TY - BOOK AU - Cossart,Pascale AU - Roy,Craig R. AU - Sansonetti,P.J. TI - Bacteria and intracellularity T2 - ASM Books SN - 9781683670261 AV - QR96.5 U1 - 571.6/38293 23 PY - 2020///] CY - Washington, D.C., Hoboken, NJ PB - American Society for Microbiology, Wiley Blackwell KW - Bacteria KW - Physiology KW - Cell interaction KW - Electronic books N1 - ABOUT THE AUTHOR Pascale Cossart is considered a pioneer in cellular microbiology. Her research has led to new concepts in infection biology as well as in cell biology and fundamental microbiology, including RNA-mediated regulation. Her contributions have been recognized by several international awards and election to several academies, including the National Academy of Sciences and the National Academy of Medicine, and in January 2016 she was named Secrétaire Perpétuel de l'Académie des Sciences, Paris. Craig R. Roy trained in the laboratory of Stanley Falkow at Stanford University and in the laboratory of Ralph Isberg at Tufts University, and is currently Waldemar Von Zedtwitz Professor of Microbial Pathogenesis and Immunobiology at Yale University. His laboratory uses multidisciplinary approaches to elucidate the mechanisms employed by intracellular pathogens to modulate vesicular transport and the host immune response. Philippe Sansonetti is professor and head of the Unité de Pathogénie Microbienne Moléculaire at Institut Pasteur in Paris and chair of Microbiology and Infectious Diseases at the Collège de France. Professor Sansonetti is a member of the French Academy of Science, the National Academy of Sciences, and the Royal Society. His investigations concern the pathogenesis of enteric infections, particularly Shigella, including vaccine development and the molecular cross-talk between microbiota and the gut epithelium; Includes bibliographical references and index; TABLE OF CONTENTS Contributors ix Preface xv About the Editors xvii I. Cellular microbiology in the study of tissue and organ infections 1. Interaction between Intracellular Bacterial Pathogens and Host Cell Mitochondria 3 Anna Spier, Fabrizia Stavru, and Pascale Cossart 2 Shigella Pathogenesis: New Insights through Advanced Methodologies 15 Pamela Schnupf and Philippe J. Sansonetti 3. The Interplay between Salmonella enterica Serovar Typhimurium and the Intestinal Mucosa during Oral Infection 41 Annika Hausmann and Wolf-Dietrich Hardt 4. New Age Strategies To Reconstruct Mucosal Tissue Colonization and Growth in Cell Culture Systems 59 Alyssa C. Fasciano, Joan Mecsas, and Ralph R. Isberg 5. The Many Faces of Bacterium-Endothelium Interactions during Systemic Infections 69 Dorian Obino and Guillaume Duménil 6. Reaching the End of the Line: Urinary Tract Infections 83 Kevin O. Tamadonfar, Natalie S. Omattage, Caitlin N. Spaulding, and Scott J. Hultgren 7. The Intracellular Life Cycle of Brucella spp. 101 Jean Celli 8. Infect and Inject: How Mycobacterium tuberculosis Exploits Its Major Virulence-Associated Type VII Secretion System, ESX-1 113 Sangeeta Tiwari, Rosalyn Casey, Celia W. Goulding, Suzie Hingley-Wilson, and William R. Jacobs, JR. 9. Mycobacterium tuberculosis: Bacterial Fitness within the Host Macrophage 127 Lu Huang, Evgeniya V. Nazarova, and David G. Russell 10. The Wolbachia Endosymbionts 139 Frédéric Landmann 11. Make It a Sweet Home: Responses of Chlamydia trachomatis to the Challenges of an Intravacuolar Lifestyle 155 Sébastien Triboulet and Agathe Subtil 12. Salmonella Single-Cell Metabolism and Stress Responses in Complex Host Tissues 167 Dirk Bumann 13. Manipulation of Host Cell Organelles by Intracellular Pathogens 179 Titilayo O. Omotade and Craig R. Roy II. Subcellular microbiology 14. The Role of the Type III Secretion System in the Intracellular Lifestyle of Enteric Pathogens 199 Marcela de Souza Santos and Kim Orth 15. Customizing Host Chromatin: A Bacterial Tale 215 Michael Connor, Laurence Arbibe, and