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PARP Inhibitors in Small-Cell Lung Cancer: Rational Combinations to Improve Responses

Erik H. Knelson, Shetal Patel, Jacob Sands

2021Cancers62 citationsDOIOpen Access PDF

Abstract

Despite recent advances in first-line treatment for small-cell lung cancer (SCLC), durable responses remain rare. The DNA repair enzyme poly-(ADP)-ribose polymerase (PARP) was identified as a therapeutic target in SCLC using unbiased preclinical screens and confirmed in human and mouse models. Early trials of PARP inhibitors, either alone or in combination with chemotherapy, showed promising but limited responses, suggesting that selecting patient subsets and treatment combinations will prove critical to further clinical development. Expression of SLFN11 and other components of the DNA damage response (DDR) pathway appears to select for improved responses. Combining PARP inhibitors with agents that damage DNA and inhibit DDR appears particularly effective in preclinical and early trial data, as well as strategies that enhance antitumor immunity downstream of DNA damage. A robust understanding of the mechanisms of DDR in SCLC, which exhibits intrinsic replication stress, will improve selection of agents and predictive biomarkers. The most effective combinations will target multiple nodes in the DNA damage/DDR/immune activation cascade to minimize toxicity from synthetic lethality.

Topics & Concepts

Poly ADP ribose polymeraseDNA damageDNA repairPARP1Synthetic lethalityCancer researchPARP inhibitorBiologyPolymeraseDNAGeneticsLung Cancer Research StudiesPARP inhibition in cancer therapyCancer therapeutics and mechanisms