Vogl Lab

Description

The interplay between the immune system and microbes in cancer In principle, the immune system is capable of detecting cancer cells, preventing tumors from growing, and even destroying them. However, cancer cells may evade the body's own defenses through new mutations. How well patients respond to certain cancer therapies therefore depends on many factors, such as their immune system and molecular properties of the tumor. However, rather unexpected aspects of human health also influence the response to certain cancer therapies: In recent years it has been shown that immunotherapies are beneficially affected by a diverse, healthy composition of intestinal microbes. The gut microbiome refers to the collective of bacteria living in our intestines. These strains can play a significant role in activating the immune system in responding appropriately to cancer cells. The composition of the microbiome in the digestive tract, which contains by far the largest number of bacteria on the human body, can significantly influence the success of certain therapies. At the same time, however, other bacterial strains have been linked to the occurrence of certain cancers, such as colorectal cancer. How the immune system differentiates between beneficial and harmful microbes, and how these individually influence cancers, is only incompletely understood. Dr. Thomas Vogl and his multidisciplinary team of molecular biologists, biochemists, and bioinformaticians are investigating which microbial and tumor factors are crucial for successful cancer therapies. Dr. Vogl's expertise lies in the combination of biological experiments with computer-assisted analyses. In this context, the immune system is analyzed in the laboratory using blood samples from patients alongside novel high-throughput methods. The main focus lies on the investigation of antibody responses against the microbiome. A better understanding of the complex interaction between the intestinal microbes and our immune system could improve the prevention of cancer and pave the way towards novel therapies. (Description adapted from working group website: see link above)