Envonalkib versus crizotinib for treatment-naive ALK-positive non-small cell lung cancer: a randomized, multicenter, open-label, phase III trial

Anaplastic lymphoma kinase (ALK) rearrangements are present in about 5–6% of non-small cell lung cancer (NSCLC) cases and associated with increased risks of central nervous system (CNS) involvement. Envonalkib, a novel ALK inhibitor, demonstrated promising anti-tumor activity and safety in advanced ALK-positive NSCLC in the first-in-human phase I study. This phase III trial (ClinicalTrials.gov NCT04009317) investigated the efficacy and safety of first-line envonalkib in advanced ALK-positive NSCLC cases. Totally 264 participants were randomized 1:1 to receive envonalkib (n = 131) or crizotinib (n = 133). Median independent review committee (IRC)-assessed progression-free survival (PFS) times were 24.87 (95% confidence interval [CI]: 15.64–30.36) and 11.60 (95% CI: 8.28–13.73) months in the envonalkib and crizotinib groups, respectively (hazard ratio [HR] = 0.47, 95% CI: 0.34–0.64, p < 0.0001). IRC-assessed confirmed objective response rate (ORR) was higher (81.68% vs. 70.68%, p = 0.056) and duration of response was longer (median, 25.79 [95% CI, 16.53–29.47] vs. 11.14 [95% CI, 9.23–16.59] months, p = 0.0003) in the envonalkib group compared with the crizotinib group. In participants with baseline brain target lesions, IRC-assessed CNS-ORR was improved with envonalkib compared with crizotinib (78.95% vs. 23.81%). Overall survival (OS) data were immature, and median OS was not reached in either group (HR = 0.84, 95% CI: 0.48–1.47, p = 0.5741). The 12-month OS rates were 90.6% (95% CI, 84.0%–94.5%) and 89.4% (95% CI, 82.8%–93.6%) in the envonalkib and crizotinib groups, respectively. Grade ≥3 treatment-related adverse events were observed in 55.73% and 42.86% of participants in the envonalkib and crizotinib groups, respectively. Envonalkib significantly improved PFS and delayed brain metastasis progression in advanced ALK-positive NSCLC.


