Abstract
Background
Hypertension (HTN) is a common adverse event of the vascular endothelial growth factor pathway inhibitor apatinib. This study was conducted to evaluate the association of apatinib-induced HTN with clinical outcomes in patients with advanced non-small-cell lung cancer (NSCLC).
Methods
We retrospectively analyzed 110 consecutive patients with advanced NSCLC who were treated with apatinib from August 2014 to January 2018. All patients were classified as normotensive or hypertensive based on blood pressure measurements after initiating therapy. Therapeutic response, progression-free survival (PFS), and overall survival (OS) were evaluated. Univariate and multivariate analyses were performed using the Cox proportional hazards method.
Results
A total of 46 patients (42%) were diagnosed with HTN. The median PFS for the hypertensive and normotensive groups were 5.6 months and 4.2 months, respectively (P=0.0027). The median OS times for the hypertensive and normotensive groups were 9.9 months and 7.8 months, respectively (P=0.005). Thirty percent of patients who experienced HTN showed partial response to apatinib as compared with 6.3% of non-hypertensive patients (P=0.002). HTN was independently associated with improved PFS and OS on both univariate and multivariate analyses.
Conclusion
Apatinib-induced HTN may be an inexpensive, valid, and easily measurable biomarker for apatinib antitumor efficacy in patients with advanced NSCLC.
Background
Angiogenesis plays a crucial role in the carcinogenesis, invasiveness, and metastasis of solid malignancies, while vascular endothelial growth factor (VEGF) and VEGF receptor 2 (VEGFR-2) are predominantly responsible for angiogenic signaling.Citation1,Citation2 Inhibition of angiogenesis is an important antitumor therapeutic strategy. Antiangiogenic agents targeting the tyrosine kinases of the VEGF receptors have demonstrated antitumor activity across a great number of malignancies. For example, vandetanib, sunitinib, and sorafenib have been approved for the treatment of thyroid cancer,Citation3 renal cell carcinoma,Citation4 and hepatocellular carcinoma,Citation5 respectively. Although a large proportion of patients do not seem to benefit from antiangiogenic therapies and are therefore exposed to unnecessary toxicity, there are currently no biomarkers available to identify which patients are most likely to benefit from such a treatment approach. Thus, it is of great urgency to establish a valid and easily measurable predictive biomarker of efficacy.
Hypertension (HTN) has been reported as a common adverse event associated with VEGF-targeted agent, although the mechanism is unclear. Antagonism of VEGF leads to reduced release of nitric oxide from endothelial cells, therefore causing vasoconstriction and increased peripheral vascular resistance, which ultimately lead to HTN.Citation6,Citation7 Moreover, evidence suggests that HTN may result from functional or structural vascular rarefaction induced by inhibition of VEGF pathway.Citation8 Given that the onset of treatment-induced HTN denotes successful blockage of the VEGF signaling pathway, HTN has been proposed as a surrogate biomarker of the clinical effect of antiangiogenic agents.Citation9–Citation11
Apatinib, an oral small molecule tyrosine kinase inhibitor targeting VEGF receptor-2 (VEGFR-2), was approved by the China Food and Drug Administration for the treatment of advanced gastric cancer in 2014. Although apatinib was associated with a 35%–64.4% incidence of any-grade HTN which was reported as an adverse event in clinical trials,Citation12–Citation14 in a study of patients with advanced gastric cancer treated with apatinib, treatment-induced HTN significantly predicted improved clinical outcomes.Citation15 Apatinib has also demonstrated encouraging efficiency in advanced non-small-cell lung cancer (NSCLC). Preliminary results of a Phase II clinical trial demonstrated that apatinib showed substantial clinical activity in patients with advanced non-squamous NSCLC patients.Citation16 In combination with epidermal growth factor receptor tyrosine kinase inhibitors (EGFR-TKIs), apatinib improved outcomes for patients with advanced NSCLC after EGFR-TKI treatment failure.Citation17–Citation19 Apatinib has demonstrated efficacy for the treatment of advanced NSCLC when utilized as salvage treatment.Citation20,Citation21 We have also reported that three cases of advanced lung adenocarcinoma without identifiable driver oncogenes who received apatinib as a third- or further-line treatment achieved partial response (PR).Citation22
Based on these observations, a retrospective analysis was performed to investigate whether the development of HTN in apatinib-treated patients with advanced NSCLC was associated with clinical outcomes. The purpose of this study was to determine whether apatinib-induced HTN could predict longer OS in advanced NSCLC patients and serve as a biomarker of efficacy.
Methods
Patients
Consecutive patients with unresectable stage IV NSCLC treated with apatinib were enrolled between August 2014 and January 2018 in Nanjing Chest Hospital and the First Affiliated Hospital of Nanjing Medical University. Key inclusion criteria for patients were histologically confirmed advanced NSCLC, at least one measurable lesion according to Response Evaluation Criteria in Solid Tumors (RECIST), Eastern Cooperative Oncology Group performance status (ECOG PS) 0–3, and sufficiently recorded source data. Exclusion criteria included patients with uncontrolled HTN (>140/90 mmHg) and those with thrombotic or hemorrhagic disorders. One hundred ten patients were finally included in this analysis. All patients underwent treatment with apatinib monotherapy. The starting dose of apatinib monotherapy was 500 mg per day and the dose should be reduced to 250 mg if there is an untolerated toxicity. This study was approved by the Medical Ethics Committee of Nanjing Chest Hospital and all aspects of the study comply with the Declaration of Helsinki guidelines. The Ethics Committee of Nanjing Chest Hospital specifically approved that no informed consent was required because it was a retrospective study. Data of all patients were confidential at the strictest level. All participants in the study were completely voluntary and not forced to participate.
