Description

Book Synopsis
* Thoroughly reviews our current understanding of malarialbiology * Explores the subject with insights from post-genomictechnologies * Looks broadly at the disease, vectors of infection, andtreatment and prevention strategies * A timely publication with chapters written by globalresearchers leaders .

Table of Contents

List of contributors xiii

Foreword xvii

Preface xix

1 Introduction: An overview of malaria and Plasmodium 1
Virander S. Chauhan, Chetan E. Chitnis, and Deepak Gaur

History 1

The life cycle of Plasmodium 3

A significant milestone in malaria research: Adaptation of Plasmodium to laboratory culture 4

The advent of present‐day technologies and their applications in malaria research 5

Bibliography 6

2 Exoerythrocytic development of Plasmodium parasites 9
Volker T. Heussler, Annika Rennenberg, and Rebecca R. Stanway

The sporozoite’s journey from the skin to the liver 10

Sporozoite invasion 14

Parasite development 15

Protein export from the parasite into the host cell 20

Parasite egress 23

The role of innate immune responses during merosome formation 26

Acknowledgments 27

Bibliography 27

3 Molecular basis of erythrocyte invasion by Plasmodium merozoites 33
Deepak Gaur, Chetan E. Chitnis, and Virander S. Chauhan

The structure of the merozoite 39

The steps of erythrocyte invasion 41

Redundancy and ligand–receptor interactions that mediate parasite adhesion during erythrocyte invasion 57

Signaling events during erythrocyte invasion by malaria parasites 74

Summary and conclusions 75

Bibliography 75

4 The biology of malaria transmission 87
Robert E. Sinden

Purpose 87

History 87

The current research agenda 88

Biology 88

Population dynamics 106

Transmission‐blocking interventions 110

Bibliography 114

5 Comparative and functional genomics of malaria parasites 125
Martine M. Zilversmit, Sittiporn Pattaradilokrat, and Xin‐zhuan Su

An Introduction to Plasmodium genomes 125

Genome structure of malaria parasites 127

From genome sequences to gene function 133

Summary 139

Acknowledgments 139

Bibliography 139

6 Gene regulation: New insights and possible intervention strategies 149
Artur Scherf, Nicholas A. Malmquist, Rafael M. Martins, Shruthi S. Vembar, and Jose‐Juan Lopez‐Rubio

Introduction 149

Modes of gene regulation 150

Drug targeting 164

Perspectives 169

Bibliography 171

7 Molecular genetic approaches to malaria research 179
Brendan Elsworth, Mauro F. Azevedo, Brendan S. Crabb, and Paul R. Gilson

Transfection methods 179

Genetic approaches for deriving gene function 184

Conditional knockdown of protein function 187

Protein reporters 190

Conclusions 192

Bibliography 192

8 Transcriptomics and proteomics 197
Archana P. Gupta, Zbynek Bozdech, and Peter R. Preiser

Transcriptional profiling throughout the parasite life cycle 198

Transcriptional regulation 201

Transcriptional variation 205

Biological insights 208

Proteomics 208

Translational regulation 209

Conclusion 212

Bibliography 212

9 The biochemistry of Plasmodium falciparum: An updated overview 219
Hagai Ginsburg

MPMP 219

Carbohydrates 219

Lipid metabolism 227

Amino acids 240

Nucleotide metabolism 252

Cofactors 256

Redox metabolism 265

Mitochondrial functions 268

Hemoglobin digestion and hemozoin production 273

Some reflections for the future 276

Bibliography 277

10 Signaling in malaria parasites 291
Pushkar Sharma and Sudhir Kumar

Protein phosphorylation in Plasmodium 291

Calcium‐mediated signaling in Plasmodium 292

Phosphoinositide signaling and trafficking in malaria parasites 295

Cyclic nucleotide signaling in the malaria parasite 296

Future challenges 300

Bibliography 300

11 Membrane transport proteins as therapeutic targets in malaria 307

Sanjay A. Desai, Kempaiah Rayavara, Paresh Sharma, Sayeed K. Syed, Wang Nguitragool, and Praveen Balabaskaran Nina

