A phase I study of intravenous and oral rucaparib in combination with chemotherapy in patients with advanced solid tumours.

BACKGROUND: This study evaluated safety, pharmacokinetics, and clinical activity of intravenous and oral rucaparib, a poly(ADP-ribose) polymerase inhibitor, combined with chemotherapy in patients with advanced solid tumours.
METHODS: Initially, patients received escalating doses of intravenous rucaparib combined with carboplatin, carboplatin/paclitaxel, cisplatin/pemetrexed, or epirubicin/cyclophosphamide. Subsequently, the study was amended to focus on oral rucaparib (once daily, days 1-14) combined with carboplatin (day 1) in 21-day cycles. Dose-limiting toxicities (DLTs) were assessed in cycle 1 and safety in all cycles.
RESULTS: Eighty-five patients were enrolled (22 breast, 15 ovarian/peritoneal, and 48 other primary cancers), with a median of three prior therapies (range, 1-7). Neutropenia (27.1%) and thrombocytopenia (18.8%) were the most common grade ⩾3 toxicities across combinations and were DLTs with the oral rucaparib/carboplatin combination. Maximum tolerated dose for the combination was 240 mg per day oral rucaparib and carboplatin area under the curve 5 mg ml-1 min-1. Oral rucaparib demonstrated dose-proportional kinetics, a long half-life (≈17 h), and good bioavailability (36%). Pharmacokinetics were unchanged by carboplatin coadministration. The rucaparib/carboplatin combination had radiologic antitumour activity, primarily in BRCA1- or BRCA2-mutated breast and ovarian/peritoneal cancers.
CONCLUSIONS: Oral rucaparib can be safely combined with a clinically relevant dose of carboplatin in patients with advanced solid tumours (Trial registration ID: NCT01009190).

The poly (ADP-ribose) polymerase (PARP) family includes enzymes that are involved in the repair of single-strand breaks, a common type of DNA damage, thus preventing the formation of DNA double-strand breaks (Schreiber ). The DNA double-strand breaks can be repaired by a separate process known as homologous recombination, mediated by BRCA1 and BRCA2 (Moynahan , 2001; Venkitaraman, 2002). Tumours harbouring a BRCA mutation or other defect in homologous recombination repair are sensitive to PARP inhibitors, because cells accumulate unrepaired single-strand breaks that are converted to double-strand breaks that cannot be repaired and therefore result in cell death (Bryant ; Farmer ; Helleday , 2008; Ashworth, 2008). Furthermore, studies have demonstrated that PARP inhibition can interfere with the alternative nonhomologous end-joining DNA repair pathway that is upregulated in homologous recombination-deficient cells (Helleday, 2011; Ceccaldi ; Konstantinopoulos ; Mateos-Gomez ). The PARP inhibitors can also result in trapping of PARP-1 and PARP-2 at the site of the DNA break, resulting in obstructed replication forks that require functional homologous recombination for repair (Helleday, 2011; Murai ; O'Connor, 2015).

Consistent with the role of PARPs in DNA repair, inhibiting PARP has been shown to increase the potency of DNA-damaging agents, such as chemotherapy and radiotherapy (Calabrese ; Donawho ; Thomas ; Ihnen ). Preclinical data suggest that a PARP inhibitor in combination with carboplatin or cisplatin has enhanced efficacy over either agent individually in BRCA-mutated tumours (Evers ; Drew ; Clark ). The synergistic effect of these combinations may be the result of an increase in DNA damage (e.g., intrastrand crosslinks) induced by platinum-based chemotherapies that requires repair through PARP-dependent pathways.

Rucaparib (formerly known as AG-014699 and PF-01367338) is a potent small-molecule inhibitor of PARP-1, PARP-2, and PARP-3 that is being developed for the treatment of ovarian cancer and other tumour types associated with homologous recombination deficiency (HRD), including BRCA1 and BRCA2 mutations (Thomas ; Drew ; Swisher ). In a phase II study in patients with advanced ovarian or breast cancer associated with a germline BRCA1/2 mutation, continuous dosing of single-agent oral rucaparib led to a higher rate of response than intermittent intravenous (i.v.) dosing (response rate, 18% vs 2%) (Drew ). A subsequent phase I–II dose-escalation study established the recommended phase II dose of single-agent oral rucaparib as 600 mg twice daily (Kristeleit ) and demonstrated the clinical activity and manageable safety profile of rucaparib in patients with advanced solid tumours, including BRCA-mutated ovarian and breast cancers (Kristeleit ; Shapira-Frommer ). In phase I and II studies, the combination of i.v. rucaparib and the DNA-alkylating agent temozolomide was active in patients with advanced solid tumours and resulted in increased activity compared with historical data of single-agent temozolomide in patients with metastatic melanoma (Plummer , 2013).

