This book is a ground-breaking that delves into the fascinating world of metabolism and its pivotal role in the survival, attack, and defense strategies in human-microbe interaction. This book explores the intricate biochemical processes that enable organisms to thrive, adapt, and protect themselves against various challenges they encounter in their environments. The book will describe the importance of metabolism in defense and attack by bacteria and fungi in the human microenvironment and the reverse immuno-metabolic responses by the human. Different metabolites from different organisms will be described, in addition to their changes due to interaction with other organisms during infection or defense. The book also will describe the methods of detection and identification of metabolites including metabolomics. The use of artificial intelligence in prediction of metabolic patterns following interaction between different organisms will be included as well. The metabolism in microbiome will be described in relation to infection, and other metabolic diseases, in addition to their effects on therapeutic drugs. The book combines the latest scientific research with accessible explanations, providing readers with a deep understanding of how metabolism empowers organisms to thrive and protect themselves in diverse environments. It will be an invaluable resource for researchers, students, physicians, and anyone fascinated by the wonders of biology and the intricate workings of life.
1. Metabolism: Fine and Coarse Controls.-
2. Bioinformatics and
Artificial Intelligence Approaches in Metabolic Pathways.-
3. Methods of
Extraction, Detection, and Identification of Different Metabolites A
Metabolomics Approach.-
4. Bacterial Metabolites in Attack.-
5. Bacterial
Metabolites in Defense: A Crucial Aspect of Microbial Interaction and Host
Protection.-
6. Fungal Metabolites in Attack.-
7. Fungal Metabolites in
Defense.-
8. Role of Metabolism in Supporting Immune Responses.-
9. Metabolic
Imbalance in Immune Cells in Relation to Metabolic disorders, Cancer, and
infections.-
10. Metabolism of Cellular Immunity and Its Role in Supporting
Responses to Microbial Infection.-
11. The Fight for Iron: A Central Theme in
Host-Pathogen Interactions.-
12. The Mechanisms and Therapeutic Implications
of Metabolic Communication in the Tumor-Immune Microenvironment.-
13. The
Role of Microbiome in Metabolic Pattern Changes.-
14. Metabolic Pattern of
Microbiome in Healthy versus Patient Individuals.-
15. Role of Microbiome in
Defense.-
16. Human Microbiota and Metabolic Alteration in Cancer Progression
and Treatment.-
17. The Microbial and Metabolic Link between Gut and Brain.-
18. Machine Learning Approaches in Metabolic Pathway Predictions and
Drug-Target Interactions: Advancing Drug Discovery.
Dr. Sameh S. M. Soliman is currently working as a faculty member at the University of Sharjah, his focus includes teaching and research of natural products and the metabolism of different organisms and their ecological roles in nature. Besides, he extensively studies the metabolism of living organisms and their roles in disease development and management. He received his bachelors and masters degrees in pharmaceutical sciences. He received his PhD from University of Guelph, Canada with a focus on chemical ecology of natural products and its role in host-microbe interactions. Then he did a postdoctoral fellowship in mycotoxin manipulation and detoxification at Canadian Federal labs followed by another postdoctoral fellow at the University of California, Los Angeles (UCLA) in chemical and biomolecular engineering of natural products. At UCLA Medical School, he received extensive training in infectious diseases, pathogenesis mechanisms and possible ways of diagnosis and treatment. His research interests include Natural Products as potential medicines and Microbial Products either as toxins or medicines. He developed a strategy to combat fungal infection by developing selective anti-pathogenic drugs via a deep understanding of the evolved behaviour of fungal pathogens. This is by developing neutralizing agents against specific pathogenic threats that are used by the pathogens and do not exist in our microbial flora, thus it weakens the pathogens while enhancing the human defense system against these pathogens.
Dr. Mohamed I. Husseiny is currently working as an associate research professor, with over 24years of experience in vaccination strategy. Throughout his career, his goal remains to employ vaccine strategies to ameliorate and prevent infectious and non-infectious diseases including cancer and autoimmune diseases. He received his bachelors and masters degrees in pharmaceutical sciences and medical microbiology. This gave him training in drug development, microbiology, and immunology. Continuing to enlarge his expertise in this area, he completed his Ph.D. at the Institute for Clinical Microbiology, Immunology and Hygiene, Friedrich-Alexander University, Erlangen-Nürnberg, Germany. During his Ph.D., he established a novel system for gene therapy. Furthermore, he has extensively trained in murine immunizations and infection. Based on this, he developed an oral vaccine against Listeriosis using genetically engineered Salmonella. He employed the genetically engineered Salmonella system to develop a vaccine for cancer during his postdoctoral fellowship in the Childrens Hospital of Los Angeles. Then, he moved as a postdoctoral fellow into City of Hope, Division of Translational Vaccine Research, Beckman Research Institute. He used a novel strategy to generate a panel of recombinant BK virus (rBKV) expressing various fragments of the HIV-1 gag polypeptide and green fluorescent protein (GFP) under control of the BKV late promoter. He joined Arthur Riggs Diabetes & Metabolism Research Institute, Beckman Research Institute, City of Hope as postdoctoral fellow in December 20110 then moved to staff scientist in 2012 then promoted to assistant research professor in October 2014.
