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Nano- and Microparticle-Induced Cell Death, Inflammation and Immune Responses
Nano- and microparticles including crystals, synthetic biomaterials, misfolded proteins or environmental particulates are involved in a wide range of biological processes and diseases. They may present as intrinsic or environmental toxins but may also be applied intentionally, e.g. as immune adjuvants, drug carriers or ion exchangers. The discovery that a wide range of nano- and microparticles share the capacity to induce IL-1β secretion via activation of the NLRP3 inflammasome in dendritic cells and macrophages has led to the hypothesis that nano- and microparticles may contribute in a uniform mechanistic manner to different disease entities. Other molecular mechanisms triggered by a range...
Enzyme Catalysis in Organic Synthesis, 3 Volume Set
This comprehensive three-volume set is the standard reference in the field of organic synthesis, catalysis and biocatalysis. Edited by a highly experienced and highly knowledgeable team with a tremendous amount of experience in this field and its applications, this edition retains the successful concept of past editions, while the contents are very much focused on new developments in the field. All the techniques described are directly transferable from the lab to the industrial scale, making for a very application-oriented approach. A must for all chemists and biotechnologists.
The Immunological Role of Platelet Activation in the Pathophysiology of COVID-19
Platelets are increasingly recognized for their role as mediators of immune response and inflammation. As major components of the hematological system, they form an important bridge between immunity and coagulation. In the context of viral infections, platelets may suppress viral dissemination but can also support viral persistence. When platelets become hyperactivated in response to an infection, patients can develop immuno-thrombosis and coagulopathy. These derangements of hemostasis are particularly relevant in the context of infection with the novel coronavirus, SARS-CoV-2, and the subsequent development of coronavirus disease, COVID-19, a disease in which thromboembolic events are an important cause of morbidity and mortality.
The Unique U.S.-Russian Relationship in Biological Science and Biotechnology
In the fall of 2010, the U.S. National Academies (consisting of the National Academy of Sciences, the National Academy of Engineering, and the Institute of Medicine) and the Russian Academy of Sciences (in cooperation with the Russian Academy of Medical Sciences and the Russian Academy of Agricultural Sciences) initiated a joint study of U.S.-Russian bilateral engagement in the biological sciences and biotechnology (hereinafter collectively referred to as bioengagement). The U.S. Department of State and the Russian Academy of Sciences provided support for the study. The academies established a joint committee of 12 leading scientists from the two countries to assess bioengagement activities since 1996 and to provide recommendations as to collaborative efforts in the near future. The Unique U.S.-Russian Relationship in Biological Science and Biotechnology: Recent Experience and Future Directions summarizes the principal conclusions and recommendations of the study.
TNFRSF Agonists: Mode of action and therapeutic opportunities
The receptors of the TNFRSF (TNFRs) are of overwhelming importance in the regulation of the immune system but are also involved in the induction of apoptotic cell death or cell survival and proliferation, making them excellent therapeutic targets for cancer but also other diseases. TNFRSF members provide crucial co-stimulatory signals to many if not all immune effector cells. Each co-stimulatory TNFR has a distinct expression profile and a unique functional impact on various types of cells and at different stages of the immune response. For example, the two receptors of TNF, TNF receptor-1 (TNFR1) and TNF receptor-2 (TNFR2), regulate the interaction of the various types of immune cells and a...
Catalytic Antibodies
This volume addresses fundamental questions concerning the immunological genesis of the catalytic activity in antibodies, its relationship with classical antigen binding activity, and the biochemical mechanisms involved in catalysis. The contents reflect three main challenges in the field, i.e. to delineate the biological functions of catalytic antibodies in autoimmune disease; to isolate therapy-grade antibody catalysts with sufficient specificity and turnover to permit rapid removal of microbial and tumor antigens; and to develop immunogens that recruit immature catalyst-producing B cells into the clonal selection pathway and induce adaptive improvements of the catalytic function. Well-edited and up-to-date, this book reviews the current knowledge in the field and explores ways by which natural and engineered catalytic activities can be harnessed for medical applications. It should therefore be of special interest to immunologists, biochemists, biotechnologists, rheumatologists and pathologists.
Annals of the New York Academy of Sciences
Records of meetings 1808-1916 in v. 11-27.
Antibody Engineering Protocols
This comprehensive collection of recently developed methods for producing new antibody reagents by immunization and recombinant DNA techniques contains ready-to-use protocols that illuminate current areas of research on antibody structure, functions, and applications. The methods can be applied in basic immunological studies involving antibody specificity, catalysis, and evolution, and in the isolation of rare antibodies by phage display technology and the engineering of new antibodies by mutagenesis. They offer insight into new ways of developing clinically useful antibody reagents. Antibody Engineering Protocols constitutes a single-source volume for laboratory investigators who want to minimize extensive literature and methodology searches and to work productively in their fields with reproducible step-by-step protocols.