Host erythrocyte membrane: A shared ion and nutrient channel 308

Parasitophorous vacuolar membrane: Protein export and solute uptake 311

Parasite plasma membrane: Similar to other eukaryotic cells, but different 314

Digestive vacuole: A specialized lysosome‐equivalent in the parasite 316

Mitochondrial inner membrane: An unusual ATP synthase with uncertain function 318

Conclusions 319

Acknowledgments 319

Bibliography 319

12 The proteolytic repertoire of malaria parasites 325
Puran Singh Sijwali and Philip J. Rosenthal

Aspartic proteases 325

Cysteine proteases 330

Metalloproteases 333

Serine proteases 335

Threonine proteases 338

Roles of proteases in parasite development 340

Summary and conclusions 343

Acknowledgments 343

Bibliography 343

13 Development of medicines for the control and elimination of malaria 353
Jeremy N. Burrows and Timothy N. C. Wells

Targets for the development of future medicines for malaria 356

The process of drug development 359

Advances in drug development made in the 21st century 365

The global pipeline of new medicines for treating malaria 368

Medicines in the broader context of malaria eradication 370

Conclusion 377

Acknowledgments 377

Bibliography 377

14 Antimalarial drug resistance 383
Naman K. Shah and Neena Valecha

Background 383

Causes of drug resistance 386

Detection of drug resistance 390

Managing drug resistance 397

Conclusion 401

Disclosures 401

Bibliography 401

Further reading 407

15 Epidemiology of Plasmodium falciparum malaria 409
Alberto L. García‐Basteiro, Quique Bassat, and Pedro L. Alonso

Burden of disease 409

Geographical distribution of the disease 411

Chain of transmission and infection cycle 413

Malaria endemicity and malaria transmission 415

Malaria elimination and eradication 423

Bibliography 424

16 Malaria pathogenesis 427
Bronner P. Gonçalves, Michal Fried, and Patrick E. Duffy

Malaria illness 427

Host susceptibility 439

Parasite virulence 444

Conclusions 450

Bibliography 451

17 Host genetics 465
Thomas N. Williams

What evidence is there that the risk of malaria is genetically determined? 465

Identifying the genes involved 466

Why is genetic resistance important? 467

Genetic polymorphisms of the red blood cell 468

Hemoglobinopathies 474

G6PD deficiency 478

Non–red blood cell polymorphisms 479

Concluding remarks 481

Bibliography 481

18 The immune response in mild and severe malaria: Two sides of the same coin 495
Michael Waisberg, Peter D. Crompton, Louis H. Miller, and Susan K. Pierce

The picture of the acquisition of resistance to uncomplicated and severe malaria: Framing the questions 495

Searching for host genes that confer immune resistance to severe malaria 506

SLE susceptibility and resistance to severe malaria 507

The relationship between the pathogen environment and susceptibility to severe malaria 510

Summary 511

Acknowledgments 511

Bibliography 512

19 Progress in development of malaria vaccines 521
Chetan E. Chitnis, Deepak Gaur, and Virander S. Chauhan

Immunity to malaria 521

Life cycle of malaria parasites and points of intervention with vaccines 522

Pre‐erythrocytic stage vaccines 524

Blood‐stage vaccines 526

Transmission‐blocking vaccines 533

Live attenuated vaccines for malaria 534

Conclusion 535

Bibliography 535

20 Plasmodium vivax: Insights on burden and pathobiology 547
Ivo Mueller, Quique Bassat, Marcus V. G. Lacerda, and Hernando A. del Portillo

Burden of Plasmodium vivax infection and disease 547

Severe Plasmodium vivax malaria 550

Molecular basis of severe disease 552

Concluding remarks and outstanding research questions 558

Bibliography 558

Index 565

Advances in Malaria Research

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    A Hardback by Deepak Gaur, Chetan E. Chitnis, Virander S. Chauhan

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      Publisher: John Wiley and Sons Ltd
      Publication Date: Publication Date: 23/12/2016
      ISBN13: 9781118493793, 978-1118493793
      ISBN10: 1118493796

      Description

      Book Synopsis
      * Thoroughly reviews our current understanding of malarialbiology * Explores the subject with insights from post-genomictechnologies * Looks broadly at the disease, vectors of infection, andtreatment and prevention strategies * A timely publication with chapters written by globalresearchers leaders .

