Медицинская иммунология (Sep 2024)
Flow cytometric analysis of the interaction of monoclonal antibodies to various epitopes of the HSP70 molecule with intracellular and membrane-associated forms of this protein
Abstract
Currently, a large amount of data has demonstrated that many types of tumor cells, in contrast to their non-transformed forms, are characterized by the translocation of intracellular heat shock proteins 70 kDa (HSP70) to the surface of the plasma membrane. This made it possible to classify HSP70 exposed on the cell surface as a tumor-associated antigen and was the basis for searching the opportunities for the practical use of this phenomenon in clinical oncology. A significant argument in favor of the prospects of such studies was the discovered ability of HSP70, present on the surface of target cells, to enhance the cytotoxic activity of NK cells. In this regard, the work of many research groups is devoted to developing approaches to increasing the level of membrane-associated HSP70 in tumor tissues. At the same time, given the presence of such proteins on the surface of many types of tumor cells, the use of monoclonal antibodies that interact with HSP70 molecules for antitumor therapy can be considered as one of the promising approaches. It is well known that antibody preparations that selectively interact with cancer cells can be used for targeted antitumor immunotherapy. Previously, we obtained a panel of six B cell hybridomas producing monoclonal antibodies to the inducible and constitutive forms of human HSP70, directed to various epitopes of this molecule. It is significant that three varieties of hybridomas produced antibodies with specificity for binding sites on the C-terminal domain of the HSP70 molecule, and the second trio of monoclonal antibodies were specific to epitopes on the N-terminal domain of HSP70, while almost all known commercial antibodies interact only with C-terminal fragments of HSP70. In this work, we conducted a comparative study of the binding of the obtained antibodies to these proteins localized in different types of cells, both in the intracellular space and on the cell surface.The results obtained allow us to consider the identified varieties of monoclonal antibodies that most effectively recognize surface HSP70 as a promising basis for the creation of new drugs for antitumor immunotherapy.
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