This phase I dose-escalation study evaluated rucaparib in combination with several standard chemotherapeutic regimens in patients with advanced solid tumours, independent of BRCA status. The study initially explored an i.v. formulation of rucaparib; however, during the conduct of this study, an oral formulation of rucaparib was developed that could be administered for a longer duration, and the study was amended to evaluate the oral bioavailability of this new formulation. Once bioavailability was established, the study was amended to evaluate oral rucaparib in combination with carboplatin. Here, we report final results from all patients enrolled in the study, with a focus on those who received oral rucaparib in combination with carboplatin.

Materials and methods

Study design

This study was an open-label, multicentre, dose-escalating phase I study of rucaparib administered in combination with one of four different standard chemotherapeutic regimens (NCT01009190). Eligible patients ⩾18 years of age had a histologically or cytologically confirmed advanced solid tumour, an Eastern Cooperative Oncology Group (ECOG) Performance Status of 0 or 1, life expectancy of ⩾12 weeks, and adequate bone marrow, liver, and renal function. All BRCA testing was done locally and was not verified by the sponsor. The primary objective was to assess safety and tolerability and estimate the maximum tolerated dose (MTD) and/or select the recommended phase II dose of rucaparib in combination with chemotherapy. Secondary objectives were to characterise the pharmacokinetics (PK) and assess the antitumour activity of rucaparib when combined with chemotherapy.

The study was approved by the Research Ethics Committee for all participating institutions and conducted in accordance with the Declaration of Helsinki and the Good Clinical Practice Guidelines of the International Conference on Harmonisation. Patients gave written informed consent before undergoing any study-related procedures.

Treatments

Patients received escalating doses of i.v. rucaparib (days 1–3) with standard doses of chemotherapeutic regimens. Initial starting doses for each chemotherapy were as follows: arm A, rucaparib (24 mg)+carboplatin (area under the curve 4 mg min ml−1 (AUC4)); arm B, rucaparib (24 mg)+carboplatin (AUC4)+paclitaxel (140 mg m−2); arm C, rucaparib (24 mg)+cisplatin (60 mg m−2)+pemetrexed (400 mg m−2); and arm D, rucaparib (12 mg)+epirubicin (30 mg m−2)+cyclophosphamide (300 mg m−2) (Figure 1). Initially, patients received chemotherapy (day 1) and i.v. rucaparib (days 1–3) in 21-day treatment cycles. However, during the conduct of the study, an oral formulation of rucaparib was developed and introduced under a protocol amendment, with an additional secondary objective to determine its absolute oral bioavailability. Subsequently, the i.v. rucaparib arms were discontinued and three of the chemotherapy arms (B, C, and D) were closed to further enrolment. Thereafter, all enrolled patients received oral rucaparib in combination with i.v. carboplatin (arm A, oral rucaparib) (Figure 1).

Figure 1

Study treatment arms.

Treatment with rucaparib in combination with chemotherapy was continued until progression, unacceptable toxicity, patient's withdrawal of consent, or as deemed appropriate by the judgement of the treating physician (whichever came first).

Oral rucaparib in combination with carboplatin

Patients received lead-in doses of i.v. and oral rucaparib on days −10 and −5, respectively, followed by carboplatin (AUC3, 4, or 5) on day 1 and oral rucaparib on days 1–14 of every 21-day treatment cycle. The i.v. lead-in dose of rucaparib was discontinued once sufficient bioavailability data for oral rucaparib were available. The starting dose of 80 mg oral rucaparib was based on the safety established with up to 24 mg m−2 i.v. rucaparib in combination with chemotherapy and an oral bioavailability of 36%. The protocol prespecified dose cohorts of 80, 120, and 180 mg oral rucaparib, after which rucaparib was to be escalated in 50% increments. Additional doses of 240 and 360 mg were subsequently evaluated. Similarly, carboplatin dosing began at AUC3, with a plan to escalate to AUC5 once the MTD of rucaparib was established; however, escalation was modified to evaluate AUC4 carboplatin before escalating to AUC5. Patients discontinuing carboplatin could continue to receive oral rucaparib.

Safety and efficacy assessments

Safety assessments included collection of adverse events (AEs) and serious AEs (defined by National Cancer Institute Common Terminology Criteria for Adverse Events version 3.0; Pedersen ), as well as vital signs, physical examination, 12-lead electrocardiogram, laboratory assessments, and verification of concurrent medications. Safety variables and demographic data were presented descriptively. The safety analysis set included all enrolled patients who started treatment.