Study assessments
The therapy response was evaluated according to RECIST criteria by performing computed tomography (CT) and/ or magnetic resonance imaging (MRI) every 8 weeks until disease progression. Complete response (CR) means disappearance of all target lesions. PR means the longest diameter of target lesion was reduced by at least 30%. Stable disease (SD) means the longest diameter of the target lesion increased to less than progressive disease (PD), or reduced to less than PR. PD means that the longest diameter of the target lesion increased by at least 20%, or the appearance of new lesion. Progression-free survival (PFS) was defined as the time from the first administration of apatinib to the date of disease progression. Overall survival (OS) was defined as the time from the first administration of apatinib to death or loss of follow-up. HTN was defined as maximum systolic pressure ≥140 mmHg and/or diastolic pressure ≥90 mmHg at any time after day 1 of treatment. HTN was defined and graded according to the Common Toxicity Criteria for Adverse Events version 4.0.Citation23 In all patients with elevated baseline HTN, blood pressure (BP) should be well controlled before receiving apatinib therapy.
Statistical analysis
Chi-squared test or Fisher’s exact test was used to assess the association between categorical variables. PFS and OS were assessed using the Kaplan–Meier method and compared between patients with and without HTN using the log-rank test. The influence of covariates on PFS and OS was assessed using a Cox proportional hazards model. The variables in univariate analysis with P<0.2 were entered in the multi-variable model. The purpose of the landmark analysis was to avoid the possible guarantee-time bias caused by incorrectly classifed patients in the normotensive group if they had died or discontinued taking apatinib before experiencing the HTN. Moreover, guarantee-time bias also included the possibility that patients developed inauthentic HTN long after apatinib treatment, which cannot be interpreted as apatinib-induced HTN. Landmark analyses were performed using Kaplan– Meier methods at the end of 2 months (the 95th percentile time for the occurrence of HTN). Therefore, patients who develop HTN after 2 months should be excluded from landmark analysis in the hypertensive group, and patients who stopped taking apatinib or died before 2 months were also not included. Two-sided tests were used, and a P-value <0.05 was considered statistically significant. Statistical analyses were performed using SPSS version 19.0.
Results
Patient characteristics
The demographic characteristics of 110 patients with advanced NSCLC included in this analysis are summarized in . The median age of patients was 65 years (range 44–81 years). A total of 46 patients (42%) were diagnosed with HTN (grade 1 [n=14], grade 2 [n=22], and grade 3 [n=10]), whereas the rest of the patients (58%) did not develop HTN during apatinib treatment. No patient developed HTN grade 4 or grade 5. There were no significant differences in age, gender, smoking history, ECOG PS, pathological type, location, and line of apatinib treatment between the normotensive and hypertensive patients.
Table 1 Patient characteristics
Effect of HTN on clinical outcomes
The onset of HTN was significantly correlated with improved outcomes (). The median PFS for all patients was 4.6 months. The median PFS for patients with apatinib-induced HTN was 5.6 months, and for normotensive patients, it was 4.2 months (P=0.0027) (). The median OS for all patients was 8.2 months. Again, patients with apatinib-induced HTN had a significantly prolonged OS, with a median OS of 9.9 months reported in the hypertensive patients and 7.8 months noted in the normotensive patients (P=0.005) (). Furthermore, HTN was associated with significantly better responses to therapy. Thirty percent of patients who experienced HTN showed PR to apatinib as compared with 6.3% of non-hypertensive patients (P=0.002). None achieved a CR in both the normotensive and hypertensive groups ().
Table 2 Treatment efficacy in patients with and without HTN
Figure 1 Overall survival and progression-free survival by hypertension during apatinib treatment.
Notes: (A) PFS was compared between the two groups. (B) OS was compared between the two groups.
Univariate and multivariate analyses
In univariate analysis, PS (P=0.029), age (P=0.037), and HTN (P=0.0027) were obviously associated with PFS (). In multivariate analysis, patients with good PS (P=0.017, HR: 2.26, CI: 1.16–4.39) and HTN (P=0.011, HR: 0.413, CI: 0.21–0.82) had significantly longer PFS. Moreover, the apatinib-induced HTN was also found to be independently predictive of improved OS on both univariate and multivariate analyses ().
Table 3 Progression-free survival in univariate and multivariate analyses
Table 4 Overall survival in univariate and multivariate analyses
Landmark analysis
To address possible guarantee-time bias from misclassification of patients, landmark analyses were performed at the end of 2 months. After adjusting for potential bias, the median OS was 10.2 months (CI: 7.9–11.4) for the patients with HTN vs 8.6 months (CI: 6.17–9.43) for the normotensive patients (P=0.008) (). The adjusted HR for OS of patients with HTN was 0.28 (CI: 0.15–0.37).
