Immune-suppressing protein may predict how patients respond to treatment

The presence of an immune-suppressing protein in non-cancerous immune cells may predict how patients with different types of cancer respond to treatment, a multi-center phase I study using an investigational immune therapy drug has found.

The study, led by a Yale Cancer Center investigator, is described in the Nov. 27 edition of the journal Nature.

The trial included patients with melanoma or cancers of the lung, kidney, colon, GI tract, or head and neck, whose tumors were evaluated for PD-L1 expression by a novel assay. PD-L1 is a protein expressed by many tumor types that is believed to act as a stop sign that prevents the immune system from attacking cancer cells. Patients were treated with MPDL3280A, a drug that blocks PD-L1 and is being developed by Genentech, a member of the Roche group.

The trial differed from other immune therapy trials in that it incorporated serial biopsies of patients before and during treatment to identify a tumor profile that predicts response to treatment, said the paper's first author, Roy Herbst, Ensign Professor of Medicine at Yale Cancer Center, professor of pharmacology, and chief of medical oncology in Yale Cancer Center and Smilow Cancer Hospital at Yale-New Haven.
"We knew that the expression of PD-L1 in tumor cells is critical in blocking the immune system so we were intrigued to find that the expression of PD-L1 in non-tumor cells such as macrophages also predicted drug response," said Herbst.

The serial biopsies revealed the characteristics of both functional and non-functional immune responses and provided a baseline for how patients respond and don't respond to treatment.

"We can begin learning how to use combination therapies to affect the immune response cycle," Herbst said.

Of the 175 patients enrolled, 21% showed partial or complete response to MPDL3280A, with some being rapid and durable. Across all tumor types, 46% of patients with high PD-L1 expression on non-tumor cells showed a partial or complete response. Also notable was the finding that smokers responded better to the drug than non-smokers. This could provide insight into how smokers and nonsmokers respond differently to drugs, said the researchers.

Herbst said the drug is in phase II and III trials at Yale.

Also published in the same issue of Nature are additional findings from this same trial, including the response of advanced bladder cancer patients who did not respond to other treatments. This expansion arm study was co-authored by Thomas Powles of Queen Mary University Hospital of London with Daniel P. Petrylak, professor of medicine and urology at Yale Cancer Center, and Joseph Paul Eder, professor of medicine at Yale Cancer Center. Petrylak presented the findings earlier this year at ASCO's annual conference.

"It is encouraging that a trial that began in lung, melanoma, and renal cancer expanded to bladder cancer, another smoking-related cancer, with such promising results," Herbst added.

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