Deubiquitinases (DUBs) and DUB inhibitors: a patent review.

INTRODUCTION: Deubiquitinating-enzymes (DUBs) are key components of the ubiquitin-proteasome system (UPS). The fundamental role of DUBs is specific removal of ubiquitin from substrates. DUBs contribute to activation/deactivation, recycling and localization of numerous regulatory proteins, and thus play major roles in diverse cellular processes. Altered DUB activity is associated with a multitudes of pathologies including cancer. Therefore, DUBs represent novel candidates for target-directed drug development. AREAS COVERED: The article is a thorough review/accounting of patented compounds targeting DUBs and stratifying/classifying the patented compounds based on: chemical-structures, nucleic-acid compositions, modes-of-action, and targeting sites. The review provides a brief background on the UPS and the involvement of DUBs. Furthermore, methods for assessing efficacy and potential pharmacological utility of DUB inhibitor (DUBi) are discussed. EXPERT OPINION: The FDA's approval of the 20S proteasome inhibitors (PIs): bortezomib and carfilzomib for treatment of hematological malignancies established the UPS as an anti-cancer target. Unfortunately, many patients are inherently resistant or develop resistance to PIs. One potential strategy to combat PI resistance is targeting upstream components of the UPS such as DUBs. DUBs represent a promising potential therapeutic target due to their critical roles in various cellular processes including protein turnover, localization and cellular homeostasis. While considerable efforts have been undertaken to develop DUB modulators, significant advancements are necessary to move DUBis into the clinic.

Lessons from Nature: Sources and Strategies for Developing AMPK Activators for Cancer Chemotherapeutics.

Adenosine Monophosphate-Activated Protein Kinase or AMPK is a highly-conserved master-regulator of numerous cellular processes, including: Maintaining cellular-energy homeostasis, modulation of cytoskeletaldynamics, directing cell growth-rates and influencing cell-death pathways. AMPK has recently emerged as a promising molecular target in cancer therapy. In fact, AMPK deficiencies have been shown to enhance cell growth and proliferation, which is consistent with enhancement of tumorigenesis by AMPK-loss. Conversely, activation of AMPK is associated with tumor growth suppression via inhibition of the Mammalian Target of Rapamycin Complex-1 (mTORC1) or the mTOR signal pathway. The scientific communities' recognition that AMPK-activating compounds possess an anti-neoplastic effect has contributed to a rush of discoveries and developments in AMPK-activating compounds as potential anticancer-drugs. One such example is the class of compounds known as Biguanides, which include Metformin and Phenformin. The current review will showcase natural compounds and their derivatives that activate the AMPK-complex and signaling pathway. In addition, the biology and history of AMPK-signaling and AMPK-activating compounds will be overviewed, their anticancer-roles and mechanisms-of-actions will be discussed, and potential strategies for the development of novel, selective AMPK-activators with enhanced efficacy and reduced toxicity will be proposed.