INTRODUCTION
Lung cancer constitutes the most common malignant tumors around the world.Estimated 2,093,876 newly diagnosed lung cancer cases were reported in 2018 globally, with yearly agestandardized incidence rates of 31.5/100,000 in males and 14.6/ 100,000 in females. 1 Lung cancer is also the leading cause of cancer death, with yearly age-standardized mortality rates of 27.1/ 100,000 in males and 11.2/100,000 in females. 1 Non-small cell lung cancer (NSCLC) comprises 85-90% of all the lung cancer cases, usually affecting adults who smoke and those 65 years old or above. 2 Despite the advances in management, the prognosis of NSCLC remains poor in the United States, with 5-year survival rates of 19%, 56%, 30% and 5% for all, localized diseases, regional diseases, and metastatic diseases, respectively. 3he oncogenic anaplastic lymphoma kinase (ALK) rearrangements occur in ~5-6% of NSCLC patients and are mostly observed in young individuals as well as in light or non-smokers with adenocarcinoma. 4,5Above 19 distinct ALK fusion partners have been identified so far. 6Cases with ALK rearrangements show poor prognosis, 6 for insistence, a higher risk of central nervous system (CNS) involvement. 7Therefore, the enthusiasm for ALK as a target for cancer therapy is encouraging.CNS metastases can lead to substantial morbidity and decrease the quality of life. 8The management strategies for CNS metastases mainly rely on local therapies (surgery, whole-brain radiotherapy, and stereotactic radiosurgery), but the advent of small-molecule systemic therapies which can cross the blood-brain barrier has improved the prognosis of NSCLC patients with CNS involvement, including those with ALK-positive NSCLC. 9LK inhibitors have become the standard therapeutic option for advanced ALK-positive NSCLC. 10 Crizotinib, a first-generation ALK inhibitor, showed a response rate close to 75% and a median progression-free survival (PFS) of nearly 12 months.Unfortunately, eventually all the cases administered crizotinib would develop acquired resistance, generally within 1-2 years after the initiation of treatment.11 Second-generation (ceritinib, alectinib, brigatinib, and ensartinib) and third-generation (lorlatinib) ALK inhibitors were designed to overcome resistance to crizotinib and improve the management of CNS metastases, showing anti-tumor activity in crizotinib-refractory patients.][13][14][15] The 12-month PFS rate of alectinib was 68.4%, vs. 48.7%for crizotinib.12 In addition, ALK variants do not affect the efficacy of alectinib in NSCLC.16 Ensartinib was shown to be particularly effective for the management of CNS progression, achieving an intracranial response rate of 64%, vs. 21% for crizotinib.13 Lorlatinib yielded a particularly low HR of 0.28 for disease progression or death compared with crizotinib.14 Still, treatment eventually fails, and the high incidence rates of treatment resistance and disease recurrence are the major issues currently, 9 calling for novel molecules that could be effective options once resistance occurs or to prevent its development.Indeed, the clinical efficacy of all ALK inhibitors is the eventual development of multidrug resistance because of the selection pressure of the treatments on NSCLC cells.17 Such resistance can be attributed to the occurrence of secondary mutations in the ALK tyrosine kinase domain, amplification of ALK, drug efflux pumps, activated bypass signaling pathways, lineage changes, and primary ALK-tyrosine kinase inhibitor (TKI) resistance.17 Envonalkib (CT-711, TQ-B3139, CTTQ Pharmaceutical Group Co., Ltd., Nanjing, China) is a newly developed small-molecule TKI against ALK, c-Met, and ROS1, which has a potency of five times higher than that of crizotinib in enzymatic assays.18 It is potentially sensitive to ALK-resistance mutations, including L1152R, R1275Q, L1196M, and C1156Y. 18Preclinical data support the superiority of envonalkib over crizotinib in ALK-driven malignancies and c-Met activation causing acquired resistance.18 The pharmacokinetic profile of envonalkib showed dose proportionality from 200 to 600 mg twice a day (BID), but absorption saturation was observed at 800 mg, showing a plateauing area under the curve and peak concentration.19 The maximum tolerated dose of envonalkib was not reached in the firstin-human phase I study, and 600 mg BID was established as the recommended phase II dose for safety concerns.The phase I study reported that envonalkib at 200 mg BID and beyond was safe and effective in both treatment-naïve and previously treated ALK-positive NSCLC cases.In addition, envonalkib showed promising therapeutic effects for brain metastases.19 Indeed, in cases with brain target lesions, an intracranial objective response rate (ORR) was of 70% was observed, and the median intracranial PFS reached 15.9 months.19 No new safety signal was detected in the phase I study that could prevent further study of the drug.
The present randomized phase III study aimed to compare envonalkib and crizotinib for efficacy and safety in patients with treatment-naive advanced ALK-positive NSCLC and to examine the effect of envonalkib against CNS metastases.

Screening
Totally 317 NSCLC patients were screened, and 264 underwent randomization, including 131 and 133 in the envonalkib and crizotinib groups, respectively, both in the intent-to-treat (ITT) population and the safety set (SS).As of October 14, 2021, 135 PFS events were observed, and an interim analysis was performed.Considering the immature PFS data, follow-up for PFS was extended to August 31, 2022, when 81 and 105 participants had withdrawn from the study, while 50 and 28 were still on treatment in the envonalkib and crizotinib groups, respectively (Fig. 1).
Fig. 1 Study flowchart.PD progressive disease, AE adverse event, ITT intent-to-treat, SS safety set

Baseline participant characteristics
The median age in the overall population was 53 years, with 85.23% of cases aged <65 years and 51.52% males.The majority of participants (93.94%) had stage IV disease, and 75.38% of participants had no previous chemotherapy.Participant characteristics were generally balanced between both groups, except that the proportions of participants with age ≥65 years (19.08% vs. 10.53%) and with an Eastern Cooperative Oncology Group performance status (ECOG PS) score of 1 (77.10% vs. 69.92%)were slightly higher in the envonalkib group (Table 1).
Efficacy in participants based on baseline intracranial lesions Totally 88 (33.33%) participants had brain metastases at baseline, among whom 40 (15.15%) had intracranial target lesions.As shown in Supplementary Table 1 and Supplementary Fig. 1, in participants with baseline intracranial target lesions, the IRCassessed CNS-ORR was significantly increased (78.95% vs. 23.81%), the IRC-assessed DOR was longer (median, 25.82 vs. 7.39 months; p = 0.0030), and the IRC-assessed CNS-time to progression (TTP) was longer (median, 26.68 vs. 6.34 months; p = 0.0008) in the envonalkib group compared with the crizotinib group.In participants with brain metastases at baseline, the benefit of envonalkib over crizotinib in IRC-assessed CNS-TTP (median, 30.32 vs. 8.28 months; p = 0.0001) was also observed (Supplementary Fig. 2).In addition, in participants without brain metastasis at baseline, IRC-assessed incidence rates of brain metastasis during the treatment were notably lower after treatment with envonalkib than crizotinib (2.15% vs. 11.70%,p = 0.0182).In participants with brain metastasis at baseline, the cumulative incidence of CNS progression was also lower with envonalkib than with crizotinib.