Dose-limiting toxicities (DLTs) were defined as any of the following occurring during cycle 1: grade 4 neutropenia lasting ⩾7 days; febrile neutropenia; grade 3 thrombocytopenia lasting ⩾7 days with bleeding or grade 4 thrombocytopenia lasting >3 days; grade ⩾3 toxicity despite the use of adequate/maximal medical interventions and/or prophylaxis as dictated by local institutional clinical practices or the judgement of the investigator; grade 2 neurotoxicity that did not recover to grade ⩽1 within 2 weeks of planned dose; toxicities that resulted in a delay of >14 days in initiation of cycle 2 dosing; or toxicities that resulted in failure to deliver ⩾80% of the assigned oral rucaparib doses.

Initially, at least three patients were treated at each dose level. If no DLT was observed, the dose was escalated for the next cohort of three patients. If a DLT was observed in one of the three patients, three additional patients were enrolled and treated at the same dose level. If no further DLT was observed, the next dose level was opened. Dose escalation continued until DLTs were observed in at least two of the three to six patients treated at that dose level; this dose was then considered above the MTD and further dose escalations were stopped. When a dose was concluded to be above the MTD, the preceding lower dose was declared the MTD, but only if six patients had already been treated at this lower dose. Otherwise, three additional patients were treated at this lower dose, and if none or one of those patients had a DLT, this lower dose was declared the MTD.

All patients who received at least one dose of study medication were evaluable for toxicity. Patients were considered nonevaluable for DLT assessments if they missed the rucaparib lead-in doses, had administration of <80% of the planned cycle 1 doses of rucaparib, and/or had administration of <80% of the planned cycle 1 doses of chemotherapy for that dose level (provided that the reduction did not result from toxicity).

Antitumour activity was assessed by the investigators according to Response Evaluation Criteria in Solid Tumor version 1.1 (RECIST) (Eisenhauer ) through radiological tumour assessments performed every two cycles and/or at the end of treatment, whichever occurred first.

Pharmacokinetics

On cycle 1 days −10, −5, 1, and 14, plasma samples were obtained from all patients before rucaparib dosing and at 15 and 30 min, and at 1, 1.5, 2.5, 4, 6, 10, and 24 h after the start of the rucaparib administration (i.v. infusion (day −10) or oral (days −5, 1, and 14)). On cycle 1 days −10 and −5, samples were also obtained 48 h after the start of rucaparib administration. Rucaparib concentration was determined using liquid chromatography with tandem mass spectrometry. The PK assay was validated by York Bioanalytical Solutions (York, UK) in accordance with the US Food and Drug Administration's Bioanalytical Method Validation Guidance for Industry and Crystal City III Conference (US Food and Drug Administration, 2001; Viswanathan ; Fast ). The PK concentration analysis population was defined as all treated patients who had at least one concentration measurement in at least one treatment period (cycle 1). The PK parameter analysis population was defined as all treated patients who had at least one of the PK parameters of interest in at least one treatment period (cycle 1).

Standard plasma PK parameters for rucaparib were estimated using noncompartmental methods and included: maximum plasma drug concentration (Cmax); area under the plasma concentration time curve from time 0 to the last sampling time with measurable values (AUC0–) and from time 0 to 24 h (AUC0–24); and half-life (t1/2). Plasma clearance or apparent plasma clearance and steady-state volume of distribution were calculated for rucaparib. The oral bioavailability of rucaparib was calculated as the ratio of dose-normalised AUC0– or AUCinf (data permitting) determined using oral rucaparib PK data collected on cycle 1 day −5 to that determined using the i.v. PK data collected on cycle 1 day −10. Pharmacokinetic parameters were summarised with the geometric mean and the coefficient of variation (CV). The ratio of Cmax and AUC0–24 of rucaparib administered in combination with chemotherapies to those of rucaparib alone was calculated and summarised, with mean and CV% to evaluate the effect of chemotherapies on the PK of rucaparib for both the i.v. dose (day −10) and oral dose (day −5). Additional PK parameters examined and analyses performed are described in the Supplementary Methods.

Results

Patients and treatments

Eighty-five patients were enrolled at seven sites in the United Kingdom and France (Table 1). Median age was 55 years (range, 20–76 years), approximately two-thirds of patients were female, and all had an ECOG Performance Status of 0 or 1. Of the 85 patients, 22 (25.9%) had breast cancer, 15 (17.6%) had ovarian/peritoneal cancer, 8 (9.4%) had lung cancer, 4 (4.7%) each had pancreatic or rectal cancer, 31 (36.5%) had other primary cancers, and 1 (1.2%) patient had a carcinoma of unknown primary origin. The BRCA test results were unavailable for most patients (78.8% and 81.2% of patients did not undergo BRCA1 or BRCA2 testing, respectively). The median number of prior anticancer therapies was three (range, 1–7).

