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The study propose to generate a clinical trial based on precision medicine to evaluate the use of immunotherapy in patients with altered homologous recombination repair genes and without progression after prior targeted therapy.
Full description
With the development of cost effective and rapid technology of genome sequencing, precision medicine becomes a new way to think oncology. Current targets involve mainly tyrosine kinase, but DNA repair machinery could also be targetable. Some of DNA repair aberrations have been associated with sensitivity to platinum and poly (adenosine diphosphate [ADP]-ribose) polymerase (PARP) inhibitors like Olaparib, suggesting that treatment with a PARP inhibitor may exploit a synthetic lethal interaction when the presence of alteration of the homologous repair pathway was observed. PARP is involved in multiple aspects of DNA repair, and the PARP inhibitor Olaparib has recently been approved for treating ovarian cancers with BRCA1/2 mutations. In addition, it showed that using a high-throughput, next-generation sequencing assay in prostate cancer, detection of genomic alteration in genes involved in homologous repair pathway BRCA2, ATM, BRCA1, PALB2, CHEK2, FANCA, and HDAC2, is associated with response to olaparib. Thus demonstrating the clinical validation of the usage of precision medicine to position PARP inhibitor like olaparib in different cancer types based on molecular analysis.
Preclinical studies showed DNA damage promotes neoantigen expression. It is possible that increased DNA damage by PARPi would yield greater mutational burden and expand neoantigen expression, leading to greater immune recognition of the tumor. PARPi is also associated with immunomodulation. The PARPi talazoparib increases the number of peritoneal CD8+ T cells and natural killer cells and increases production of interferon (IFN)-γ and tumor necrosis factor-α in a BRCA1-mutated ovarian cancer xenograft model. Hence, addition of PARPi to immune checkpoint blockade could complement the clinical benefit of immune checkpoint inhibition.
Such high level of mutation results in high number of neoantigen and antitumor immune response thus given the rational to use immunotherapy to target such type. A recent paper validate this strategy using the anti PD-1 pembrolizumab Some case reports suggest also that other mutations that induce hypermutated tumor (POLD, POLE, or MYH) could gain benefit from anti PD-1 therapy. Additional DNA repair machinery dysfunction may lead to accumulation of mutations. And such level of mutations could induce better response to immunotherapy. In the lung non-small cell setting high mutation rate were associated with better efficacy of both nivolumab and pembrolizumab.
Enrollment
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Inclusion criteria
Inclusion Criteria from STEP 1:
Capable of giving signed informed consent
Exome sequencing of tumor and constitutive DNA should have been already performed
Patients must be diagnosed with a solid malignancy with the following cancer histologically confirmed with specified inclusion for each cohort:
Metastatic breast cancer:
• In second line
• third line and after
Metastatic lung cancer:
Metastatic head and Neck cancer
• Must have progressed after at least a first line with platinum based therapy
Metastatic endometrial cancer • Progression after 1 prior systemic, platinum-based chemotherapy regimen for EC. Participants may have received up to 1 additional line of platinum-based chemotherapy if given in the neoadjuvant or adjuvant treatment setting. There is no restriction regarding prior hormonal therapy
Metastatic clear cell renal cancer
• Must have progressed after at least a line with anti-angiogenic agent. Metastatic pancreatic cancer
• Must have progressed after at least a line with FOLFIRINOX regimen and/or Gemcitabin based chemotherapy
Locally advanced or metastatic ovarian cancer
• Must have received at least one and no more than two lines of prior platinum-containing therapy and progressed after the most recent platinum therapy in a platinum-sensitive timeframe (more than 6 months from the last dose of platinum before randomization)
Metastatic urothelial cancer • From the second line and regardless previous treatment (except immunotherapy)
Metastatic prostate cancer
Presence of mutation in homologous repair gene
Age >18 years
Performance status ECOG of 0 or 1.
Life expectancy ≥ 6 months.
At least one lesion measurable as defined by standard imaging criteria for the patient's tumor type (RECIST v1.1)
Body weight >30 kg.
Postmenopausal or evidence of non-childbearing status for women of childbearing potential
Male patients must use a condom during treatment of STEP1 (olaparib) and STEP2 (durvalumab and tremelimumab) and for 180 days after the last dose when having sexual intercourse with a pregnant woman or with a woman of childbearing potential. Female partners of male patients should also use a highly effective form of contraception if they are of childbearing potential
Patient is willing and able to comply with the protocol for the duration of the study.