      Table of Contents

      List of contributors xiii

      Foreword xvii

      Preface xix

      1 Introduction: An overview of malaria and Plasmodium 1
      Virander S. Chauhan, Chetan E. Chitnis, and Deepak Gaur

      History 1

      The life cycle of Plasmodium 3

      A significant milestone in malaria research: Adaptation of Plasmodium to laboratory culture 4

      The advent of present‐day technologies and their applications in malaria research 5

      Bibliography 6

      2 Exoerythrocytic development of Plasmodium parasites 9
      Volker T. Heussler, Annika Rennenberg, and Rebecca R. Stanway

      The sporozoite’s journey from the skin to the liver 10

      Sporozoite invasion 14

      Parasite development 15

      Protein export from the parasite into the host cell 20

      Parasite egress 23

      The role of innate immune responses during merosome formation 26

      Acknowledgments 27

      Bibliography 27

      3 Molecular basis of erythrocyte invasion by Plasmodium merozoites 33
      Deepak Gaur, Chetan E. Chitnis, and Virander S. Chauhan

      The structure of the merozoite 39

      The steps of erythrocyte invasion 41

      Redundancy and ligand–receptor interactions that mediate parasite adhesion during erythrocyte invasion 57

      Signaling events during erythrocyte invasion by malaria parasites 74

      Summary and conclusions 75

      Bibliography 75

      4 The biology of malaria transmission 87
      Robert E. Sinden

      Purpose 87

      History 87

      The current research agenda 88

      Biology 88

      Population dynamics 106

      Transmission‐blocking interventions 110

      Bibliography 114

      5 Comparative and functional genomics of malaria parasites 125
      Martine M. Zilversmit, Sittiporn Pattaradilokrat, and Xin‐zhuan Su

      An Introduction to Plasmodium genomes 125

      Genome structure of malaria parasites 127

      From genome sequences to gene function 133

      Summary 139

      Acknowledgments 139

      Bibliography 139

      6 Gene regulation: New insights and possible intervention strategies 149
      Artur Scherf, Nicholas A. Malmquist, Rafael M. Martins, Shruthi S. Vembar, and Jose‐Juan Lopez‐Rubio

      Introduction 149

      Modes of gene regulation 150

      Drug targeting 164

      Perspectives 169

      Bibliography 171

      7 Molecular genetic approaches to malaria research 179
      Brendan Elsworth, Mauro F. Azevedo, Brendan S. Crabb, and Paul R. Gilson

      Transfection methods 179

      Genetic approaches for deriving gene function 184

      Conditional knockdown of protein function 187

      Protein reporters 190

      Conclusions 192

      Bibliography 192

      8 Transcriptomics and proteomics 197
      Archana P. Gupta, Zbynek Bozdech, and Peter R. Preiser

      Transcriptional profiling throughout the parasite life cycle 198

      Transcriptional regulation 201

      Transcriptional variation 205

      Biological insights 208

      Proteomics 208

      Translational regulation 209

      Conclusion 212

      Bibliography 212

      9 The biochemistry of Plasmodium falciparum: An updated overview 219
      Hagai Ginsburg

      MPMP 219

      Carbohydrates 219

      Lipid metabolism 227

      Amino acids 240

      Nucleotide metabolism 252

      Cofactors 256

      Redox metabolism 265

      Mitochondrial functions 268

      Hemoglobin digestion and hemozoin production 273

      Some reflections for the future 276

      Bibliography 277

      10 Signaling in malaria parasites 291
      Pushkar Sharma and Sudhir Kumar

      Protein phosphorylation in Plasmodium 291

      Calcium‐mediated signaling in Plasmodium 292

      Phosphoinositide signaling and trafficking in malaria parasites 295

      Cyclic nucleotide signaling in the malaria parasite 296

      Future challenges 300

      Bibliography 300

      11 Membrane transport proteins as therapeutic targets in malaria 307

      Sanjay A. Desai, Kempaiah Rayavara, Paresh Sharma, Sayeed K. Syed, Wang Nguitragool, and Praveen Balabaskaran Nina

