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Serine metabolism remodeling after platinum-based chemotherapy identifies vulnerabilities in a subgroup of resistant ovarian cancers.

Tom Van NyenMélanie PlanqueLilian van WagensveldJoao A G DuarteEsther A ZaalAli TalebiMatteo RossiPierre-René KörnerLara RizzottoStijn MoensWout De WispelaereRegina Esi Mensimah Baiden-AmissahGabe S SonkeHugo Mark HorlingsGuy EelenEmanuele BerardiJohannes V SwinnenCelia R BerkersPeter CarmelietDiether LambrechtsBen DavidsonReuven AgamiSarah-Maria FendtDaniela AnnibaliFrédéric Amant
Published in: Nature communications (2022)
Resistance to platinum-based chemotherapy represents a major clinical challenge for many tumors, including epithelial ovarian cancer. Patients often experience several response-relapse events, until tumors become resistant and life expectancy drops to 12-15 months. Despite improved knowledge of the molecular determinants of platinum resistance, the lack of clinical applicability limits exploitation of many potential targets, leaving patients with limited options. Serine biosynthesis has been linked to cancer growth and poor prognosis in various cancer types, however its role in platinum-resistant ovarian cancer is not known. Here, we show that a subgroup of resistant tumors decreases phosphoglycerate dehydrogenase (PHGDH) expression at relapse after platinum-based chemotherapy. Mechanistically, we observe that this phenomenon is accompanied by a specific oxidized nicotinamide adenine dinucleotide (NAD + ) regenerating phenotype, which helps tumor cells in sustaining Poly (ADP-ribose) polymerase (PARP) activity under platinum treatment. Our findings reveal metabolic vulnerabilities with clinical implications for a subset of platinum resistant ovarian cancers.
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