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91女神 Researcher Receives $2.2 M to Study Link Between Inflammation, Gastric Cancer

by Bridjes O'Neil
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A 91女神 School of Medicine researcher says Type 2 inflammation, typically associated with allergies and asthma, is a risk factor for developing gastric cancer. 

Rich DiPaolo, Ph.D., professor and chair in the Department of Molecular Microbiology and Immunology, warns that patients with gastritis caused by autoimmunity as well as Helicobacter pylori, a type of bacteria that infects your stomach, may benefit from routine screenings to identify patients with a high risk of progressing to gastric cancer. 

Rich DiPaolo, Ph.D., is shown in his lab. He wears a white lab coat.

Rich DiPaolo, Ph.D., professor and interim chair in the Department of Molecular Microbiology and Immunology at 91女神's School of Medicine. Photo by Sarah Conroy. 

DiPaolo is the principal investigator on a four-year $2.2 million from the National Institute of Diabetes and Digestive and Kidney Diseases to investigate further whether autoimmune gastritis is also a contributing factor for gastric cancer to justify earlier routine screenings in the U.S. and test new therapeutics. This work is an extension of a previous five-year grant. 

DiPaolo says that 1 to 2% of people develop autoimmune gastritis, a condition where the immune system attacks a person鈥檚 cell tissue, and a subset may be at risk of developing cancer. Patients with gastric cancer are often diagnosed late, and the probability of surviving more than five years is 33%.

A photo of two people inside a lab wearing white coats. They sit in front of computer monitors. They discuss colorful data displayed on the screen.

Stella Hoft, right, and Richard DiPaolo, Ph.D., discuss data on May 24, 2023. Photo by Sarah Conroy. 

DiPaolo says his lab was the first to use single-cell RNA sequencing (scRNAseq), which allows researchers to understand the similarities and differences of each cell within a field of precancerous lesions from other cells. His team found that precancerous cells have a unique transcriptional profile before they become gastric cancer. Translating these findings into predicting cancer risk could lead to targeted screening, earlier diagnosis, and increased survival of patients with gastric cancer.

DiPaolo says that newer spatial transcriptomics (ST) technology rapidly extends scRNAseq. ST can profile gene expression at a single-cell resolution while maintaining cellular compositions within a tissue. Having expression profiles and tissue organization enables researchers to understand cellular interactions and heterogeneity better, providing insight into complex biological processes that are impossible with traditional sequencing technologies.

DiPaolo鈥檚 lab uses ST to compare inflammatory responses between autoimmune disease and infection in the stomach. Graduate student Stella Hoft, the recipient of an NIH 30 training grant, leads the ST project. 

鈥淢any therapeutics have been developed to block Type 2 immune responses to treat people with allergies and asthma,鈥 DiPaolo said. 鈥淲e've never thought of using those therapeutics to prevent or treat cancer because we didn't know that type of inflammation might be important in driving gastric cancer.鈥

DiPaolo hopes this project may lead to screening and treating patients with inflammation-driven cancer, saving lives.