRANSMITTER TRANSPORTERS IN PERMEABILIZED CELLS 570 1. PROTOCOL 9: REGULATION OF VESICULAR TRANSMITTER TRANSPORTERS IN PERMEABILIZED CELLS 571 A) COMMENTARY FOR BASIC PROTOCOL 9 572 C. CHEMICALS USED IN THE PROTOCOLS 572 D. CONCLUDING REMARKS 573 REFERENCES 573 CHAPTE R 25 HEAT-STABLE ENTEROTOXIN OF ESCHERICHIA COLI T. HIRAYAMA AND A. WADA. WITH 3 FIGURES 577 A. INTRODUCTION 577 B. HEAT-STABLE ENTEROTOXIN STA 578 I. STRUCTURE AND BIOLOGICAL PROPERTIES OF STA 578 II. RECEPTOR FOR STA 580 C. STA-LIKE HEAT-STABLE ENTEROTOXIN 585 D. HEAT-STABLE ENTEROTOXIN STB 585 I. STRUCTURE OF STB 585 II. BIOLOGICAL FUNCTION OF STB 586 E. CONCLUDING REMARKS 588 REFERENCES 588 CHAPTE R 26 SUPERANTIGENIC TOXINS B. FLEISCHER. WITH 1 FIGURE 595 A. SUMMARY 595 B. INTRODUCTION 595 C. PETS OF S. AUREUS AND S. PYOGENES 596 I. GENES AND MOLECULES 596 II. MOLECULAR MECHANISM OF ACTION 600 1. BINDING TO MHC CLASS-II MOLECULES 600 2. NON-MHC RECEPTORS 601 3. INTERACTION WITH THE TCR 602 III. BIOLOGICAL SIGNIFICANCE OF PETS 604 1. ROLE OF PETS AS VIRULENCE FACTORS 604 2. ROLE IN PATHOGENESIS 604 3. ASSOCIATION WITH HUMAN AUTOIMMUNE DISEASE 605 4. THE ENTEROTOXIC ACTIVITY 606 D. OTHER SUPERANTIGENS (OR PSEUDOSUPERANTIGENS) OF GRAM-POSITIVE COCCI? 607 CONTENTS XXXI I. THE ET S OF S. AUREUS 607 II . M PROTEIN S AND SP E B OF S. PYOGENES 607 III . THE MITOGENIC FACTOR OF S. PYOGENES 608 E . THE M. ARTHRITIDIS SUPERANTIGE N 610 F. THE Y. PSEUDOTUBERCULOSIS MITOGEN 610 G. CONCLUDING REMARK S 611 REFERENCES 611 CHAPTE R 27 STRUCTURE AND ACTIVITY OF ENDOTOXINS S. HAUSCHILDT, W. BRABETZ, A.B. SCHROMM. L. HAMANN. P. ZABEL . E.T. RIETSCHEL, AN D S. MULLER-LOENNIES . WITH 10 FIGURES 619 A . INTRODUCTIO N 619 B. THE CHEMICAL STRUCTUR E OF LPS 624 I. STRUCTURAL CHARACTERISTIC S OF THE O-SPECIFIC CHAIN 627 II . STRUCTURAL CHARACTERISTIC S OF THE LPS CORE 627 III . STRUCTURAL CHARACTERISTIC S OF LIPID A 629 C. BIOSYNTHESIS OF LPS 632 I. BIOSYNTHESIS OF LIPID A 632 II . BIOSYNTHESIS OF THE COR E REGION 632 III . BIOSYNTHESIS OF THE O-SPECIFIC CHAIN 633 D. STRUCTURE-ACTIVIT Y RELATIONSHIP S OF LPS AND LIPID A 634 E . CELLULAR AND HUMORA L RESPONSE S T O LPS IN MAMMALS 636 F. STRATEGIES FOR TH E TREATMEN T OF GRAM-NEGATIV E INFECTIONS 644 I. ANTIBACTERIA L AGENT S 645 II . ANTAGONIST S OF ENDOTOXI C EFFECTS 647 III. NEUTRALIZING ANTIBODIE S AGAINST ENDOTOXI N 649 G. FINAL REMARK S 651 REFERENCES 652 CHAPTE R 28 TRANSLOCATED TOXINS AND MODULINS OF YERSINIA M. AEPFELBACHER. R. ZUMBIHL, K. RI/CKDESCHEI.. B. ROROI . AND J. HF.ESEMANN. WITH 5 FIGURES 669 A. INTRODUCTIO N 669 B. YERSINIA PROTEIN TYPE-ILL SECRETION/TRANSLOCATION SYSTEM 670 I. VIRULENCE PLASMID PYV 670 II. REGULATION OF YOP EXPRESSION . SECRETION AND TRANSLOCATION 671 C. TRANSLOCATED TOXINS AND MODULINS OF YERSINIA (EFFECTOR YOPS) . . . 