Abstract
Context: The MEIS proteins, originally described as the "helper groups" of HOX proteins, are now becoming recognized as significant and incredibly diverse controllers of cellular behavior. The MEIS agents can incorporate a variety of epigenetic modulators into chromatin to aid in embryonic growth or tissue homeostasis by adult stem cells. The MEIS gene's expression, binding, stability, post-translational protein modification, and controlled intracellular availability are all fully regulated, and they all react to external stimuli. Objectives: We explored the diverse roles of MEIS proteins in cellular behavior and epigenetic regulation and investigated the potential of MEIS proteins as diagnostic and therapeutic biomarkers in cancers. Results: The MEIS proteins can be diagnostic and therapeutic biomarkers for cancer. The MEIS-PBX heterotrimeric is involved in neurogenesis processes, and the formation of the MEIS2 heterodimer with PAX6 and DLX2 can proliferate periplomerular dopaminergic neurons in the olfactory bulb. The estrogen receptor in breast cancer upregulates MEIS1 and FOXP3. The estrogen receptor pathway's cancer-related genes can express themselves more strongly when MEIS1-FOXP3 interacts with a positive feedback mechanism. Because MEIS1 expression is decreased in clear renal cell carcinoma (ccRCC) cell lines, MEIS1 may function as a tumor suppressor in the development of ccRCC. Conclusions: MEIS1 is recognized as one of the main contributors to the development of leukemias. The MEIS proteins influence the c-MYC signaling pathway, cell proliferation, and invasion of PC by contributing to its development.
Subject
Rehabilitation,Physical Therapy, Sports Therapy and Rehabilitation