Table 1

Patient demographics and disease characteristics

Variable	Arm A, i.v. rucaparib+carboplatin (n=18)	Arm B, i.v. rucaparib+carboplatin/paclitaxel (n=13)	Arm C, i.v. rucaparib+cisplatin/pemetrexed (n=16)	Arm D, i.v. rucaparib+epirubicin/ cyclophosphamide (n=5)	Arm A, oral rucaparib+carboplatin (n=33)	All patients (N=85)
Median age (range), years	51.5 (23–68)	61.0 (39–69)	50.5 (32–68)	41.0 (32–53)	61.0 (20–76)	55.0 (20–76)
Gender, n (%)
Female	11 (61.1)	7 (53.8)	10 (62.5)	4 (80.0)	23 (69.7)	55 (64.7)
Male	7 (38.9)	6 (46.2)	6 (37.5)	1 (20.0)	10 (30.3)	30 (35.3)
Race, n (%)
Asian	0	0	1 (6.3)	0	0	1 (1.2)
Black	1 (5.6)	1 (7.7)	0	0	0	2 (2.4)
White	17 (94.4)	12 (92.3)	15 (93.8)	5 (100.0)	33 (100.0)	82 (96.5)
ECOG PS, n (%)
0	7 (38.9)	6 (46.2)	6 (37.5)	5 (100.0)	16 (48.5)	40 (47.1)
1	11 (61.1)	7 (53.8)	10 (62.5)	0	17 (51.5)	45 (52.9)
Primary cancer diagnosis, n (%)
Breast	7 (38.9)	1 (7.7)	4 (25.0)	4 (80.0)	6 (18.2)	22 (25.9)
Ovarian/peritoneal	2 (11.1)	1 (7.7)	2 (12.5)	0	10 (30.3)	15 (17.6)
Lung	1 (5.6)	2 (15.4)	1 (6.3)	1 (20.0)	3 (9.1)	8 (9.4)
Pancreas	0	0	2 (12.5)	0	2 (6.1)	4 (4.7)
Rectal	3 (16.7)	0	0	0	1 (3.0)	4 (4.7)
Unknown primary	1 (5.6)	0	0	0	0	1 (1.2)
Othera	4 (22.2)	9 (69.2)	7 (43.8)	0	11 (33.3)	31 (36.5)
BRCA1 test results, n (%)
Positive	2 (11.1)	1 (7.7)	2 (12.5)	0	2 (6.1)	7 (8.2)
Negative	3 (16.7)	0	0	3 (60.0)	3 (9.1)	9 (10.6)
Unknown	0	0	0	0	2 (6.1)	2 (2.4)
Not tested	13 (72.2)	12 (92.3)	14 (87.5)	2 (40.0)	26 (78.8)	67 (78.8)
BRCA2 test results, n (%)
Positive	2 (11.1)	0	0	0	1 (3.0)	3 (3.5)
Negative	1 (5.6)	1 (7.7)	2 (12.5)	3 (60.0)	4 (12.1)	11 (12.9)
Unknown	1 (5.6)	0	0	0	1 (3.0)	2 (2.4)
Not tested	14 (77.8)	12 (92.3)	14 (87.5)	2 (40.0)	27 (81.8)	69 (81.2)
Median no. of prior anticancer therapies (min, max)	2.5 (1, 5)	2.0 (1, 6)	2.0 (1, 6)	3.0 (2, 5)	3.0 (1, 7)	3.0 (1, 7)

Abbreviations: ECOG PS=Eastern Cooperative Oncology Group Performance Status; i.v.=intravenous.

Primary cancer diagnosis sites, including: appendix (n=2), colon (n=2), endometrium (n=2), pleura (n=2), stomach (n=2), abdomen (n=1), adrenal glands (n=1), back (n=1), bladder (n=1), oesophagus (n=1), ear (n=1), face (n=1), forearm (n=1), gastroesophageal junction (n=1), left leg (n=1), liver (n=2), prostate (n=1), shoulder (n=1), skin (n=1), testes (n=1), and not available (n=5).

