https://www.selleckchem.com/products/lanifibranor-iva-337.html Monoclonal antibodies generated by the optimized BCT technology by preselecting sensitized B lymphocytes with the target antigen were identified to specifically recognize lower antigenic epitopes in hMyo with high affinity, while this would be impossible by the polyethylene glycol (PEG) method. Furthermore, combination of these high-affinity monoclonal antibodies gave the best binding rate in an epitope binning assay. These outcomes could be attributed to the unique characteristic that BCRs on sensitized B lymphocytes themselves can select the target epitopes in the antigen. The BCRs may act as a strict sensor of B lymphocytes to precisely select the target epitopes, even though the number of immunized B lymphocytes is low.The advantage of the newer biological therapies is that the immunosuppressive effect is targeted, in contrast, to the standard, traditional immunomodulatory agents, which have a more global effect. However, there are unintended targets and consequences, even to these "precise" therapeutics, leading to acquired or secondary immunodeficiencies. Besides depleting specific cellular immune subsets, these biological agents, which include monoclonal antibodies against biologically relevant molecules, often have broader functional immune consequences, which become apparent over time. This review focuses on acquired B-cell immunodeficiency, secondary to the use of B-cell depleting therapeutic agents. Among the many adverse consequences of B-cell depletion is the risk of hypogammaglobulinemia, failure of B-cell recovery, impaired B-cell differentiation, and risk of infections. Factors, which modulate the outcomes of B-cell depleting therapies, include the intrinsic nature of the underlying disease, the concomitant use of other immunomodulatory agents, and the clinical status of the patient and other co-existing morbidities. This article seeks to explore the mechanism of action of B-cell depletin