      Host erythrocyte membrane: A shared ion and nutrient channel 308

      Parasitophorous vacuolar membrane: Protein export and solute uptake 311

      Parasite plasma membrane: Similar to other eukaryotic cells, but different 314

      Digestive vacuole: A specialized lysosome‐equivalent in the parasite 316

      Mitochondrial inner membrane: An unusual ATP synthase with uncertain function 318

      Conclusions 319

      Acknowledgments 319

      Bibliography 319

      12 The proteolytic repertoire of malaria parasites 325
      Puran Singh Sijwali and Philip J. Rosenthal

      Aspartic proteases 325

      Cysteine proteases 330

      Metalloproteases 333

      Serine proteases 335

      Threonine proteases 338

      Roles of proteases in parasite development 340

      Summary and conclusions 343

      Acknowledgments 343

      Bibliography 343

      13 Development of medicines for the control and elimination of malaria 353
      Jeremy N. Burrows and Timothy N. C. Wells

      Targets for the development of future medicines for malaria 356

      The process of drug development 359

      Advances in drug development made in the 21st century 365

      The global pipeline of new medicines for treating malaria 368

      Medicines in the broader context of malaria eradication 370

      Conclusion 377

      Acknowledgments 377

      Bibliography 377

      14 Antimalarial drug resistance 383
      Naman K. Shah and Neena Valecha

      Background 383

      Causes of drug resistance 386

      Detection of drug resistance 390

      Managing drug resistance 397

      Conclusion 401

      Disclosures 401

      Bibliography 401

      Further reading 407

      15 Epidemiology of Plasmodium falciparum malaria 409
      Alberto L. García‐Basteiro, Quique Bassat, and Pedro L. Alonso

      Burden of disease 409

      Geographical distribution of the disease 411

      Chain of transmission and infection cycle 413

      Malaria endemicity and malaria transmission 415

      Malaria elimination and eradication 423

      Bibliography 424

      16 Malaria pathogenesis 427
      Bronner P. Gonçalves, Michal Fried, and Patrick E. Duffy

      Malaria illness 427

      Host susceptibility 439

      Parasite virulence 444

      Conclusions 450

      Bibliography 451

      17 Host genetics 465
      Thomas N. Williams

      What evidence is there that the risk of malaria is genetically determined? 465

      Identifying the genes involved 466

      Why is genetic resistance important? 467

      Genetic polymorphisms of the red blood cell 468

      Hemoglobinopathies 474

      G6PD deficiency 478

      Non–red blood cell polymorphisms 479

      Concluding remarks 481

      Bibliography 481

      18 The immune response in mild and severe malaria: Two sides of the same coin 495
      Michael Waisberg, Peter D. Crompton, Louis H. Miller, and Susan K. Pierce

      The picture of the acquisition of resistance to uncomplicated and severe malaria: Framing the questions 495

      Searching for host genes that confer immune resistance to severe malaria 506

      SLE susceptibility and resistance to severe malaria 507

      The relationship between the pathogen environment and susceptibility to severe malaria 510

      Summary 511

      Acknowledgments 511

      Bibliography 512

      19 Progress in development of malaria vaccines 521
      Chetan E. Chitnis, Deepak Gaur, and Virander S. Chauhan

      Immunity to malaria 521

      Life cycle of malaria parasites and points of intervention with vaccines 522

      Pre‐erythrocytic stage vaccines 524

      Blood‐stage vaccines 526

      Transmission‐blocking vaccines 533

      Live attenuated vaccines for malaria 534

      Conclusion 535

      Bibliography 535

      20 Plasmodium vivax: Insights on burden and pathobiology 547
      Ivo Mueller, Quique Bassat, Marcus V. G. Lacerda, and Hernando A. del Portillo

      Burden of Plasmodium vivax infection and disease 547

      Severe Plasmodium vivax malaria 550

      Molecular basis of severe disease 552

      Concluding remarks and outstanding research questions 558

      Bibliography 558

      Index 565

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