All patients had discontinued the study as of 2 April 2014. The median number of cycles initiated was 5 (range, 1–7) in arm A (i.v. rucaparib; n=18), 4 (range, 1–31) in arm A (oral rucaparib; n=33), 4 (range, 1–6) in arm B (n=13), 4 (range, 1–7) in arm C (n=16), and 1 (range, 1–4) in arm D (n=5). Eight of 18 (44.4%) patients from arm A (i.v. rucaparib) and 17 of 33 (51.5%) patients from arm A (oral rucaparib) had one or more delays (⩾1 week) between treatment cycles. These occurred between cycles 1 and 2 in 1 (5.6%) patient in arm A (i.v. rucaparib) and 9 (27.3%) patients in arm A (oral rucaparib). Four of 18 (22.2%) patients from arm A (i.v. rucaparib) had a dose reduction of carboplatin; 8 of 33 (24.2%) patients from arm A (oral rucaparib) had a dose reduction, including 6 (21.2%) of carboplatin, 1 (3.0%) of rucaparib, and 1 (3.0%) of both drugs. Across all cohorts, 76 (89.4%) discontinued treatment with the following as the primary reason: objective progression or relapse (42 patients, 55.3%), AE (14 patients, 18.4%), global deterioration of health status (8 patients, 10.5%), no longer willing to participate in the study (5 patients, 6.6%), and other (7 patients, 9.2%). Specifically, in arm A (oral rucaparib; n=33) patients discontinued treatment primarily because of objective progression or relapse (18 patients, 54.5%), global deterioration of health status (5 patients, 15.2%), AE (3 patients, 9.1%), no longer willing to participate in the study (2 patients, 6.1%), and other (5 patients, 15.2%).

Dose-limiting toxicity and maximum tolerated dose

In arm A (oral rucaparib), no patients experienced a DLT at doses up to 360 mg rucaparib in combination with AUC4 carboplatin. The first three patients who received 360 mg rucaparib in combination with AUC5 carboplatin experienced dose interruptions associated with neutropenia, although these were grade ⩽3 and did not meet the protocol-specified definition of a DLT. Therefore, a decision was made to enrol an additional three patients to further evaluate the safety and tolerability of this dose combination. Dose-limiting toxicities of grade 4 thrombocytopenia and grade 4 neutropenia were observed in the first two patients treated, and thus the third additional patient was not enrolled. The rucaparib dose was deescalated to 240 mg and three patients were treated. One patient experienced a DLT (grade 4 thrombocytopenia), and thus an additional three patients were enrolled. None of these three additional patients had a DLT. Therefore, AUC5 carboplatin and 240 mg once daily (q.d.) oral rucaparib was declared the MTD.

Dose-limiting toxicities were also reported in one patient in arm B who was receiving 36 mg rucaparib, 306 mg paclitaxel, and 610 mg carboplatin (grade 3 diarrhoea and grade 3 nausea) and in one patient in arm C who was receiving 12 mg rucaparib, 900 mg pemetrexed, and 135 mg cisplatin (grade 3 fatigue, grade 4 leukopenia, and grade 4 neutropenia). Because of a decision to discontinue recruitment to the i.v. rucaparib arms during the study, no MTD was determined for arms A (i.v. rucaparib), B, C, and D that evaluated i.v. rucaparib in combination with chemotherapy.

Adverse events

All except one patient experienced an AE during the study. Adverse events occurring in >20% of patients in any treatment group are summarised in Table 2. Across the treatment arms, AEs were generally grade 1 or 2 in severity. The most common AEs (with ⩾30% incidence in all patients) across groups were gastrointestinal events (i.e., nausea, constipation, vomiting, and diarrhoea), fatigue, and events related to myelosuppression (i.e., anaemia, neutropenia, and thrombocytopenia). Grade ⩾3 AEs were reported in 64 of 85 patients (75.3%), the most frequent of which were neutropenia (23 patients, 27.1%), thrombocytopenia (16 patients, 18.8%), fatigue (11 patients, 12.9%), anaemia (10 patients, 11.8%), nausea (6 patients, 7.1%), and the following in 5 patients (5.9%) each: vomiting, γ-glutamyltransferase increased, and dyspnoea. Myelosuppression was managed through transfusion or supportive medication when necessary; one patient (in arm C) received granulocyte colony-stimulating factor in response to grade 2 neutropenia. Treatment-related AEs, as assessed by investigators, were reported in 94.1% of patients (Supplementary Table S1).

