Cells contain several proteins that routinely fulfill multiple requirements for normal physiological survival. Proteostasis dysfunction is linked with different complex human disorders, like cancer, neuron degeneration, and imperfect aging. The ubiquitin proteasome system (UPS) forms the primary proteostasis mechanism taking part in cytoprotection. Cancer cells are well known to possess enhanced cytoprotective properties, and different UPS elements are implicated to be dysregulated at several stages of tumor progression. Furthermore, many studies have found tumor cells to exhibit higher levels of various UPS components, possibly contributing to their robust endurance. In this article, we have presented different cellular protein quality control strategies, essential for maintaining healthy proteome. Here, we have also discussed key contributions and functions of UPS involved in molecular pathomechanisms for establishing cancer conditions. Along with this, the emerging different therapeutic strategies against defective proteome linked with improper cellular proliferation and cancer progression are also reviewed. UPS performs critical regulatory functions in modulating the cellular apoptotic pathways. The proteasomal system involvement as probable therapeutic targets influencing cancer cell apoptosis is also discussed. Our article summarizes the recent developments in proteasome-associated pathways regulating tumor cell proteome and survival. Additionally, how the engagement and cross functions of these physiological processes can induce apoptosis and may develop regulation over tumor progression. A better understanding of multifaceted protein quality control pathways may inform therapeutic interventions based on cellular proteostasis response determined against complex diseases.
Keywords: Ubiquitin; Proteasome; Cancer; Apoptosis; Diseases.
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