The purpose of this clinical study is to establish the safety profile, determine the maximum tolerated dose (MTD) and recommend a Phase 2 dose and schedule of SRA737; and to evaluate the efficacy of SRA737 in prospectively-selected subjects with genetically-defined tumors that harbor genomic alterations linked to increased replication stress and that are hypothesized to be more sensitive to checkpoint kinase 1 (Chk1) inhibition via synthetic lethality. Specific cancer indications that frequently harbor these genetic mutations will be studied.
SRA737 is a potent, highly selective, orally bioavailable small molecule inhibitor of Chk1, a key regulator of cell cycle progression and the DNA Damage Response (DDR) replication stress response. In cancer cells, intrinsic replication stress (RS) is induced by factors such as oncogenes (e.g., CCNE1 or MYC), genetic mutations in DNA repair machinery (e.g. BRCA1 or FANCA), genetic mutations leading to a dysregulated cell cycle (e.g., TP53 or RAD50) or other genomic alterations. This replication stress results in persistent DNA damage and genomic instability, leading to an increased dependency on Chk1 for survival. Targeted inhibition of Chk1 by SRA737 may therefore be synthetically lethal to cancer cells with elevated intrinsic RS. This study has been designed to: establish the safety profile; determine the pharmacokinetic profile; identify the optimal dose, schedule, and MTD; obtain preliminary evidence of activity; and evaluate SRA737's efficacy in prospectively-selected subjects with tumors that harbor genomic alterations linked to increased replication stress and that are hypothesized to be more sensitive to Chk1 inhibition via synthetic lethality. This clinical study consists of two phases, a Dose Escalation Phase 1 portion and a Cohort Expansion Phase 2 portion. In the Dose Escalation Phase 1 portion, cohorts consisting initially of a single subject will receive escalating doses of SRA737, administered orally on a continuous daily dosing schedule in 28-day cycles. Once an SRA737-related Grade 2 toxicity is observed in a dose escalation cohort during Cycle 1, that cohort will be expanded to 3 to 6 subjects, and subsequent dose level cohorts will follow a rolling 6 design until the MTD has been identified. In the Cohort Expansion Phase 2 portion, subjects with genetically-defined tumors that harbor genomic alterations linked to increased replication stress and that are hypothesized to be more sensitive to Chk1 inhibition will be prospectively enrolled into six indication-specific cohorts to explore the preliminary efficacy of SRA737. Subjects must have advanced or metastatic disease of one of the following types: * castration-resistant prostate cancer (mCRPC); * high grade serous ovarian cancer (HGSOC) without CCNE1 gene amplification; * HGSOC with CCNE1 gene amplification (or alternative genetic alteration with similar functional effect); * non-small cell lung cancer (NSCLC); * head and neck squamous cell carcinoma (HNSCC) or squamous cell carcinoma of the anus (SCCA); and * colorectal cancer (mCRC). To qualify for enrolment in the Cohort Expansion Phase 2 portion, the subject's tumor must have a confirmed combination of mutations which are expected to confer sensitivity to Chk1 inhibition, determined by the Sponsor's review of genetic abnormalities detected in the following categories: * Oncogenic drivers such as CCNE1 or MYC, etc. * Genes involved in the DNA repair process including BRCA1, BRCA2, FANC genes, mismatch repair (MMR) genetic alterations and/or high microsatellite instability. * Key tumor suppressor genes regulating G1 cell cycle progression/arrest such as TP53, RAD50, etc. For patients with HNSCC or SCCA, positive human papilloma virus (HPV) status is also considered for eligibility. * Genetic indicators of replicative stress such as gain of function/amplification of CHEK1, ATR or other related genes. Tumor genetics will be prospectively determined using Next-Generation Sequencing.
SRA737 will be administered orally on each day of a 28-day cycle. Subjects will receive a single dose of SRA737 between 4 to 7 days prior to starting the first cycle for PK profiling. Subjects can continue taking SRA737 if they are receiving clinical benefit and able to safely take the drug and follow the requirements of the study.
Royal Marsden Hospital
Sutton, London, United Kingdom
Belfast City Hospital
Belfast, Northern Ireland, United Kingdom
Oxford University Hospitals
Number of Subjects With Adverse Events as Assessed by CTCAE 4.03
Treatment-emergent adverse events (TEAEs) were reported until the safety Follow up (SFU) visit, 30 days after the last dose of SRA737 or prior to the initiation of a new anticancer treatment, whichever came first.
Time frame: Up to 30 days after last dose of SRA737
Maximum Tolerated Dose of SRA737
The highest dose at which ≤ 33% of subjects have a dose limiting toxicity (DLT) in a cohort of up to 6 subjects.
Time frame: Cycle 1 (28 days) in the Dose Escalation Phase
Recommended Phase 2 Dose of SRA737
The RP2D and schedule were defined by the Cohort Review Committee at the end of the study and took all clinically relevant toxicity, PK and PDn data into account. The RP2D was to be a dose equal to or less than the MTD for the selected schedule.
Time frame: Up to 30 days after last dose of SRA737
Disease Control Rate (DCR) of SRA737
The disease control rate (DCR) was defined as the number of subjects achieving complete response (CR) + partial response (PR) + stable disease (SD) per RECIST 1.1 criteria. Since no subjects achieved CR or PR in this study, the DCR represents the proportion of subjects in each group who achieved SD.
Time frame: Radiographic tumor assessments were performed every 2 cycles of therapy.
Time to Progression (TTP)
Time to progression (TTP) was defined as the time from Cycle 1 Day 1 to the earliest date of radiographic disease progression per RECIST 1.1, or if the subject did not experience disease progression, to the last imaging assessment. TTP was analyzed using the K-M method.
Time frame: Radiographic tumor assessments were performed every 2 cycles of therapy. Follow-up assessments were made every 16 weeks for subjects who had not progressed and had not initiated new anticancer therapy.
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Study Type
INTERVENTIONAL
Allocation
NA
Purpose
TREATMENT
Masking
NONE
Enrollment
107
Headington, Oxford, United Kingdom
Velindre Cancer Centre - Cardiff
Cardiff, Whitchurch, United Kingdom
The Clatterbridge Cancer Centre
Bebington, Wirral, United Kingdom
Western General Hospital
Edinburgh, United Kingdom
The Beatson West of Scotland Cancer Centre
Glasgow, United Kingdom
The Leeds Teaching Hospitals of St James University Hospital
Leeds, United Kingdom
University Hospitals of Leicester
Leicester, United Kingdom
Guy's and St. Thomas
London, United Kingdom
...and 5 more locations
Progression Free Survival (PFS)
Progression free survival (PFS) was defined as time from Cycle 1 Day 1 to the earliest date of radiographic disease progression per RECIST 1.1 or death, whichever happened first. Censoring rules are defined in the SAP. PFS was analyzed using the K-M method.
Time frame: Radiographic tumor assessments were performed every 2 cycles of therapy. Follow-up assessments were made every 16 weeks for subjects who had not progressed and had not initiated new anticancer therapy.
Overall Survival (OS)
Overall survival (OS) was defined as time from Cycle 1 Day 1 to the date of death (or date last known to be alive). OS was analyzed using the K-M method.
Time frame: Follow-up assessments were made every 16 weeks for subjects who had not progressed and had not initiated new anticancer therapy.