Table 2

Treatment-emergent adverse events of any grade reported in >20% of patients in any treatment group

					Arm A, oral rucaparib+carboplatin (n=33) n (%)
Event	Arm A, i.v. rucaparib+carboplatin (n=18), n (%)	Arm B, i.v. rucaparib+carboplatin/paclitaxel (n=13), n (%)	Arm C, i.v. rucaparib+cisplatin/pemetrexed (n=16), n (%)	Arm D, i.v. rucaparib+epirubicin/ cyclophosphamide (n=5), n (%)	Any grade	Grade ⩾3	All patients (N=85), n (%)
Nausea	14 (77.8)	7 (53.8)	10 (62.5)	4 (80.0)	23 (69.7)	4 (12.1)	58 (68.2)
Fatigue	14 (77.8)	4 (30.8)	14 (87.5)	1 (20.0)	20 (60.6)	2 (6.1)	53 (62.4)
Constipation	10 (55.6)	5 (38.5)	9 (56.3)	1 (20.0)	17 (51.5)	1 (3.0)	42 (49.4)
Vomiting	8 (44.4)	5 (38.5)	8 (50.0)	1 (20.0)	16 (48.5)	4 (12.1)	38 (44.7)
Anaemia	6 (33.3)	2 (15.4)	8 (50.0)	0	18 (54.5)	4 (12.1)	34 (40.0)
Neutropenia	8 (44.4)	7 (53.8)	8 (50.0)	0	11 (33.3)	7 (21.2)	34 (40.0)
Diarrhoea	7 (38.9)	5 (38.5)	9 (56.3)	1 (20.0)	11 (33.3)	1 (3.0)	33 (38.8)
Thrombocytopenia	6 (33.3)	3 (23.1)	5 (31.3)	0	15 (45.5)	9 (27.3)	29 (34.1)
Decreased appetite	5 (27.8)	0	4 (25.0)	2 (40.0)	12 (36.4)	0	23 (27.1)
Abdominal pain	3 (16.7)	3 (23.1)	1 (6.3)	0	12 (36.4)	2 (6.1)	19 (22.4)
Headache	5 (27.8)	2 (15.4)	4 (25.0)	1 (20.0)	7 (21.2)	0	19 (22.4)
Dyspnoea	5 (27.8)	1 (7.7)	5 (31.3)	1 (20.0)	7 (21.2)	2 (6.1)	19 (22.4)
Cough	2 (11.1)	0	6 (37.5)	0	8 (24.2)	0	16 (18.8)
Lethargy	1 (5.6)	6 (46.2)	1 (6.3)	0	7 (21.2)	0	15 (17.6)
Back pain	3 (16.7)	1 (7.7)	1 (6.3)	0	10 (30.3)	1 (3.0)	15 (17.6)
Alopecia	2 (11.1)	10 (76.9)	2 (12.5)	0	1 (3.0)	0	15 (17.6)
Stomatitis	4 (22.2)	6 (46.2)	1 (6.3)	1 (20.0)	2 (6.1)	0	14 (16.5)
Pyrexia	3 (16.7)	1 (7.7)	3 (18.8)	2 (40.0)	5 (15.2)	0	14 (16.5)
Dyspepsia	2 (11.1)	2 (15.4)	4 (25.0)	0	4 (12.1)	0	12 (14.1)
Oral candidiasis	1 (5.6)	2 (15.4)	6 (37.5)	1 (20.0)	1 (3.0)	0	11 (12.9)
Arthralgia	2 (11.1)	3 (23.1)	4 (25.0)	0	2 (6.1)	0	11 (12.9)
Neuropathy peripheral	0	7 (53.8)	3 (18.8)	0	0	0	10 (11.8)
Insomnia	1 (5.6)	0	5 (31.3)	0	3 (9.1)	0	9 (10.6)
Abdominal pain upper	2 (11.1)	1 (7.7)	0	2 (40.0)	3 (9.1)	1 (3.0)	8 (9.4)
Epistaxis	1 (5.6)	0	5 (31.3)	0	0	0	6 (7.1)
Tachycardia	2 (11.1)	0	4 (25.0)	0	0	0	6 (7.1)
Asthenia	0	0	0	4 (80.0)	0	0	4 (4.7)
Influenza-like illness	0	0	4 (25.0)	0	0	0	4 (4.7)

Abbreviation: i.v.=intravenous.

Across treatment arms, 22 patients (25.9%) discontinued treatment because of AEs that included neutropenia (3 patients, 3.5%), thrombocytopenia (2 patients, 2.4%), and platinum hypersensitivity (2 patients, 2.4%). While on study, 6 patients (7.1%) died of disease progression that was assessed as unrelated to study drug.