Safety
Treatment durations were 531 (range, 2-1117) and 360 (range, 27-1100) days in the envonalkib and crizotinib groups, respectively.Treatment-emergent adverse events (TEAEs) occurred in 99.24% and 100% of participants in the envonalkib and crizotinib groups, respectively.The incidence rates of serious adverse events (SAEs) were 37.40% in the envonalkib group and 28.57% in the crizotinib group.Grade ≥3 treatment-related adverse events (TRAEs) occurred in 55.73% and 42.86% of participants in the envonalkib and crizotinib groups, respectively.The incidence rates of TRAEs leading to dose reduction and permanent discontinuation of the study drug were 33.59% and 6.11% in the envonalkib group, respectively, and 20.30% and 3.76% in the crizotinib group, respectively.The eight cases of envonalkib discontinuation due to TRAEs included two participants with gastrointestinal toxicity, one with arrhythmia, three with potential drug-induced liver injury, one with fatigue and peripheral neuropathy, and one with elevated creatine phosphokinase.The most common TEAEs (>10%) in both groups are shown in Table 3.The most common TEAEs in the envonalkib group were diarrhea (90.84%), vomiting (83.97%), elevated alanine transaminase (74.81%), nausea (70.23%), and elevated aspartate aminotransferase (69.47%).

