Toxoplasma gondii : biology and role in health and disease / Erica S. Martins-Duarte and Daniel Adesse, editors.

Format:

Book

Contributor:

Martins-Duarte, Erica S., editor.

Adesse, Daniel, editor.

Series:

Parasites and parasitic diseases.

Parasites and Parasitic Diseases

Language:

English

Subjects (All):

Toxoplasma gondii.

Physical Description:

1 online resource (362 pages)

Place of Publication:

New York : Nova Science Publishers, Inc., [2021]

Summary:

"Toxoplasma gondii is a globally spread protozoan parasite responsible for causing toxoplasmosis. Infection by T. gondii shows high seroprevalence in humans, especially in South America. Written by specialists, this book brings important contributions and information on parasite biology, including its life cycle, ultrastructural features of tachyzoite, bradyzoite and their main specific organelles, mechanisms of host cell invasion, parasite replication and epigenetics regulation. Moreover, the book will encompass mechanisms of pathogenesis and host immune response to the infection, including purinergic signaling, and mechanisms of immune evasion by the parasite. Finally, this book also addresses relevant aspects of disease, information about the current chemotherapy of toxoplasmosis and perspectives for a future chronic disease treatment, epidemiology, and methods for visualization of the parasite by optical and electron microscopy"-- Provided by publisher.

Contents:

Intro

Contents

Preface

Chapter 1

Toxoplasma gondii: Introduction to Parasite Life Cycle and Disease

Abstract

1. Brief History of Parasite Discovery

2. Intermediate Host Infection

2.1. Asexual Reproduction of Toxoplasma gondii

2.2. Host Cell Adhesion and Invasion

2.3. Tissue Cyst Formation

3. Human Toxoplasmosis

3.1. Neurological Manifestations

3.2. Ocular Manifestations

3.3. Congenital Malformations

4. Definitive Host Infection

4.1. Sexual Reproduction of Toxoplasma gondii

4.2. Seroprevalence and Treatment in Cats

References

Chapter 2

Ultrastructure of Tachyzoite, Sporozoite and Bradyzoite Forms

1. Introduction

2. The Pellicle

3. Cytoskeleton

3.1. Microtubules and Tubulin Related Structures

3.2. Conoid

3.3. Actin and Myosin

3.4 Subpellicular Network (SPN)

4. Secretory Organelles

4.1. Micronemes and Rhoptries

4.2. Dense Granules

5. Other Organelles

5.1. Amylopectin Granules

5.2. Lipid Bodies

5.3. Nucleus

5.4. Endoplasmic Reticulum

5.5. Golgi Complex

5.6. Mitochondrion

5.7. Apicoplast

5.8. Acidocalcisomes

5.9. Large Anterior Cytoplasmic Vacuole of Extracellular Tachyzoite (TgLACVET)

6. Intravacuolar Structures

Chapter 3

Toxoplasma gondii Entry Mechanisms and Establishment of the Parasitophorous Vacuole

2. Host Cell Recognition and Adhesion

3. Gliding Motility

3.1. Regulation of Adhesin Secretion

4. Active Invasion

5. Other Mechanisms for T. Gondii Internalization

6. Establishment of the Parasitophorous Vacuole

6.1. Host Autophagy Controls the Toxoplasma Growth

6.2. Non-Classical Mechanisms of Parasite Control and Autophagy Proteins

Conclusion

Chapter 4

Cystogenesis Process in Toxoplasma gondii

Abstract.

1. Introduction

2. Cystogenesis In Vitro

3. Mechanisms That Induce Cystogenesis

4. The Cyst Wall and Matrix

5. Modifications of the Host Cells during Cystogenesis

Chapter 5

Toxoplasma gondii Cell Division: Back to the Source

2. Structural Insight into Endodyogeny

2.1. Nuclear Events - S Phase and Mitosis

2.2. Daughter Cell Assembly

3. Regulation of Cell Cycle Progression

3.1. Coordination by Physical Tethers

3.2. Global Regulators

Chapter 6

Epigenetic Regulation Affects Essential Mechanisms in Toxoplasma gondii

2. The "Histone Code"

3. Post-Translational Modifications in Toxoplasma

4. The Three Pillars of Epigenetic Regulation

5. HDAC Inhibitors

Chapter 7

The Balance between Host Cell-Autonomous Immunity and Toxoplasma gondii Evasion Strategies

2. Host-Toxoplasma gondii Coadaptation: An Arsenal of Survival Strategies

2.1. Host Signaling Pathways and Regulation of Host Gene Expression by Toxoplasma gondii

2.2. Reactive Oxygen and Nitrogen Species Partially Control Toxoplasma gondii

2.3. Interferon-Inducible GTPases and the Major Role of Parasite Secreted Virulence Factors

2.4. Autophagy and the Major Role of Epidermal Growth Factor Receptor in Blockage of Autophagy-Mediated Toxoplasma gondii Degradation

