Adaptive mutability of colorectal cancers in response to targeted therapies

Mariangela Russo; Giovanni Crisafulli; Alberto Sogari; Nicole M. Reilly; Sabrina Arena; Simona Lamba; Alice Bartolini; Vito Amodio; Alessandro Magrì; Luca Novara; Ivana Sarotto; Zachary D. Nagel; Cortt G. Piett; Alessio Amatu; Andrea Sartore‐Bianchi; Salvatore Siena; Andrea Bertotti; Livio Trusolino; Mattia Corigliano; Marco Gherardi; Marco Cosentino Lagomarsino; Federica Di Nicolantonio; Alberto Bardelli

doi:10.1126/science.aav4474

Adaptive mutability of colorectal cancers in response to targeted therapies

Mariangela Russo(Candiolo Cancer Institute), Giovanni Crisafulli(Candiolo Cancer Institute), Alberto Sogari(Candiolo Cancer Institute), Nicole M. Reilly(Fondazione Piemontese per la Ricerca sul Cancro Onlus), Sabrina Arena(Candiolo Cancer Institute), Simona Lamba(Candiolo Cancer Institute), Alice Bartolini(Candiolo Cancer Institute), Vito Amodio(Candiolo Cancer Institute), Alessandro Magrì(Candiolo Cancer Institute), Luca Novara(Candiolo Cancer Institute), Ivana Sarotto(Candiolo Cancer Institute), Zachary D. Nagel(Harvard University), Cortt G. Piett(Harvard University), Alessio Amatu(University of Milan), Andrea Sartore‐Bianchi(University of Milan), Salvatore Siena(University of Milan), Andrea Bertotti(Candiolo Cancer Institute), Livio Trusolino(Candiolo Cancer Institute), Mattia Corigliano(University of Milan), Marco Gherardi(University of Milan), Marco Cosentino Lagomarsino(University of Milan), Federica Di Nicolantonio(Candiolo Cancer Institute), Alberto Bardelli(Candiolo Cancer Institute)

Science

November 7, 2019

10.1126/science.aav4474

Cited by 445Open Access

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Abstract

The emergence of drug resistance limits the efficacy of targeted therapies in human tumors. The prevalent view is that resistance is a fait accompli: when treatment is initiated, cancers already contain drug-resistant mutant cells. Bacteria exposed to antibiotics transiently increase their mutation rates (adaptive mutability), thus improving the likelihood of survival. We investigated whether human colorectal cancer (CRC) cells likewise exploit adaptive mutability to evade therapeutic pressure. We found that epidermal growth factor receptor (EGFR)/BRAF inhibition down-regulates mismatch repair (MMR) and homologous recombination DNA-repair genes and concomitantly up-regulates error-prone polymerases in drug-tolerant (persister) cells. MMR proteins were also down-regulated in patient-derived xenografts and tumor specimens during therapy. EGFR/BRAF inhibition induced DNA damage, increased mutability, and triggered microsatellite instability. Thus, like unicellular organisms, tumor cells evade therapeutic pressures by enhancing mutability.

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