For all oral medications patients must be able to comfortably swallow capsules;
Inclusion criteria STEP 2
Exclusion criteria
Exclusion criteria of STEP 1
Involvement in the planning and/or conduct of the study
Patient with mBRCA1 / 2 that are eligible for current marketing authorization for olaparib (ovarian cancer),and patient eligible for AstraZeneca registration clinical trials, particularly for the prostate cohort
Specific exclusion criteria each cohort:
Metastatic breast cancer:
• Only for patient second line : patient with mBRCA1 / 2 that are eligible for current marketing authorization for Olaparib (ovarian cancer) and patient eligible for AstraZeneca registration clinical trials).
Metastatic lung cancer
Metastatic prostate cancer
• Untreated or first line patients
Metastatic head and Neck cancer, Metastatic endometrial cancer, Metastatic clear cell renal cancer, Metastatic pancreatic cancer & Metastatic urothelial cancer:
• None
Participation in another clinical study with an investigational product during within 2 months of first administration of Olaparib.
Concurrent enrolment in another clinical study, unless it is an observational (non-interventional) clinical study or during the follow-up period of an interventional study
Receipt of the last dose of anticancer therapy ≤21 days prior to the first dose of olaparib or 5 times its half-life, whichever is less.
Any unresolved toxicity NCI CTCAE Grade ≥2 from previous anticancer therapy with the exception of alopecia, ototoxicity, vitiligo, and the laboratory values defined in the inclusion criteria
Any concurrent chemotherapy, IP, biologic, or hormonal therapy for cancer treatment. Concurrent use of hormonal therapy for non-cancer-related conditions (e.g., hormone replacement therapy) is acceptable.
Radiotherapy treatment to more than 30% of the bone marrow or with a wide field of radiation within 4 weeks of the first dose of study drug. Radiotherapy (non-palliative) within 21 days prior the first dose of study drug or within 6 weeks for therapeutic doses of MIBG or craniospinal irradiation. Palliative RT (which would be <30% of the bone marrow) to non-target lesions is allowed.
Major surgical procedure within 28 days prior to the first dose of olaparib and patients must have recovered from any effects of any major surgery.
Patients unable to swallow orally administered medication and patients with Impairment of gastrointestinal (GI) function or GI disease that may significantly alter drug absorption of oral drugs
History of allogenic organ, bone marrow or double umbilical cord blood transplantation.
Active or prior documented autoimmune or inflammatory disorders
Uncontrolled intercurrent illness or patient considered a poor medical risk due to a serious, uncontrolled medical disorder, including but not limited to, ongoing or active infection, symptomatic congestive heart failure
Currently taking medications with known risk of prolonging the QT interval or inducing Torsades de Pointes.
Concomitant use of known strong or moderate CYP3A inducers.
Resting ECG indicating uncontrolled, potentially reversible cardiac conditions or patients with congenital long QT syndrome
Patients with myelodysplastic syndrome/acute myeloid leukaemia or with features suggestive of MDS/AML.
History of another primary malignancy
History of leptomeningeal carcinomatosis
Patient with symptomatic central nervous system (CNS) metastases who are neurologically unstable or require increasing doses of corticosteroids or local CNS-directed therapy to control their CNS disease.
History of active primary immunodeficiency
Immunocompromised patients
Active infection including tuberculosis, hepatitis B, hepatitis C, or human immunodeficiency virus. Patients with a past or resolved HBV infection are eligible. Patients positive for hepatitis C (HCV) antibody are eligible only if polymerase chain reaction is negative for HCV RNA.
Current or prior use of immunosuppressive medication within 14 days before the first dose of durvalumab or tremelimumab.
Receipt of live attenuated vaccine within 30 days prior to the first dose of IP.
Female patients who are pregnant or breastfeeding or male or female patients of reproductive potential
Prior treatment with any PARP inhibitor including olaparib or immunotherapy.
Concomitant use of known strong or moderate cytochrome CYP3A inhibitors and concomitant use of known strong or moderate CYP3A inducers.
Exclusion criteria of STEP 2
Patients should not enter the study if any of the exclusion criteria from STEP 1 and the following criteria for STEP 2 are fulfilled:
Patient with progression observed on CT scan performed after 6 weeks of olaparib (STEP 1).
Primary purpose
Allocation
Interventional model
Masking
270 participants in 1 patient group
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Central trial contact
Emilie REDERSTORFF
Data sourced from clinicaltrials.gov
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