Role of Biomarkers in the Development of PARP Inhibitors.

Biomarkers in cancer Pub Date : 2016-03-09 eCollection Date: 2016-01-01 DOI:10.4137/BIC.S36679

Bratati Ganguly, Sonia C Dolfi, Lorna Rodriguez-Rodriguez, Shridar Ganesan, Kim M Hirshfield

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Abstract

Defects in DNA repair lead to genomic instability and play a critical role in cancer development. Understanding the process by which DNA damage repair is altered or bypassed in cancer may identify novel therapeutic targets and lead to improved patient outcomes. Poly(adenosine diphosphate-ribose) polymerase 1 (PARP1) has an important role in DNA repair, and novel therapeutics targeting PARP1 have been developed to treat cancers with defective DNA repair pathways. Despite treatment successes with PARP inhibitors (PARPi), intrinsic and acquired resistances have been observed. Preclinical studies and clinical trials in cancer suggest that combination therapy using PARPi and platinating agents is more effective than monotherapy in circumventing drug resistance mechanisms. Additionally, identification of biomarkers in response to PARPi will lead to improved patient selection for targeted cancer treatment. Recent technological advances have provided the necessary tools to examine many potential avenues to develop such biomarkers. This review examines the mechanistic rationale of PARP inhibition and potential biomarkers in their development for personalized therapy.

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生物标志物在PARP抑制剂开发中的作用

DNA修复缺陷导致基因组不稳定，并在癌症发展中发挥关键作用。了解癌症中DNA损伤修复被改变或绕过的过程，可能会发现新的治疗靶点，并改善患者的预后。聚腺苷二磷酸核糖聚合酶1 (PARP1)在DNA修复中起重要作用，针对PARP1的新疗法已被开发用于治疗DNA修复途径缺陷的癌症。尽管PARP抑制剂(PARPi)治疗成功，但已经观察到内在和获得性耐药。癌症的临床前研究和临床试验表明，PARPi和铂化药物联合治疗在规避耐药机制方面比单一治疗更有效。此外，识别对PARPi有反应的生物标志物将改善患者对靶向癌症治疗的选择。最近的技术进步提供了必要的工具来检查许多潜在的途径来开发这样的生物标志物。本文综述了PARP抑制的机制原理和潜在的生物标志物在其个性化治疗中的发展。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Biomarkers in cancer

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