Abstract
Mutations in an essential metabolic enzyme, isocitrate dehydrogenase (IDH), were found in many cancers. The impact of IDH1 and IDH2 proteoforms mutations can vary and de-pend on the cancer type and other genetic alterations. The wild-type IDH1/2 consists of two identical subunits, but the mutant enzyme is a heterodimer of mutant and wild-type subunits, while the mutant homodimer loses its catalytic activity. Thus, the balance of expression of wild-type and mutant proteoforms directly affects enzyme neomorphic activity, cell metabolic por-trait, and, therefore, cell survival and proliferation rates. Here, we generalize the influence of the presence of IDH mutations and the expression of mutant and wild-type proteoforms for various nosologies to demonstrate the deficiency in knowledge about the mutual distribution of the pro-teoforms in cancer cells. The review is supplemented with a brief description of IDH mutations' role in cell metabolic reprogramming and a summary of methods for IDH mutation detection. Eventually, we highlight the necessity of assessing the expression of wild-type and mutated IDH quantitatively, which can help create and deliver personalized approaches for tumor therapy.
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