Said Rabih, Ye Yang, Falchook Gerald Steven, Janku Filip, Naing Aung, Zinner Ralph, Blumenschein George R, Fu Siqing, Hong David S, Piha-Paul Sarina Anne, Wheler Jennifer J, Kurzrock Razelle, Palmer Gary A, Aldape Kenneth, Hess Kenneth R, Tsimberidou Apostolia Maria
Department of Investigational Cancer Therapeutics, The University of Texas MD Anderson Cancer Center, Houston, TX. Department of Internal Medicine, The University of Texas Health Science Center at Houston, Houston, TX.
Department of Investigational Cancer Therapeutics, The University of Texas MD Anderson Cancer Center, Houston, TX.
Oncotarget. 2014 Oct 15;5(19):8937-46. doi: 10.18632/oncotarget.2339.
KRAS mutation is common in human cancer. We assessed the clinical factors, including type of KRAS mutation and treatment, of patients with advanced cancer and tumor KRAS mutations and their association with treatment outcomes.
Patients referred to the Phase I Clinic for treatment who underwent testing for KRAS mutations were analyzed.
Of 1,781 patients, 365 (21%) had a KRAS mutation. The G12D mutation was the most common mutation (29%). PIK3CA mutations were found in 24% and 10% of patients with and without KRAS mutations (p<0.0001). Of 223 patients with a KRAS mutation who were evaluable for response, 56 were treated with a MEK inhibitor-containing therapy and 167 with other therapies. The clinical benefit (partial response and stable disease lasting ≥6 months) rates were 23% and 9%, respectively, for the MEK inhibitor versus other therapies (p=0.005). The median progression-free survival (PFS) was 3.3 and 2.2 months, respectively (p=0.09). The respective median overall survival was 8.4 and 7.0 months (p=0.38). Of 66 patients with a KRAS mutation and additional alterations, higher rates of clinical benefit (p=0.04), PFS (p=0.045), and overall survival (p=0.02) were noted in patients treated with MEK inhibitor-containing therapy (n=9) compared to those treated with targeted therapy matched to the additional alterations (n=24) or other therapy (n=33).
MEK inhibitors in patients with KRAS-mutated advanced cancer were associated with higher clinical benefit rates compared to other therapies. Therapeutic strategies that include MEK inhibitors or novel agents combined with other targeted therapies or chemotherapy need further investigation.
KRAS 突变在人类癌症中很常见。我们评估了晚期癌症且肿瘤存在 KRAS 突变患者的临床因素,包括 KRAS 突变类型和治疗情况,以及它们与治疗结果的关联。
对转诊至 I 期诊所接受治疗并进行 KRAS 突变检测的患者进行分析。
在 1781 例患者中,365 例(21%)存在 KRAS 突变。G12D 突变是最常见的突变(29%)。在有和没有 KRAS 突变的患者中,PIK3CA 突变的检出率分别为 24%和 10%(p<0.0001)。在 223 例可评估反应的 KRAS 突变患者中,56 例接受含 MEK 抑制剂的治疗,167 例接受其他治疗。MEK 抑制剂治疗组与其他治疗组的临床获益率(部分缓解和疾病稳定持续≥6 个月)分别为 23%和 9%(p=0.005)。无进展生存期(PFS)的中位数分别为 3.3 个月和 2.2 个月(p=0.09)。总生存期的中位数分别为 8.4 个月和 7.0 个月(p=0.38)。在 66 例存在 KRAS 突变及其他改变的患者中,与接受针对其他改变的靶向治疗(n=24)或其他治疗(n=33)的患者相比,接受含 MEK 抑制剂治疗的患者(n=9)的临床获益率(p=0.04)、PFS(p=0.045)和总生存期(p=0.02)更高。
与其他治疗相比,KRAS 突变的晚期癌症患者使用 MEK 抑制剂的临床获益率更高。包括 MEK 抑制剂或新型药物与其他靶向治疗或化疗联合的治疗策略需要进一步研究。