The Landscape of Signaling Pathways and Proteasome Inhibitors Combinations in Multiple Myeloma

SIMPLE SUMMARY: In the last decade, proteasome inhibitors (PIs) have become a standard for the treatment of multiple myeloma (MM). As a consequence of the pleiotropic effects of PIs on various signaling pathways, synergistic or additive activities with other anti-myeloma therapies have been identified and approved for clinical use. However, the complex biology of the MM disease inevitably triggers resistance also to combined regimens. Complex loops within cellular pathways, crosstalk with the bone marrow microenvironment, and considerable toxicities are accountable for the poor responses of new multidrug treatments. High-throughput functional approaches are allowing the identification of a multitude of previously undescribed synthetic lethal interactions. In the present review, we explore recent investigations on novel combination strategies that could overcome drug resistance and broaden the applicability of PIs to other hematological malignancies and solid tumors. ABSTRACT: Multiple myeloma is a malignancy of terminally differentiated plasma cells, characterized by an extreme genetic heterogeneity that poses great challenges for its successful treatment. Due to antibody overproduction, MM cells depend on the precise regulation of the protein degradation systems. Despite the success of PIs in MM treatment, resistance and adverse toxic effects such as peripheral neuropathy and cardiotoxicity could arise. To this end, the use of rational combinatorial treatments might allow lowering the dose of inhibitors and therefore, minimize their side-effects. Even though the suppression of different cellular pathways in combination with proteasome inhibitors have shown remarkable anti-myeloma activities in preclinical models, many of these promising combinations often failed in clinical trials. Substantial progress has been made by the simultaneous targeting of proteasome and different aspects of MM-associated immune dysfunctions. Moreover, targeting deranged metabolic hubs could represent a new avenue to identify effective therapeutic combinations with PIs. Finally, epigenetic drugs targeting either DNA methylation, histone modifiers/readers, or chromatin remodelers are showing pleiotropic anti-myeloma effects alone and in combination with PIs. We envisage that the positive outcome of patients will probably depend on the availability of more effective drug combinations and treatment of early MM stages. Therefore, the identification of sensitive targets and aberrant signaling pathways is instrumental for the development of new personalized therapies for MM patients.