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The Practice of Medicinal Chemistry
The Practice of Medicinal Chemistry, 2E, is a single-volume source on the practical aspects of medicinal chemistry. The successful first edition was nicknamed "The Bible" by medicinal chemists, and the second edition has been updated, expanded and refocused to reflect developments over the last decade. Emphasis is put on how medicinal chemists conduct their search for and design of new drug entities. In contrast to competing books, it focuses on the chemistry rather than pharmacological concepts or descriptions of the various therapeutic classes of drugs. Most medicinal chemists working in the pharmaceutical industry are organic synthetic chemists who must acquire a strong knowledge of medicinal chemistry as they enter the industry. This book aims to be their practical handbook - a complete guide to the drug discovery process. - The only book available dealing with the practical aspects of medicinal chemistry - Serves as a complete guide to the drug discovery process, from conception of the molecules to drug production - Updated chapters devoted to the discovery of new lead compounds, including combinatorial chemistry
Peroxisome Proliferators
Induction of drug (xenobiotic)-metabolizing enzymes is a common biological response to xenobiotics, the mechanisms and consequences of which are important in academic, industrial, and regulatory areas of pharmacology and toxicology. This monograph, for the first time, has brought together researchers who deal specifically with drug-metabolizing enzymes and peroxisome proliferators. It contains an up-to-date review of peroxisome proliferation, with detailed tables on the 100 known peroxisome proliferators and studies on their hepatocarcinogic capacity. It provides current material from 12 different laboratories doing cutting-edge research on the effect of peroxisome proliferators on drug-metabolizing enzymes.The book covers the response of cytochrome P450s, UDP-glucuronosyltransferases, epoxide hydrolases, glutathione S-transferase, DT-diaphorase, and other enzymes.
Reproductive Immunology
Reproductive Immunology is a compilation of research articles presented during the VII International Congress of Reproductive Immunology which was held in New Delhi, India on 27-30 October 1998. The articles pertain to the following six major themes: Molecular and Immunological Aspects of Sperm-Egg Interaction Embryonic-Endometrial Cross-Talk Immunobiology of Pregnancy Autoantibodies and Infertility Immunocontraception Mucosal Immunology and Reproductive Tract Infections . The first section deals with our current understanding of various steps involved in fertilization. The functional significance of sperm surface mannosidase and glutathione S-transferases to bind zona pellucida is described...
Approaches to Advance Cancer Vaccines to Clinical Utility
Although cancer vaccines have yielded promising results both in vitro and in animal models, their translation into clinical application has not been very successful so far. Through the success of immune checkpoint inhibitors, the tumor immunotherapy field revived and led to important new insights. A better understanding of the functional capacity of different dendritic cell (DC) subsets and the immunogenicity of tumor antigens, more particularly of neoantigens, have important implications for the improvement of cancer vaccines. These insights can guide the development of novel strategies, to enhance the clinical utility of cancer vaccines. The aim of this Research Topic is therefore to provide a comprehensive overview of current issues regarding cancer vaccine development with an emphasis on novel approaches toward enhancing their efficacy.
Cerebral endothelial and glial cells are more than bricks in the Great Wall of the brain: insights into the way the blood-brain barrier actually works (Celebrating the centenary of Goldman’s experiments)
When Ehrlich discovered the first evidence of the blood-brain barrier in 1885, he probably did not perceive the Great Wall that remained hidden from consciousness inside the central nervous system. Ehrlich had observed that acidic vital dyes did not stain the brain if they were injected into the blood stream. A century ago (1913), Goldman showed that the injection of trypan blue in the cerebrospinal fluid stained only the brain, but not the other organs. For almost a century it was thought that the blood-brain barrier (BBB) consisted in a physical barrier, resulting from the restricted permeability of the cerebral endothelial cell layer, as they are joined by tight junctions. However, as sci...
Current Challenges in Vaccinology
We acknowledge the initiation and support of this Research Topic by the International Union of Immunological Societies (IUIS).
Foundation for Rare Diseases Annual Scientific Conference: Colloque Scientifique Annuel 2022
The scientific symposium offers a day of exchange, debate, and meetings for all those involved in rare diseases, and it encourages the emergence of new research projects
Endoplasmic Reticulum
The endoplasmic reticulum is a continuous membrane network in the cytosol, which encloses its internal compartment, the endoplasmic reticulum lumen. Several metabolic pathways are compartmentalised within the ER lumen, for example hydrolysis of glucose 6-phosphate, glucuronidation of endo- xenobiotics, posttranslational modification of proteins including redox reactions required for oxidative folding, oxidoreduction of steroid hormones, synthesis of ascorbate. Therefore, enzyme activities of these pathways depend on the special luminal microenvironment, on access to substrates and on release of products. However, in spite of great efforts, the molecular mechanism for the generation and maint...
HSPs - Ambiguous Mediators of Immunity
Heat shock proteins (HSPs) were discovered as polypeptides induced by stress that can be found in all kingdoms of cellular organisms. Their functions were, a first enigmatic and these proteins were thus classified by molecular weight, as in—Hsp27, Hsp70, Hsp90, Hsp110. More recently, each of these size-classified molecules has attributed a role in protein folding, and they thus came to be known, as a class, as molecular chaperones. However, the they possess properties beyond chaperoning. Indeed, their discovery in the extracellular spaces suggested roles in regulation of the immune responses.
