Randomized Phase II Study Evaluating Akt Blockade with Ipatasertib, in Combination with Abiraterone, in Patients with Metastatic Prostate Cancer with and without PTEN Loss

Study design and patients

This multicenter, international, phase Ib/II trial consisted of two stages. In the phase Ib, open-label, dose escalation stage, the recommended phase II dose of ipatasertib in combination with abiraterone 1,000 mg once daily and prednisone/prednisolone 5 mg twice daily was determined. The phase Ib study was conducted in 5 sites in the United States. There was no dose-limiting toxicity with ipatasertib 400 mg, the highest evaluated dose (Supplementary Table S1). The phase Ib portion included a safety assessment of abiraterone plus GDC-0980, a dual PI3K/mTOR inhibitor, but this arm was discontinued due to poor tolerability (data not shown).

The phase II, three-arm, double-blind, randomized stage compared the efficacy and safety of ipatasertib with abiraterone and prednisone/prednisolone versus placebo with abiraterone and prednisone/prednisolone. This combination was evaluated in the intent-to-treat (ITT; unselected) population as well as in patients with PTEN-loss tumors. The phase II study was conducted in 49 sites in nine countries. The protocol was amended five times to update inclusion/exclusion criteria, increase the number of participating sites, add prednisolone as an alternative to prednisone, clarify the blinding process, specify the recommended phase II dose of ipatasertib, and update the phase II study design.

Eligible patients were aged ≥18 years with histologically confirmed metastatic or advanced prostate cancer previously treated with docetaxel-based therapy and progressing after ≥1 hormonal therapy (23), had an Eastern Cooperative Oncology Group performance status of 0 or 1 at screening, and adequate hematologic, liver, and kidney function. Patients were excluded if they had small cell or neuroendocrine prostate carcinoma, previous treatment for prostate cancer with abiraterone, PI3K–Akt–mTOR inhibitors, or any cancer therapy <2 weeks prior to initiation, type I or II diabetes mellitus requiring insulin (patients not requiring insulin were permitted), clinically significant cardiac or pulmonary dysfunction, active autoimmune disease, immunocompromised status, or liver disease. Patients were required to provide a tumor block or 15 to 20 unstained serial slides for evaluation of PTEN status and to support the biomarker-related exploratory objectives of the study (the vast majority of these specimens came from the patient's primary disease: 220/223, 91%; Supplementary Fig. S1).

This study was performed in accordance with Good Clinical Practice guidelines and the Declaration of Helsinki. Written informed consent was obtained from patients prior to enrollment in agreement with approved protocols from the respective ethics committees.

Randomization and masking

Patients were randomized 1:1:1 via permuted block randomization through an interactive voice–web-based response system (IVRS/IWRS) to receive ipatasertib 400 mg, ipatasertib 200 mg, or placebo, in combination with abiraterone 1,000 mg once daily and prednisone/prednisolone 5 mg twice daily continuously in 28-day cycles (Supplementary Fig. S2). Ipatasertib and placebo were identical in appearance. Crossover was not permitted. Randomization was stratified by prior treatment with enzalutamide, number of prior chemotherapy regimens for metastatic disease (1 vs. >1), and progression factor (PSA only vs. other). Patients and investigators were blinded to treatment status (i.e., ipatasertib vs. placebo); however, they were aware of randomization to the different doses of ipatasertib/placebo (400 mg vs. 200 mg). Emergency unblinding was permitted and could be performed by the investigator through the IVRS/IWRS system. The PTEN loss status was not disclosed.

Procedures

Ipatasertib (400 or 200 mg), abiraterone 1,000 mg, and placebo were administered orally once daily, and prednisone/prednisolone 5 mg was administered orally twice daily. Patients received treatment until disease progression, intolerable toxicity, elective withdrawal from the study, or study completion/termination. After study completion or termination, patients who continued to benefit from study treatment were given the opportunity to continue as part of an extension study. Per the discretion of the investigator, the dose of ipatasertib/placebo could be reduced by one dose level (100-mg increments). If the patients receiving the lowest dose had any reason for further dose reduction, ipatasertib was discontinued.

