Thoracic Oncology Service, Division of Solid Tumor Oncology, Department of Medicine, Memorial Sloan Kettering Cancer Center, Weill Cornell Medicine, New York, New York; Early Drug Development Service, Division of Solid Tumor Oncology, Department of Medicine, Memorial Sloan Kettering Cancer Center, Weill Cornell Medicine, New York, New York.
Early Drug Development Service, Division of Solid Tumor Oncology, Department of Medicine, Memorial Sloan Kettering Cancer Center, Weill Cornell Medicine, New York, New York.
J Thorac Oncol. 2024 Jan;19(1):153-159. doi: 10.1016/j.jtho.2023.09.1444. Epub 2023 Sep 23.
Select tyrosine kinase inhibitors (TKIs) used to treat oncogene-driven lung cancers also inhibit MATE-1. When MATE-1 is blocked, creatinine is retained in the serum. Elevated creatinine levels raise the specter of drug-induced intrarenal insufficiency despite the lack of true renal injury. We conducted a systematic analysis of MATE-1 inhibitor (MATEi)-treated patients to comprehensively characterize this phenomenon.
Patients with oncogene-driven lung cancer treated with a wide variety of MATEi TKIs (brigatinib, cabozantinib, capmatinib, crizotinib, entrectinib, lorlatinib, pralsetinib, selpercatinib, and tepotinib) were eligible for an analysis of renal dysfunction. Acute kidney injury was classified on the basis of creatinine levels (Kidney Disease: Improving Global Outcomes criteria) as stage 1 (≥1.5× but <2× baseline), stage 2 (≥2× but <3× baseline), or stage 3 (>3× baseline). When available, cystatin C, a marker of kidney function unaffected by MATE-1, was used to evaluate the glomerular filtration rate (GFR).
We identified 863 patients receiving MATEi TKIs including crizotinib (39%, n = 333), lorlatinib (17%, n = 144), cabozantinib (10%, n = 87), selpercatinib (10%, n = 82), capmatinib (9%, n = 77), brigatinib (6%, n = 53), entrectinib (5%, n = 45), tepotinib (5%, n = 41), and pralsetinib (0.1%, n = 1). Of the 90 patients (10%) with acute kidney injury, Kidney Disease: Improving Global Outcomes stages 1, 2, and 3 were observed in 72% (n = 65), 21% (n = 19), and 7% (n = 6) of patients, respectively. Concurrently drawn creatinine and cystatin C levels on TKI therapy were available for 17 patients. In most cases (n = 15 of 17), the calculated GFR was higher using cystatin C versus creatinine. The percentage of patients whose GFR was higher using cystatin C versus creatinine by less than 10 mL/min, 10 to 19 mL/min, 20 to 29 mL/min, and more than or equal to 30 mL/min was 27% (n = four of 15), 20% (n = three of 15), 20% (n = three of 15), and 33% (n = five of 15), respectively. Long-term data in three patients that spanned 3 years revealed that GFR was higher using cystatin C versus creatinine in 96% (n = 49 of 51) of all time points. Using a virtual clinical trial GFR cutoff of 40 mL/min, the percentage of eligible patients rose from 41% (n = seven of 17) using creatinine calculations to 71% (n = 12 of 17) using cystatin C calculations.
The calculated GFR in patients with cancer receiving MATEi TKIs was higher in almost all cases when using cystatin C. When serum creatinine level seems elevated in patients receiving MATE-1 inhibitors, we recommend recalculating GFR using cystatin C before searching for other etiologies of kidney injury and reducing or stopping TKI therapy.
用于治疗致癌基因驱动的肺癌的酪氨酸激酶抑制剂(TKIs)也抑制 MATE-1。当 MATE-1 被阻断时,肌酐会在血清中蓄积。尽管没有真正的肾损伤,但肌酐水平升高会引起药物引起的肾内不足的威胁。我们对接受各种 MATE-1 抑制剂(MATEi)TKI(布加替尼、卡博替尼、卡马替尼、克唑替尼、恩曲替尼、劳拉替尼、普拉替尼、塞尔帕替尼和特泊替尼)治疗的患者进行了系统分析,全面描述了这种现象。
患有致癌基因驱动的肺癌且接受广泛的 MATEi TKIs 治疗的患者有资格进行肾功能障碍分析。根据肌酐水平(肾脏病:改善全球结果标准)将急性肾损伤分为 1 期(≥1.5×但<2×基线)、2 期(≥2×但<3×基线)或 3 期(>3×基线)。在有条件的情况下,使用胱抑素 C(一种不受 MATE-1 影响的肾功能标志物)评估肾小球滤过率(GFR)。
我们确定了 863 名接受 MATEi TKI 治疗的患者,包括克唑替尼(39%,n=333)、劳拉替尼(17%,n=144)、卡博替尼(10%,n=87)、塞尔帕替尼(10%,n=82)、卡马替尼(9%,n=77)、布加替尼(6%,n=53)、恩曲替尼(5%,n=45)、特泊替尼(5%,n=41)和普拉替尼(0.1%,n=1)。在 90 名(10%)有急性肾损伤的患者中,分别观察到 72%(n=65)、21%(n=19)和 7%(n=6)的患者出现肾脏病:改善全球结果 1 期、2 期和 3 期。在 TKI 治疗期间同时抽取的肌酐和胱抑素 C 水平可用于 17 名患者。在大多数情况下(n=17 名患者中的 15 名),使用胱抑素 C 计算的 GFR 高于使用肌酐。使用胱抑素 C 计算的 GFR 比使用肌酐低 10 mL/min、10-19 mL/min、20-29 mL/min 和≥30 mL/min 的患者比例分别为 27%(n=15 名患者中的 4 名)、20%(n=15 名患者中的 3 名)、20%(n=15 名患者中的 3 名)和 33%(n=15 名患者中的 5 名)。在 3 名患者的 3 年长期数据中,在 96%(n=51 个时间点中的 49 个)的所有时间点,使用胱抑素 C 计算的 GFR 均高于使用肌酐。使用虚拟临床试验 GFR 截止值 40 mL/min,使用胱抑素 C 计算的合格患者比例从使用肌酐计算的 41%(n=17 名患者中的 7 名)上升至 71%(n=17 名患者中的 12 名)。
在接受 MATEi TKI 治疗的癌症患者中,使用胱抑素 C 计算的 GFR 在几乎所有情况下都较高。当接受 MATE-1 抑制剂治疗的患者的血清肌酐水平似乎升高时,我们建议在寻找其他肾损伤病因并减少或停止 TKI 治疗之前,使用胱抑素 C 重新计算 GFR。
