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AR-V7+ prostate cancer: benefits from combination of two checkpoint blockers, Ipilimumab and Nivolumab

Researchers at the Johns Hopkins Kimmel Cancer Center and the Bloomberg~Kimmel Institute for Cancer Immunotherapy ( BKI ) released a study investigating the use of combination checkpoint immunotherapy in the treatment of a lethal form of advanced prostate cancer.
The study suggested a genetic subset of prostate cancer may benefit from this form of immunotherapy.

The study targeted AR-V7+ prostate cancer with a combination of two checkpoint blockers, Ipilimumab ( Yervoy ) and Nivolumab ( Opdivo ), in 15 patients with this aggressive variant, first discovered at Johns Hopkins in 2014.

This is the first clinical trial to target this specific form of prostate cancer, which can kill patients in only six to nine months and has inadequate treatment options.
It is the first reported study of combination immunotherapy using both Ipilimumab and Nivolumab in prostate cancer.

The study was published in Oncotarget.

Patients on the trial received treatment by IV infusion consisting of 3 milligrams per kilogram of Nivolumab plus 1 milligram per kilogram of Ipilimumab every three weeks for four doses, followed by a maintenance regimen of 3 milligrams per kilogram of Nivolumab alone every two weeks thereafter.
The patients were enrolled between December 2016 and October 2017.

The data showed two out of the 15 men ( 13% ) experienced a decrease in the level of prostate-specific antigen ( PSA ) of at least 50%.
More encouragingly, one-quarter of patients achieved an objective response, meaning that their tumors shrank partially or completely with combination immunotherapy. These responses were typically lasted at least nine months.
At least two of the patients remain alive for more than 18 months, which is much longer than expected for men with AR-V7+ prostate cancer.

Six of 15 patients ( 40% ) had a genetic subtype of prostate cancer that harbored somatic and/or germline mutations in one DNA-repair genes involved in the BRCA pathway, first shown to predispose women to breast and ovarian cancer.
In these six men, gene mutations of BRCA2, ATM, and ERCC4 were individually detected in those patients.

All of the benefit from Ipilimumab plus Nivolumab appeared to occur in patients who had one of these gene mutations, particularly in two men with BRCA2 mutations.
This finding is important, because BRCA2 is not a gene that was previously thought to sensitize patients to immune checkpoint inhibitors and, if true, will have profound implications for other diseases, such as breast and ovarian cancers where these genes are frequently mutated.
In the setting of prostate cancer, about 20-25% of patients have mutations in BRCA2 and related genes, which are involved in a DNA-repair process called homologous recombination.
This study suggests that these gene mutations may be even more common in men with the AR-V7+ type of prostate cancer.

While prostate cancer is generally regarded as a low-mutation-burden tumor and immune-checkpoint blockade has resulted in only rare clinical regressions when used as a monotherapy, the data suggested AR-V7+ prostate cancers may be associated with a greater number of DNA-repair gene mutations and a higher mutation load and could be further exploited by using combination immunotherapy.

The study has shown the combination of Nivolumab plus Ipilimumab demonstrated acceptable safety and tolerability in men with AR-V7+ advanced prostate cancer. ( Xagena )

Source: Johns Hopkins Kimmel Cancer Center, 2019