Rucaparib exposure increased approximately dose proportionally when given orally or intravenously (Supplementary Tables S2–S5). On study day 14, the steady-state AUC0–24 increased by an average of 61%, with no change in t1/2 compared with a single dose. Regardless of the administration route, the dose-independent t1/2 was ≈17 h as observed in patients from arm A (oral rucaparib) who received 27 mg i.v. rucaparib on day −10 and 80 mg oral rucaparib on day −5 (Figure 2). Rucaparib demonstrated good absorption, with a dose-independent mean oral bioavailability of 36% in the fasted state. Rucaparib oral PK was not affected by coadministration of AUC3 to AUC5 carboplatin (Table 3). No apparent impact on i.v. rucaparib PK was observed with coadministration of carboplatin+paclitaxel, cisplatin+pemetrexed, or epirubicin+cyclophosphamide (Table 3).

Figure 2

Plasma rucaparib concentration–time profile following i.v. or oral administration. Graph shows the geometric mean plasma concentration of rucaparib in patients in arm A (oral rucaparib) (n=4) who received i.v. and oral doses on days −10 and −5, respectively.

Table 3

Effect of carboplatin on oral rucaparib PK parameters and of chemotherapy on i.v. rucaparib PK parameters

	Ratio of rucaparib PK parameters,a mean (CV%)
	Cmax	AUC0–24
Oral rucaparib
Carboplatin dose
AUC3 (n=15)	1.25 (46)	1.27 (37)
AUC4 (n=3)	0.928 (24)	1.15 (51)
AUC5 (n=11)	1.14 (59)	1.00 (48)
Overall (n=29)	1.18 (49)	1.15 (87)
	Ratio of rucaparib PK parameters,b mean (CV%)
	Cmax	AUC0–24
i.v. rucaparib
Chemotherapy
Carboplatin (n=6)	1.03 (16)	1.02 (15)
Carboplatin+paclitaxel (n=6)	0.917 (16)	0.86 (8)
Cisplatin+pemetrexed (n=8)	0.853 (42)	0.959 (20)
Epirubicin+cyclophosphamide (n=5)	0.968 (29)	0.916 (34)

Abbreviations: AUC=area under the concentration time curve; AUC0–24=AUC for time 0 to 24 h; Cmax=maximum plasma drug concentration; CV=coefficient of variation; i.v.=intravenous; PK=pharmacokinetic.

Ratio of rucaparib PK parameter on day 1/day −5 with single oral dose of rucaparib (80, 120, 180, 240, and 360 mg) on day −5 and single oral dose of rucaparib (80, 120, 180, 240, and 360 mg) followed 1.5 h later with 30 min i.v. infusion of carboplatin (AUC3, AUC4, or AUC5) on day 1.

Ratio of rucaparib PK parameter on day 1/day −10 with i.v. dose of rucaparib (12, 18, or 24 mg) on day −10 and i.v. rucaparib plus i.v. chemotherapy on day 1; for AUC4, n=2 for AUC ratio; for overall, n=28 for AUC ratio.

Tumour response

Tumour response data were available for 77 of 85 patients. Across all cohorts, 1 patient (1.2%) with breast cancer achieved a confirmed complete response (CR) and 9 patients (10.6%) achieved a partial response (PR) that was confirmed in 7 patients (Table 4). Forty-three patients (50.6%) achieved stable disease (SD). Among patients with available data, across all cohorts, the disease control rate (CR, PR, or SD for ⩾12 weeks) was 68.8%. Three of 33 patients (9.1%) receiving oral rucaparib in combination with carboplatin had a confirmed PR. These included a patient with ovarian/peritoneal cancer (BRCA1 mutation, BRCA2 wild type) who had a PR for 7 months, a second patient with ovarian/peritoneal cancer (BRCA1 and BRCA2 wild type) who had a PR for 5 months, and a patient with breast cancer (BRCA1 mutation, BRCA2 not tested) who had a PR for 3 months. None of these patients had received prior PARP inhibitor therapy.

Table 4

Investigator-assessed objective tumour response

Best responsea	Arm A, i.v. rucaparib+carboplatin (n=18), n (%)	Arm B, i.v. rucaparib+carboplatin/paclitaxel (n=13), n (%)	Arm C, i.v. rucaparib+cisplatin/pemetrexed (n=16), n (%)	Arm D, i.v. rucaparib+epirubicin/ cyclophosphamide (n=5), n (%)	Arm A, oral rucaparib+carboplatin (n=33), n (%)	All patients (N=85), n (%)
Complete response	0	0	1 (6.3)	0	0	1 (1.2)
Partial response	3 (16.7)	1 (7.7)	2 (12.5)	0	3 (9.1)	9 (10.6)
Stable disease	9 (50.0)	8 (61.5)	7 (43.8)	1 (20.0)	18 (54.5)	43 (50.6)
Progressive disease	5 (27.8)	3 (23.1)	3 (18.8)	4 (80.0)	9 (27.3)	24 (28.2)
Missing	1 (5.6)	1 (7.7)	3 (18.8)	0	3 (9.1)	8 (9.4)

Abbreviation: i.v.=intravenous.