674 XXXII CONTENTS I. YOPH , A HIGHLY ACTIV E TYROSINE PHOSPHATAS E 674 II . YOPE , AN ACTIN-DISRUPTIN G CYTOTOXI N 677 III . YOPP, MODULATO R OF MULTIPL E SIGNAL PATHWAY S LEADIN G T O APOPTOSI S AN D CYTOKIN E SUPPRESSIO N 678 IV. YOPT, ANOTHE R ACTIN-DISRUPTIN G CYTOTOXI N 681 V. YOPM - SO FAR, N O EVIDENC E FOR AN INTRACELLULA R FUNCTIO N 681 VI . YPKA , A PUTATIV E SERINE/THREONIN E KINAS E AFFECTING CELL SHAP E 682 D. PERSPECTIVE S 683 REFERENCE S 685 SUBJECT INDE X 691
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spelling	Bacterial protein toxins contributors M. Aepfelbacher ... Ed. K. Aktories and I. Just Berlin [u.a.] Springer 2000 XXXII, 700 S. Ill., graph. Darst. txt rdacontent n rdamedia nc rdacarrier Handbook of experimental pharmacology 145 Bacterial Toxins cabt Proteins cabt Bakteriengift (DE-588)4130547-4 gnd rswk-swf Pharmakologie (DE-588)4045687-0 gnd rswk-swf (DE-588)4143413-4 Aufsatzsammlung gnd-content Bakteriengift (DE-588)4130547-4 s Pharmakologie (DE-588)4045687-0 s DE-604 Aepfelbacher, Martin Sonstige (DE-588)1027624014 oth Aktories, Klaus 1948- Sonstige (DE-588)121590712 oth Handbook of experimental pharmacology 145 (DE-604)BV002390716 145 DNB Datenaustausch application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=008899855&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis
spellingShingle	Bacterial protein toxins Handbook of experimental pharmacology Bacterial Toxins cabt Proteins cabt Bakteriengift (DE-588)4130547-4 gnd Pharmakologie (DE-588)4045687-0 gnd
subject_GND	(DE-588)4130547-4 (DE-588)4045687-0 (DE-588)4143413-4
title	Bacterial protein toxins
title_auth	Bacterial protein toxins
title_exact_search	Bacterial protein toxins
title_full	Bacterial protein toxins contributors M. Aepfelbacher ... Ed. K. Aktories and I. Just
title_fullStr	Bacterial protein toxins contributors M. Aepfelbacher ... Ed. K. Aktories and I. Just
title_full_unstemmed	Bacterial protein toxins contributors M. Aepfelbacher ... Ed. K. Aktories and I. Just
title_short	Bacterial protein toxins
title_sort	bacterial protein toxins
topic	Bacterial Toxins cabt Proteins cabt Bakteriengift (DE-588)4130547-4 gnd Pharmakologie (DE-588)4045687-0 gnd
topic_facet	Bacterial Toxins Proteins Bakteriengift Pharmakologie Aufsatzsammlung
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volume_link	(DE-604)BV002390716
work_keys_str_mv	AT aepfelbachermartin bacterialproteintoxins AT aktoriesklaus bacterialproteintoxins

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MARC

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