Mélanie Hamon 16. Cell Biology of Intracellular Adaptation of Mycobacterium leprae in the Peripheral Nervous System 227 Samuel Hess and Anura Rambukkana 17. Multifaceted Roles of MicroRNAs in Host-Bacterial Pathogen Interaction 247 Carmen Aguilar, Miguel Mano, and Ana Eulalio 18. Modulation of Host Cell Metabolism by Chlamydia trachomatis 267 Marion Rother, Ana Rita Teixeira da Costa, Rike Zietlow, Thomas F. Meyer, and Thomas Rudel III. Autonomous defense pathways in the cell 19. Host-Encoded Sensors of Bacteria: Our Windows into the Microbial World 279 Charlotte Odendall and Jonathan C. Kagan 20. Recognition of Intracellular Bacteria by Inflammasomes 287 Petr Broz IV. New technologies to move cellular microbiology to organs and tissues 21. Modeling Infectious Diseases in Mice with a “Humanized” Immune System 301 Yan Li and James P. di Santo 22. A Cinematic View of Tissue Microbiology in the Live Infected Host 315 Agneta Richter-Dahlfors and Keira Melican 23. Cellular Imaging of Intracellular Bacterial Pathogens 325 Virginie Stévenin and Jost Enninga 24. Using a Systems Biology Approach To Study Host-Pathogen Interactions 337 Amy Yeung, Christine Hale, Simon Clare, Sophie Palmer, Josefin Bartholdson Scott, Stephen Baker, and Gordon Dougan Index 349 N2 - "In launching this book, we wanted to cover many aspects and mechanisms of cellular microbiology, but more importantly, we intended to show that cellular microbiology as a field has reached maturity, extending beyond the strictly cellular level to infections of various organs and tissues. Many model organisms (Yersinia, Salmonella, Shigella, and Listeria, among others) are foodborne pathogens, and tremendous progress has been achieved in deciphering how, when, and where bacteria interact with the gut. However, intestinal cells and the intestine are not the only cells and organs discussed in this book. There are also chapters on infections of the urogenital tract, the endothelial barriers, the nervous system, and the lungs. Progress in the latter two concern important public health infections produced by Mycobacterium leprae and Mycobacterium tuberculosis. These two bacteria, which were at first much more difficult to manipulate than Escherichia coli, are now genetically tractable, and their study can now benefit from all the techniques and approaches established with less fastidious bacteria"--; Bacteria and Intracellularity clearly demonstrates that cellular microbiology as a field has reached maturity, extending beyond the strictly cellular level to infections of various organs and tissues. Decades of intense investigation into host-bacterial pathogen interactions have highlighted common concepts in intracellularity but also very diverse mechanisms underlying the various infections produced by bacteria. This book offers a wide-ranging look at the latest studies, including: foodborne pathogens, including how, when, and where bacteria interact with the gut and its microbiota infections of the urogenital tract, endothelial barriers, and the nervous system major advances in work with Mycobacterium tuberculosis and M. leprae subcellular microbiology, including metabolism of infected cells, nuclear biology, and microRNAs endosymbionts, in particular the latest work with Wolbachia and its effect on insect transmission of viral pathogens research into cell autonomous defense pathways that has led to major insights into immunology and innate immunity the latest developments in technology, for the next steps in the study of intracellularity All facets of cellular physiology, within the entire scope of cells and host tissues, can be targeted by pathogens. This book offers to researchers, students, and laboratorians a valuable overview of the state of current research into the cellular microbiology of host-pathogen interactions UR - https://onlinelibrary.wiley.com/doi/book/10.1128/9781683670261 ER -