According to Response Evaluation Criteria in Solid Tumor version 1.1.

Discussion

This phase I study demonstrated that oral rucaparib can be safely combined with a clinically relevant dose of carboplatin in patients with an advanced solid tumour. The MTD and recommended dose for the combination is 240 mg q.d. rucaparib on days 1–14 with AUC5 carboplatin on day 1 in 21-day cycles.

Oral rucaparib demonstrated dose-proportional kinetics and a long t1/2 (≈17 h) with good oral bioavailability (36%) independent of dose, all of which are desirable characteristics for an oral agent. These PK findings with oral rucaparib are consistent with results from the phase I portion of an ongoing phase I–II study evaluating single-agent oral rucaparib in patients with advanced solid tumours (Kristeleit ). Pharmacokinetic exposure to oral rucaparib was not changed by carboplatin coadministration. When used in combination with AUC5 carboplatin, the i.v. rucaparib doses of 12, 18, and 24 mg evaluated were approximately equivalent to oral rucaparib doses of 33, 50, and 67 mg, respectively, representing 14%, 21%, and 28% of the MTD of 240 mg oral rucaparib.

As anticipated with the concurrent administration of chemotherapeutic agents with rucaparib, myelosuppression (anaemia, neutropenia, and thrombocytopenia) was commonly reported. Myelosuppression is a known toxicity associated with a high dose of PARP inhibitors and is also often observed with many chemotherapy regimens (Sandhu ; Plummer ; Kaufman ; Shapira-Frommer ). In our study, thrombocytopenia and neutropenia were DLTs and also the most common severe toxicities reported across all treatment arms. Myelosuppression was also observed in 54% of patients treated with the combination of i.v. rucaparib and temozolomide in another study (Plummer ). The combination of the PARP inhibitor olaparib with chemotherapy, including carboplatin, has also been associated with substantial hematologic toxicity in phase I studies of patients with an advanced solid tumour (Khan ; Rajan ; Samol ; Dent ; Lee ).

Rucaparib exhibited clinical activity in combination with chemotherapy in this study of heavily pretreated patients with advanced malignancies. More than two-thirds of all patients in the study had stable disease or better, and this is notable because patients were not preselected for HRD (only 10 of 85 patients were known to harbour a BRCA mutation). Of patients who received oral rucaparib and carboplatin, 63.6% achieved disease control for ⩾12 weeks, and PRs were reported in 3 patients with ovarian or breast cancer, 2 of whom had a known BRCA mutation. The benefits of inhibiting PARP in BRCA-mutated ovarian or breast cancer are well documented (Fong ; Audeh ; Tutt ; Kaye ; Sandhu ; Lee ). As a single agent, oral rucaparib has demonstrated activity against BRCA-mutated ovarian and breast cancer (Shapira-Frommer ; Drew ; Swisher ) and is currently being evaluated in phase III studies as both maintenance and treatment therapy for patients with relapsed, high-grade ovarian cancer (ARIEL3 (NCT01968213) and ARIEL4 (NCT02855944)).

When used in combination with carboplatin, the dose of rucaparib (240 mg q.d.) is lower than the MTD of single-agent rucaparib (600 mg twice daily). The lower dose of rucaparib in the combination fits with prior studies demonstrating a synergistic effect with combinations of PARP inhibitors and DNA-damaging agents at lower doses (Calabrese ; Donawho ; Thomas ; Ihnen ). Given that platinum-based chemotherapies increase the burden of DNA damage in cells, the addition of PARP inhibition increases the cytotoxicity of these agents by preventing repair of damaged DNA. Although PARP inhibitors in the single-agent setting have demonstrated benefits in DNA-repair-deficient cancers (e.g., BRCA-mutated ovarian cancer), combinations such as rucaparib and carboplatin may be useful in a wider population, including in cancers with and without homologous repair deficiency.

In conclusion, this study demonstrated that oral rucaparib can be safely combined with a clinically relevant dose of carboplatin; however, neutropenia and thrombocytopenia were commonly observed with the rucaparib/carboplatin combination. All patients who receive rucaparib in combination with carboplatin should be monitored carefully for myelosuppression. The oral and i.v. PK profile of rucaparib was not affected by coadministration of the chemotherapeutic agents that were investigated in this study. Three heavily pretreated patients who received oral rucaparib and carboplatin had a clinical response; further work investigating this combination may be warranted.