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Targeting NAD+ Metabolism: Preclinical Insights into Potential Cancer Therapy Strategies

Ayca Nazli Mogol, Alanna Zoe Kaminsky, David J Dutton, Zeynep Madak‐Erdogan

2024Endocrinology11 citationsDOIOpen Access PDF

Abstract

NAD+ is one of the most important metabolites for cellular activities, and its biosynthesis mainly occurs through the salvage pathway using the nicotinamide phosphoribosyl transferase (NAMPT) enzyme. The main nicotinamide adenine dinucleotide (NAD) consumers, poly-ADP-ribose-polymerases and sirtuins enzymes, are heavily involved in DNA repair and chromatin remodeling. Since cancer cells shift their energy production pathway, NAD levels are significantly affected. NAD's roles in cell survival led to the use of NAD depletion in cancer therapies. NAMPT inhibition (alone or in combination with other cancer therapies, including endocrine therapy and chemotherapy) results in decreased cell viability and tumor burden for many cancer types. Many NAMPT inhibitors (NAMPTi) tested before were discontinued due to toxicity; however, a novel NAMPTi, KPT-9274, is a promising, low-toxicity option currently in clinical trials.

Topics & Concepts

NAD+ kinaseNicotinamide adenine dinucleotideNicotinamide phosphoribosyltransferasePoly ADP ribose polymeraseNicotinamideDNA repairCancerCancer researchCancer cellEnzymeNicotinamide mononucleotidePharmacologyBiochemistryBiologyChemistryMedicineInternal medicineDNAPolymeraseSirtuins and Resveratrol in MedicinePARP inhibition in cancer therapyCalcium signaling and nucleotide metabolism
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