Toxic Effect of Platinum Compounds: Molecular Mechanisms of Toxicity

Despite their effectiveness as a crucial component of combination chemotherapy regimens against solid tumors, platinum compounds have many serious side effects that limit their use. This review article focuses on the various toxic effects of platinum compounds in cancer patients and the mechanisms of toxicity associated with each of these toxic effects. It also describes the future directions for developing novel platinum compounds, using both animal and human studies. The reference lists of relevant publications were included after searching the Google and Google Scholar databases, PubMed, and scientific journals. It focuses primarily on trials that were published between 2005 and 2020. Platinum-based medicines, as a soft nucleophile, can freely bind to peptides and proteins containing sulfur residues from thiol-containing amino acids like cysteine and methionine, as well as the antioxidant peptide glutathione. Platinum medicines, on the other hand, are primarily directed at nuclear DNA. Platinum medicines bind to normal cells as well as malignant cells, particularly those in fast growing tissues, causing a variety of dangerous side effects. Fast-growing tissues such as the mucous membranes of the mouth, throat, stomach, and intestines, bone marrow, and hair follicles can be damaged by cytotoxic chemotherapy drugs, resulting in gastrointestinal toxicities, myelosuppression, and hair loss. Platinum compounds also cause nephrotoxicity and hepatotoxicity, which are well-known side effects. Current platinum-based chemotherapy treatments have been restricted in the last decade, prompting a search for novel platinum-based medications with mechanisms of action distinct from those of existing chemotherapeutics.