PhD Position – Shaping the Colorectal Niche (Sander Foundation) - (m/f/d)

Klingt spannend?
Das sind wir:

Research Group Prof. Claudia Günther (Labor für Gastrointestinale Pathophysiologie).

Join a highly collaborative and innovative research environment at the Günther Lab, where we investigate fundamental mechanisms of host–microbe interaction with direct translational relevance in human disease. Our group focuses on how the intestinal microbiota and microbial products shape epithelial, immune, and stromal responses in inflammatory and oncogenic contexts.

Colorectal cancer research is entering a transformative phase and you can be at the forefront of discovering how bacteria actively drive tumor initiation.

The intestinal microbiota is increasingly recognized as a central determinant of colorectal cancer (CRC) development and progression. Beyond compositional shifts, functional properties of specific microbial populations critically shape epithelial transformation, genomic stability, and tumor–host interactions. In particular, certain pathobionts enriched in CRC patients produce genotoxic factors that directly damage host DNA and contribute to malignant transformation.

Emerging evidence suggests that bacterial extracellular nanoparticles, including outer membrane vesicles (OMVs), represent a previously underappreciated mechanism of microbe–host communication. These nanoscale structures enable the protected transport of bioactive cargo across biological barriers, facilitating the targeted delivery of toxins and signaling molecules into host cells. By transferring genotoxic and immunomodulatory factors, bacterial vesicles may directly influence epithelial integrity, immune surveillance, and stromal remodeling — thereby actively shaping the tumor microenvironment (TME).

Within this translational IZKF-funded project, you will investigate the hypothesis that bacterial extracellular vesicles are critical drivers of CRC initiation and progression. The project integrates mechanistic cell biology, advanced vesicle characterization, and tumor immunology to dissect how microbiota-derived nanoparticles influence tumor initiation and progression. This interdisciplinary project bridges microbiome research, cancer biology, and immunology, with the long-term goal of identifying novel diagnostic markers and therapeutic targets at the interface of host–microbe interaction in colorectal cancer.