[CD47 receptor as a primary target for cancer therapy].

Recently, a number of new highly efficient antibody-based anticancer therapeutics have emerged. These receptor-binding antibodies have beneficial toxicity profiles associated with relatively mild side effects. Therefore, the search for novel surface proteins that are present on cancer cells and play important metabolic or defensive roles has intensified. Additionally, the therapeutic stimulation of patient's immune system in order to aim its components, specifically, phagocytes and cytotoxic T-lymphocytes, at tumor cells is gaining traction. This review is focused on the CD47 surface receptor, a ubiquitously expressed molecule, which could nevertheless serve as a therapeutic target due to its ability to simultaneously stimulate both natural and adaptive immune response.

[Oncotoxic proteins in cancer therapy: mechanisms of action].

Cancer therapeutics based on protein biomolecules that exhibit selective toxic of inhibiting effects towards tumor cells without affecting normal tissue, are gaining extensive attention in cancer research. This heterogenous group of proteins consists of several subgroups, among them, are engineered cancer antigen-specific antibodies that suppress tumor growth by blocking proliferation-inducing receptors, or by direct action of a covalently attached toxin. Another subgroup of anticancer proteins that also represents promising potential therapeutic agents is oncotoxic proteins that can selectively trigger proapoptotic signaling in cancer cells. The oncotoxic proteins target such commonly disturbed processes in tumor calls as enhanced cell proliferation, altered cell-cycle control, deficient apoptotic response, inhibited mitochondrial respiration and activated glycolysis. The introduction of oncotoxic proteins to the clinic might substantially widen and upgrade modern arsenal of anticancer therapeutics.