Tumor assessments were performed at screening; after cycles 3, 5, 7, and 9; every three cycles (12 weeks) thereafter; and at treatment completion. Radiographic progression-free survival (rPFS) was adapted from the Prostate Cancer Working Group 2 Criteria and assessed using RECIST version 1.1 for progressive disease of soft tissue, bone scan progressive disease (Supplementary Table S2), or death within 30 days of the last dose (24). Other study assessments included medical history, laboratory tests, adverse events (AE), pharmacokinetics, biomarkers, and patient-reported outcomes (see Supplementary Methods for further details). Cumulative dose intensity for each study drug (ipatasertib, placebo, or abiraterone) was calculated using the actual amount of study drug received in milligrams divided by the expected amount of study drug in milligrams. The expected amount of study drug was calculated on the basis of treatment duration (the interval between the first and last administered doses of study drug) and the initial dose and schedule specified in the protocol.

PTEN loss was assessed via IHC performed centrally at The Institute of Cancer Research (London, United Kingdom) through a validated assay, and the researchers were blinded to treatment assignment and clinical outcome data (12, 25). Additional protein- and DNA-based platforms to assess PTEN loss included an alternative PTEN IHC assay (Ventana), next-generation sequencing (NGS; Foundation Medicine), and FISH (Core Diagnostics). Additional details on these methodologies are listed in the Supplementary Methods.

Outcomes

The coprimary endpoints were rPFS in the ITT population and in patients whose tumors had PTEN loss. Secondary endpoints in the ITT and PTEN-loss populations include OS, PSA response rate, objective tumor response, CTC conversion rate, and safety and tolerability. Exploratory endpoints were PSA progression and rPFS in PTEN loss and nonloss populations using alternative assays and platforms (see Supplementary Fig. S1 and Supplementary Table S3).

Safety was graded per the NCI Common Terminology Criteria for Adverse Events version 4.0. Preferred terms were assigned to the original entry, using the Medical Dictionary for Regulatory Activities version 18.1. Selected AEs were identified by AE group terms comprising preferred terms of similar medical concepts.

Statistical analysis

Efficacy comparisons between ipatasertib doses and the placebo cohort were planned, but not between ipatasertib cohorts. This trial was hypothesis generating and did not have adequate power to detect minimum clinically meaningful differences between cohorts at a statistically significant α (type I error) level of 5%. Instead, the 90% confidence intervals (CI) for the HR were calculated with the expectation that for clinically meaningful outcomes, the upper limit of the two-sided 90% CI will be close to 1. A true improvement of >3 months in median rPFS (from 6 to >9 months or HR < 0.67) was considered clinically meaningful for ipatasertib 400 or 200 mg versus placebo. The final analysis for the primary endpoint of rPFS was planned for 96 events in the PTEN-loss population, which gives 64 events per comparison; the corresponding two-sided upper 90% CI for a targeted HR ratio of 0.67 with 64 events is 1.01. Assuming a 60% prevalence of PTEN loss in prostate cancer, 162 overall events (108 per comparison) were expected in the overall population, giving the planned approximately 80 randomized patients per arm, or 240 randomized patients overall, to be enrolled. rPFS was evaluated using the following methods: A stratified Cox proportional hazards model estimated the HR and CI for each comparison, log-rank tests were used for each comparison, and the Kaplan–Meier approach estimated median rPFS for each cohort. Additional stratified sensitivity analyses were performed for the ITT population. For rPFS in PTEN-loss and nonloss populations, unstratified HRs and corresponding CIs were used.

Data for randomized patients without progressive disease or death were censored at the earliest date of the last assessments among the components of the rPFS endpoint. If neither of these assessments was performed after randomization, data were censored at the randomization date plus 1 day. PSA response rate and overall response rate (ORR) were estimated with corresponding 90% CIs. This trial is registered with ClinicalTrials.gov, number NCT01485861.