Figure 2 Landmark analysis of overall survival in patients with and without hypertension with landmark at 2 months.
Discussion
This retrospective analysis found that HTN was associated with significantly improved clinical outcomes in patients with advanced NSCLC treated with apatinib. These results support the hypothesis that HTN may be a predictive biomarker of efficacy for apatinib treatment in this patient population. Response rate was more than five times greater in patients with HTN than in those without HTN. Moreover, Median PFS and OS were significantly longer among patients with HTN than those without. Similarly, results of landmark analyses demonstrated that HTN onset by the end of the second treatment cycle was also associated with improved outcomes. Finally, HTN was identified as an independent prognostic factor for improved survival in both univariate and multivariate analyses.
Indeed, a number of previous studies have evidenced HTN as a surrogate biomarker for efficacy of antiangiogenic therapy. In line with our results, in a cohort of 80 patients treated with apatinib for advanced breast cancer, Fan et al demonstrated that HTN was correlated with significant benefits in terms of response rate, PFS, and OS.Citation24 In addition, retrospective analyses evaluating the relationship between HTN and outcomes in advanced NSCLC patients treated with bevacizumab or axitinib showed a similar result to that observed here for apatinib.Citation25,Citation26 These observations, if validated by large-scale prospective studies, seem to imply that more active attempts should be used to control BP rather than reduction in drug dosing or interruption in treatment when severe HTN occurs. Aggressive BP monitoring and treatment for HTN with antihypertensive medication in patients receiving VEGF inhibitors were recommended by an expert panel of the National Cancer Institute.Citation27 Antihypertensive drugs should be regarded as first-line treatment of apatinib-induced HTN, considering the results that use of antihypertensive agents did not reduce antitumor activity of VEGF inhibitors.Citation28 Conversely, the lack of HTN may suggest an early change in the treatment strategy. Rini et al proposed that upward dose titration of axitinib until BP elevation in an individual patient might lead to superior outcomes.Citation29 Initial observations in an apatinib Phase I trial demonstrated the dose-dependent relationship between apatinib and HTN induction.Citation30 Thus, dosage titration of apatinib for individual patients may be crucial to increasing responses. However, these methods must be confirmed in clinical studies before they can be applied.
A large number of studies indicate that genetic variations in HTN-associated genes are associated with the risk for developing antiangiogenic drug-induced HTN. In this setting, dosage titration of apatinib may not achieve the expected effect when patients harboring genetic variations in HTN-associated genes are naturally more resistant to drug-induced HTN despite sufficient drug concentration. Melissa et al evaluated patients with solid tumors treated with bevacizumab in six clinical trials and found that both single-nucleotide polymorphisms (SNPs) and haplotypes in WNK1 and KLKB1 were associated with the development of bevacizumab-induced HTN, whereas three haplotypes in GRK4 were related to protection from HTN.Citation31 Morita et al reported an association between the VEGF-2578 C/C genotype and less HTN in 60 Japanese patients treated with bevacizumab-based chemotherapy.Citation32 SNPs in VEGF (VEGF-634 CC and VEGF-1498 TT) have also been identified to be associated with protection from grade 3/4 HTN.Citation33 If there is a definite link between HTN and effectiveness of the apatinib in the patient cohort in the present study, then detection of HTN protective genes will be contributing to screen out patients with natural resistance to apatinib. But to date, none have been validated.
There are several limitations in the current study. First, the small sample size and retrospective design of the present study may bias the result. Future large-scale prospective studies should be conducted to confirm the findings of this study. Second, our definition of HTN only refers to an increase in the threshold level of systolic and/or diastolic pressure, which may not be accurate to characterizing apatinib-induced HTN. VEGF inhibitor-induced HTN was defined by other studies as both BP increase from baseline and start or extension of antihypertensive medication.Citation10,Citation34 However, no studies have confirmed that one definition is superior to the other as a biomarker of clinical outcomes. Finally, the management of side effects like HTN was not uniform in each patient, which may affect the prognosis of patients.
Conclusion
Despite substantial efforts, till date no validated predictive biomarkers for antiangiogenic agents have been identified. Serial BP monitoring is convenient and may be reflective of intended target inhibition once therapy is started. Results of this retrospective analysis suggest that treatment-induced HTN may be an inexpensive, valid, and easily measurable biomarker for apatinib antitumor efficacy in patients with advanced NSCLC. Therefore, larger randomized studies should be performed to evaluate the role of apatinib-induced HTN as a potential prognostic biomarker in advanced NSCLC patients treated with apatinib.
Author contributions
All authors contributed toward data analysis, drafting, and critically revising the paper; gave final approval of the version to be published; and agree to be accountable for all aspects of the work.
Acknowledgments
This study was supported by the Priority Academic Program Development of Jiangsu Higher Education Institutions (PAPD) and Jiangsu Provincial Youth Medical Talent Program (QNRC2016123).
Disclosure
The authors report no conflicts of interest in this work.
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