Chapter 8

Purinergic Signaling in the Host Resistance to Toxoplasma gondii Infection

1.1. P2 Receptors Contribute to Immune Responses and Host Protection

1.2. The Contribution of P2Y Receptors in the Cellular Host Defense Against T. gondii

2. The P2x7 Receptor Contribution During T. Gondii Infection.

2.1. The Contribution of P2X7 Receptor in the Cellular Immune Response Against T. gondii

2.2. The Effect of P2X7 Receptor on the Systemic Immune Response during Experimental Toxoplasmosis

Chapter 9

Metastatic-Like Phenotype of Monocytes/Macrophages Induced by Toxoplasma gondii Infection: MMPS, UPA/UPAR and CD147 Involvement at Early Infection and Dissemination

1.1. Dissemination of T. gondii Throughout the Host

1.2. Metastatic Like Phenotype of T. gondii Infected Leukocytes

2. Materials and Methods

2.1. Animals and Parasites

2.2. In vivo Infection and Tissue Removal

2.3. Immunofluorescence Microscopy

2.4. In situ Zymography

2.5. Immunoprecipitation and Zymography

2.6. Densitometric Assays

2.7. Statistical Analysis

3. Results

3.1. MMPs and CD147 and In Vivo Oral Infection

3.2. Enzymatic Activity at the Site of Entry after Oral T. gondii Infection

3.3. In Situ Expression of MMP-9 and MMP-2 at Ileum of T. gondii Infected C57BL/6 and C57BL/6 IFNγ-/- Mice

3.4. In situ Expression of CD147 at Ileum of T. gondii Infected C57BL/6 IFNγ+/+ and C57BL/6 IFNγ-/-

3.5. In Situ Expression of CD147 and MMP-9 at the Lungs of T. gondii Infected C57BL/6 and C57BL/6 IFNγ-/-

Chapter 10

Over the Top: Armwrestling between Toxoplasma gondii and Host Skeletal Muscle Tissue

1. Introduction: Muscle Tissue. Biological Characteristics

2. Muscle as a Vehicle for Toxoplasma gondii Transmission

2.1. Commercial Importance of T. gondii Infection in Skeletal Muscle

3. Toxoplasmosis and Myositis - Clinical Evidence

4. Toxoplasmosis and Myositis - Myogenesis and Regeneration

5. Toxoplasma - Skeletal Muscle Cell Interactions

5.1. The Influence of Muscle on Parasite Stage Conversion.

5.2. T. gondii Induces Host Cell Cycle Changes

5.3. Mitochondrial Interaction

5.4. Structural Skeletal Muscle Cell Alterations

5.5. Autophagy and Host Cell Death

5.6. Skeletal Muscle Cell Activation

Acknowledgments

Chapter 11

Current Treatment of Toxoplasmosis

Introduction

2. Current Treatment of Toxoplasmosis

3. Mechanisms of Action of Drugs Used for the Treatment of Toxoplasmosis

3.1. Folic Acid Antagonists

3.2. Macrolides and CLN Antibiotics

3.3. Atovaquone (ATV)

4. Adverse Effects and Problems Related to the Treatment

Chapter 12

Advances in the Development of Treatments for the Chronic Phase of Toxoplasmosis

2. Experimental Models for Studying the Chronic Phase of Toxoplasmosis

2.1. In Vitro Models

2.2. In Vivo Models of Chronic Infection

3. Inhibitors Showing Activity against Bradyzoites

3.1. Cytochrome bc1 Inhibitors

3.2. Factor IF2-(

3.3. Calcium-Dependent Protein Kinase 1 (CDPK1)

3.4. Cathepsin L Inhibitors

Chapter 13

Prevalence of Toxoplasma gondii Infection in South America

2. Epidemiology in South America

Chapter 14

Cerebral Toxoplasmosis in People Living with HIV/AIDS

2. Toxoplasma Gondii Antigens and Host Defenses

3. Cerebral Toxoplasmosis in Acquired Immunodeficiency Syndrome

4. Diagnosis Approach

5. Clinical and Radiological Manifestations

6. Differential Diagnosis

7. Laboratorial Diagnosis

7.1. Molecular Diagnosis

7.2. Serological Diagnosis

7.3. Histopathological Diagnosis

8. Treatment

9. Pharmacologic Prophylaxis

9.1. Primary Prophylaxis

9.2. Secondary Prophylaxis.

10. Immune Reconstitution Inflammatory Syndrome (IRIS)

Chapter 15

Toxoplasma gondii: Ocular Disease

Chapter 16

Imaging Techniques in the Study of Toxoplasma gondii

1.1. Microscopy and Toxoplasma gondii - Brief History to Latest Advances

1.2. Choosing the Right Tools for the Job - Applying Microscopy to Suit Research Needs

2. Factors Involved in Capturing Microscopy Data

2.1. Using the Right Subjects

2.1.1. Toxoplasma gondii Strains

2.1.2. Fluorescent Proteins

2.1.3. Calcium Ion Indicators

2.1.4. Artificial Fluorescent Probes

2.2. Sample Processing

2.2.1. Sample Fixation

2.2.2. Permeabilization

2.2.3. Blocking

2.2.4. Antibodies

2.2.5. Counter Stains

2.2.6. Mounting Media

2.3. Live Sample Preparation

2.4. Capturing

2.5. Post-Processing/Analyzing Data

About the Editors

Index

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Notes:

Description based on print version record.

ISBN:

1-68507-291-7

OCLC:

1285166875