Unique Pan-Cancer Immunotherapy Destroys Tumors Without Attacking Healthy Tissue, UC Irvine Study Shows

Irvine, Calif., Sept. 25, 2025 — A new, highly potent class of immunotherapeutics with unique Velcro-like binding properties can kill diverse cancer types without harming normal tissue, University of California, Irvine cancer researchers have demonstrated.

A team led by Michael Demetriou, MD, PhD, reported that by targeting cancer-associated complex carbohydrate chains called glycans with binding proteins, they could penetrate the protective shields of tumor cells and trigger their death without toxicity to surrounding tissue.

Their biologically engineered immunotherapies – glycan-dependent T cell recruiter (GlyTR, pronounced ‘glitter’) compounds, GlyTR1 and GlyTR 2 – proved safe and effective in models for a spectrum of cancers, including those of the breast, colon, lung, ovaries, pancreas and prostate, the researchers reported today in the journal Cell.

“It’s the holy grail – one treatment to kill virtually all cancers,” said Demetriou, a professor of neurology, microbiology and molecular genetics at the UC Irvine School of Medicine and the paper’s corresponding author. “GlyTR’s velcro-like sugar-binding technology addresses the two major issues limiting current cancer immunotherapies: distinguishing cancer from normal tissue and cancer’s ability to suppress the immune system.”

The researchers were awarded a Cancer Moonshot Initiative grant from the National Cancer Institute in 2018 for this study.

Landmark research

The study’s publication, the culmination of a decade of research, is a watershed moment and source of pride for UC Irvine and the UCI Chao Family Comprehensive Cancer Center.

“This landmark study is a paradigm shift with the very real potential to change how we treat cancer patients,” said Marian Waterman, PhD, former deputy director of research at the cancer center and champion of the project since Demetriou and his then-postdoctoral fellow, Raymond W. Zhou, the study’s first author, began working on the concept in 2015.

Added Richard A. Van Etten, MD, PhD, director of the cancer center and also an early supporter of the GlyTR project, “This novel technology may, for the first time, allow the widespread application of targeted T-cell therapy to solid tumors, which is the ‘holy grail’ in the immuno-oncology field.”

Current treatments, such as chimeric antigen receptor (CAR) T therapy, use the body’s white blood cells to attack cancer. They have largely worked only for blood cancers, such as leukemia. The GlyTR technology also proved effective in targeting leukemia, the study shows.    

Read the complete press release at UC Irvine News.