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Some sarcoma patients improve with T cell immunotherapy

Strategy effective against some rare, aggressive sarcomas with no other treatment options

by Julia Evangelou StraitMarch 28, 2024

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A clinical trial led by researchers at Washington University School of Medicine in St. Louis has shown that a T cell immunotherapy — in which the patients’ own T cells are genetically modified to attack and kill cancer cells — is effective in treating some patients with rare cancers of the body’s soft tissues.

The study, which focused on the rare cancers synovial sarcoma and myxoid round cell liposarcoma (MRCLS), is in The Lancet.

“When these rare sarcomas have spread, patients have few treatment options, and five-year survival rates are very low,” said senior author Brian A. Van Tine, MD, PhD, a Washington University professor of medicine who treats patients at Siteman Cancer Center, based at Barnes-Jewish Hospital and Washington University School of Medicine. “There is a great need for more effective therapies, but standard immunotherapies don’t work well for sarcomas. With this T cell immunotherapy, there is a subset of patients who have experienced an excellent long-term response. But for some patients, the treatment works for a little while and the cancer returns; and for others, it doesn’t work at all. We are hopeful we can build on the success of this clinical trial and make this type of therapy effective for more patients.”

The investigational immunotherapy that was used in the trial, called afamitresgene autoleucel (afami-cel), involves collecting a patient’s T cells and engineering them in the lab with a viral vector, a virus designed to deliver genetic material into cells. The viral vector adds a specific protein onto the surface of the T cells. When the modified T cells are returned to the patient, the new surface protein — a T cell receptor — directs the T cells to home in on the cancer cells for elimination. Most of these types of sarcomas have a protein on their surface called MAGE-A4, which the newly engineered T cells can then seek and destroy.

The immunotherapy was developed by the biopharmaceutical company Adaptimmune, which funded the international clinical trial. Siteman, which is a major referral center for sarcoma patients nationally, was one of the trial’s major sites.

The clinical trial involved 52 patients treated at 23 medical centers in North America and Europe. The trial included 44 patients with synovial sarcoma and eight with MRCLS. To participate in the trial, patients’ immune systems had to meet certain criteria in how they present antigens to T cells, to teach the T cells to identify the cancer.

About 36% of the patients (19 of 52) responded to the therapy with tumors shrinking or, in some cases, disappearing entirely. The treatment was more effective for patients with synovial sarcoma than with MRCLS. On average, the duration of the tumor response was just over 11 months for patients with synovial sarcoma and just over four months for patients with MRCLS; most patients’ cancers returned after a period of remission. To date, a small number of patients whose tumors disappeared following initial therapy remain cancer-free.

Among all of the patients, average survival was just over 15 months. The probability of survival at one year was 60%. Among patients with synovial sarcoma whose tumors showed a complete response to initial therapy — meaning the tumors disappeared entirely following the single treatment — the probability of survival was 90% at one year and 70% at two years.

The most common side effects of the treatment involved low red and white blood cell counts due to the chemotherapy needed to prepare the body to receive the engineered T cells. Many of the patients required treatment to control cytokine release syndrome, a common inflammatory response to T cell therapies. All 28 deaths that occurred during the follow-up period were found to be due to the cancer eventually progressing and not the investigational treatment.

“We have some patients we’re still watching who continue to have a deep, durable response to this single treatment,” Van Tine said. “In some cases, the engineered T cells can get into the bone marrow and establish a niche, and these patients haven’t needed further treatment. As long as the T cells continue to divide and the tumor continues to carry the target protein, it’s an effective therapy in these patients. We’re trying to understand what is different about the individuals who do so well, so we can extend this type of effect to more patients in the future.”

D’Angelo SP, Araujo DM, Razak ARA, Agulnik M, Attia S, Blay J, Garcia IC, Charlson JA, Choy E, Demetri GD, Druta M, Forcade E, Ganjoo KN, Glod J, Keedy VL, Le Cesne A, Liebner DA, Moreno V, Pollack SM, Schuetze S, Schwartz GK, Strauss SJ, Tap WD, Thistlethwaite F, Morales CMV, Wagner MJ, Wilky BA, McAlpine C, Hudson L, Navenot J, Wang T, Bai J, Rafail S, Wang R, Sun A, Fernandes L, Van Winkle E, Elefant E, Lunt C, Norry E, Williams D, Biswas S, Van Tine BA. Afamitresgene autoleucel for advanced synovial sarcoma and myxoid round cell liposarcoma (SPEARHEAD-1): an international, open-label, phase 2 trial. The Lancet. March 27, 2024.

This work was supported by Adaptimmune. Van Tine reports no financial interest in Adaptimmune.

About Washington University School of Medicine

WashU Medicine is a global leader in academic medicine, including biomedical research, patient care and educational programs with 2,900 faculty. Its National Institutes of Health (NIH) research funding portfolio is the second largest among U.S. medical schools and has grown 56% in the last seven years. Together with institutional investment, WashU Medicine commits well over $1 billion annually to basic and clinical research innovation and training. Its faculty practice is consistently within the top five in the country, with more than 1,900 faculty physicians practicing at 130 locations and who are also the medical staffs of Barnes-Jewish and St. Louis Children’s hospitals of BJC HealthCare. WashU Medicine has a storied history in MD/PhD training, recently dedicated $100 million to scholarships and curriculum renewal for its medical students, and is home to top-notch training programs in every medical subspecialty as well as physical therapy, occupational therapy, and audiology and communications sciences.

Julia covers medical news in genomics, cancer, cardiology, developmental biology, biochemistry & molecular biophysics, and gut microbiome research. In 2022, she won a gold award for excellence in the Robert G. Fenley Writing Awards competition. Given by the Association of American Medical Colleges, the award recognized her coverage of long COVID-19. Before joining Washington University in 2010, she was a freelance writer covering science and medicine. She has a research background with stints in labs focused on bioceramics, human motor control and tissue-engineered heart valves. She is a past Missouri Health Journalism Fellow and a current member of the National Association of Science Writers. She holds a bachelor's degree in engineering science from Iowa State University and a master's degree in biomedical engineering from the University of Minnesota.