DISCUSSION
In the present randomized phase III trial, envonalkib significantly improved PFS compared with crizotinib (median, 24.87 vs. 11.60 months; HR = 0.47, 95% CI, 0.34-0.64).Moreover, envonalkib had superior efficacy over crizotinib against intracranial disease.In participants with brain target lesions at baseline, IRC-assessed CNS-ORRs were 78.95% and 23.81% in the envonalkib and crizotinib groups, respectively.Envonalkib significantly delayed disease progression in participants with baseline brain metastases and starkly reduced the risk of brain metastasis in participants without baseline brain metastasis.The incidence of TRAEs resulting in permanent discontinuation of envonalkib was low (6.11%), and no new safety signals were observed.CNS metastases are protected from most systemic anticancer treatments due to the blood-brain barrier.Even small-molecule drugs can have a low diffusion rate through the barrier.As its lower capability of penetrating the brain-blood barrier, the activity against brain metastases of crizotinib is limited. 20Fortunately, the efficacy in controlling intracranial disease has been improved with second-and third-generation ALK inhibitors.14][15]21 In the present study, for participants with measurable intracranial lesions, IRCassessed ORR was 78.95% in the envonalkib group, which was significantly elevated than that of the crizotinib group (23.81%) and similar to the IRC-assessed ORR of 70% observed in the phase I study. 19In addition, in participants without baseline brain Fig. 2 Progression-free survival assessed by the independent review committee (a) and the investigators (b) in the intent-to-treat population Fig. 3 Subgroup analysis of independent review committee-assessed progression-free survival in the intent-to-treat population.ECOG Eastern Cooperative Oncology Group, HR hazard ratio, CI confidence interval metastasis, the IRC-assessed incidence rate of new metastases during the treatment was significantly reduced compared with that of the crizotinib group (2.15% vs. 11.70%,p = 0.0182).Collectively, these data strongly support the robust efficacy of envonalkib in controlling CNS disease.Controlling CNS metastases with systemic drugs is associated with lower morbidity than local treatments for CNS metastases (surgery and radiotherapy), and local treatments could then be kept as further options when the CNS disease progresses.
Previous phase III trials showed that second-generation ALK inhibitors, e.g., brigatinib, alectinib, and ensartinib, could significantly improve PFS in advanced ALK-positive NSCLC participants with no prior treatment with ALK inhibitors compared with crizotinib, with median PFS ranging from 25.8 to 34.8 months and HR values ranging from 0.43 to 0.51. 13,15,16,22,23In this study, using the same clinical setting as previous studies of second-generation ALK inhibitors, envonalkib also significantly prolonged PFS for ~13 months compared with crizotinib; IRC-assessed HR for disease progression or death was 0.47, which was comparable to those of other reported second-generation ALK inhibitors.In addition, although OS data for the present trial was immature, the 12-and 24-month OS rates in the envonalkib group were 90.6% and 78.4%, respectively, which were also similar to 84.3%-85% and 70.6%-78% reported in other second-generation ALK inhibitors. 12,14,15,21,22lder age and poorer performance status are prognostic factors in NSCLC. 24,25Moreover, the proportions of elderly patients (age >65 years) and individuals with poorer performance status (ECOG score of 1) were higher in the envonalkib group, but the clinical efficacy of envonalkib remained superior to that of crizotinib.
Taken together, envonalkib could represent a new treatment option for patients with advanced ALK-positive NSCLC who had received no previous ALK-TKIs.Of note, lorlatinib also demonstrated outstanding clinical efficacy in this patient setting. 14evertheless, whether lorlatinib is an optimal option for first-line therapy is controversial since it plays an important role in salvage therapy for patients refractory to second-generation ALK inhibitors, 26 as well as its uniquely unpleasant toxicity profile, such as hypertriglyceridemia, hypercholesterolemia, edema, peripheral neuropathy, and CNS toxicity. 27he safety profile of envonalkib from this phase III trial was generally consistent with that from the previous phase I study, with no new safety signal observed. 19The most common TRAEs included gastrointestinal symptoms (diarrhea, vomiting, nausea, and loss of appetite) and increased aminotransferase levels.These adverse events could be effectively managed by supportive care and dose reduction when necessary.Only 6.11% of the participants had to discontinue envonalkib treatment due to TRAEs, similar to the values reported for alectinib, brigatinib, and ensartinib (9.1-13%). 12,13,15In addition, no TRAEs leading to death were observed, indicating that envonalkib was generally well tolerated.Of course, safety data will have to be confirmed in future trials.Real-world studies are particularly useful in examining the occurrence of rare TRAEs.
The EML4-ALK fusion gene has variants that may have an impact on the treatment efficacy of ALK-TKIs. 28Indeed, different lengths of the EML4 gene can be fused with ALK.Variants 1 and 2 are unstable because of the exposure of the protein's hydrophobic core, requiring a chaperone for avoiding misfolding, while variants 3a/b and 5 show higher stability.The stability of a given EML4-ALK protein variant is associated with the stability of the corresponding fusion protein, as well as inhibitor-induced protein degradation and drug sensitivity. 28Crizotinib treatment achieved a 2-year PFS rate of 76% for variants 1/2/others vs. 26% for variants 3a/b. 29On the other hand, such differences in efficacy against different EML4-ALK variants were not observed with alectinib in patients with NSCLC. 16Therefore, the impacts of the ALK variants on the efficacy of envonalkib will have to be examined.Indeed, TP53 mutations are risk factors for survival in NSCLC cases with ALK rearrangements administered crizotinib, 30 and whether this is also true with envonalkib will have to be determined.The biomarker analysis of envonalkib will be reported in a separate manuscript in the future.
This study had limitations.Only Chinese participants were enrolled, indicating limited generalizability of the results.Because of the ethnic differences in the epidemiology and management of NSCLC, 31 the clinical outcomes of envonalkib for advanced ALKpositive NSCLC in other ethnic cohorts need to be explored in future studies.Furthermore, although envonalkib appears to decrease the risk of CNS progression in participants with no

Fig. 4
Fig. 4 Independent review committee-assessed (a) and investigator-assessed (b) duration of response in the intent-to-treat population

Table 1 .
Baseline characteristics of the study participants in the

Table 2 .
IRC-assessed treatment response in the intent-to-treat (ITT) ORR objective response rate, CR complete response, PR partial response, SD stable disease, PD progressive disease, NE not evaluable, CI confidence interval, IRC independent review committee

Table 3 .
Safety profile and adverse events related to the treatment in the safety population TEAE treatment emergent adverse event, SAE serious adverse event, TRAE treatment-related adverse event, ALT alanine transaminase, AST aspartate aminotransferase, ECG electrocardiogram, CK-MB creatine kinase-MB, GGT serum gamma-glutamyl transferase, LDH lactate dehydrogenase, PLT platelet count, WBC white blood cell count Envonalkib versus crizotinib for treatment-naive ALK-positive non-small. . .Yang et al.