Novel drug targets tumor growth in advanced kidney cancer
Harvard researchers at Dana-Farber Cancer Institute have developed a novel targeted drug that shows promise in advanced kidney cancer by interfering with the abnormal blood vessel formation that fuels tumor growth.
Researchers from Dana-Farber Cancer Institute report a response rate of 24 percent across all risk categories of patients given an oral first-in-class agent that targets hypoxia inducible factor (HIF) 2-a, which promotes new blood vessel growth that fuels kidney tumors.
Based on these findings, a phase III trial has been launched.
“A new drug [MK-6482] as a single agent showing an overall response rate of 24 percent across all risk categories — poor, intermediate, and good, and in a heavily refractory population — is quite promising,” said Toni Choueiri , first author of the abstract. Choueiri is director of the Lank Center for Genitourinary Oncology and the Jerome and Nancy Kohlberg Professor of Medicine at Harvard Medical School.
The drug targets a component of the body’s mechanism for sensing oxygen levels and turning on genes that enable the body to adjust to hypoxia — a shortage of oxygen — by making more red blood cells and forming new blood vessels. Dana-Farber scientist and Choueiri’s mentor and collaborator William G. Kaelin Jr. shared the 2019 Nobel Prize in medicine with two other researchers for unraveling this complex mechanism, which can be hijacked by cancer to help tumors survive and grow.
In the vast majority of patients with clear cell renal carcinoma, a tumor suppressor protein known as Von Hippel-Lindau (VHL) is not functional. As a result, HIF proteins accumulate inside the tumor cell, wrongly signaling a shortage of oxygen, and activating the formation of blood vessels, fueling tumor growth. Understanding this abnormal process has paved the way for new cancer drugs. MK-6482 is one of them, and is distinct in that it targets HIF-2a directly, leading to blocking cancer cell growth, proliferation, and abnormal blood vessel formation.
The study of MK-6482 included 55 patients with advanced clear cell kidney cancer who had an average of three prior lines of therapies.
After a median follow-up period of 13 months, the overall response rate was 24 percent. Forty-one patients had stable disease with a disease control rate (complete response plus partial response plus stable disease) of 80 percent. There were partial responses in two of five favorable-risk patients; 10 of 40 intermediate-risk patients; and one of 10 poor-risk patients.
The median duration of response had not been reached: 81 percent of patients had an estimated response of more than six months, and 16 patients continued treatment beyond 12 months. The median progression-free response rate was 11 months.
The presentation ( Abstract 611 ) is scheduled for Oral Abstract Session C: Renal Cell Cancer on Saturday at the ASCO 2020 Genitourinary Cancers Symposium in the Moscone West Building, San Francisco.
Choueiri has pending patents for biomarkers of immune checkpoint blockers. Choueiri’s disclosures include grants, personal fees, or nonfinancial support from Agensys, Alexion, Alligent, Analysis Group, AstraZeneca, Bayer, Bristol-Myers Squibb, Calithera, Cerulean, Clinical Care Options, Corvus, Eli Lilly, Esai, Exelixis, Foundation Medicine Inc., Genentech, Roche, F. Hoffman-La Roche, GlaxoSmithKline, Heron Therapeutics, Harborside Press, American Society of Medical Oncology, Ipsen, NCCN, Kidney Cancer Journal , L-path, Merck, Michael J. Hennessy Associates, Research to Practice, Navinata Healthcare, NEJM , Novartis, Peloton, Pfizer, EMD Serono, Platform Q, Prometheus Labs, Sanofi/Aventis, Takeda, Tracon, Pionyr, Tempest, The Lancet Oncology , and Up-to-Date.
Funding for this research was provided by Merck Sharp & Dohme Corp., a subsidiary of Merck & Co., Inc., Kenilworth, N.J.