Glioblastoma is the most common malignant brain tumor in adults. So far there have been no effective and targeted therapies. The molecular geneticist Gaetano Gargiulo, however, strives to change this.
“Even as a young boy I took apart and put back together again anything and everything that I could get my hands on, in order to understand how things work and what secrets were hidden there,” says Gaetano Gargiulo. And to this day nothing has changed in that regard: his curiosity and persistence concerning the essence of things is what motivates him to tackle, as molecular geneticist involved in cancer research, new challenges every day. “We have to understand how a tumour emerges and what makes a tumour cell tick, in order to find approaches for treatment. And for this reason we have to take a really close look at the core mechanisms of the tumour – its molecular interdependencies,” says the 36-year-old.
After his A-level exams, it was clear to Gargiulo that he wanted to study something in the field of natural science. He decided on bio-technology, studied at the University of Naples and received his doctorate in molecular oncology at the European School of Molecular Medicine in Milan. Up to 2009, he was trained at the European Institute of Oncology (Milan) and then went to the Netherland Cancer Institute in Amsterdam. There as a post-doc in the field of Cancer Epigenetics, he came in contact, for the first time, with research on glioblastoma.
A glioblastoma is a malignant brain tumour that normally results in death within a few months. It develops from degenerated glial cells, but can assume many forms which differ from patient to patient and even within the same tumor mass. However, recent technological breakthroughs are now enabling scientists to more rapidly generate faithful models for diseases that have been difficult to tackle, including glioblastoma. Gargiulo: “This will allow to carry out large-scale genetic screens in combination with other methods, as a step toward finding new strategies for treating diseases.“
For this Gargiulo is currently putting together his own Helmholtz junior research group at the Max Delbrück Center for Molecular Medicine (MDC). Together with his team, he intends to examine each individual gene of the glioblastoma and its effects upon the progression of the disease. “Ideally this work will reveal specific targets that cancer cells must protect in order to survive, but are dispensable for healthy cells“, says Gargiulo. “Finding such molecular switches would represent a great step toward therapies because they would effectively eliminate tumors without damaging crucial healthy tissues.“ This concept, called "synthetic lethality", has become central for the development of new cancer therapies.
“The tumors are smart and use to their own advantage molecular mechanisms also used by our own normal cells. Finding the tumour’s Achilles heel that we can exploit to combat the glioblastoma in a targeted way, it’s like finding a needle in the haystack. Actually, it’s like finding a needle in a needlestack” says Gargiulo. “We have to be smarter than the tumour. That won’t be easy, but the optimal research conditions at the MDC, the multi-disciplinary environment and scientific exchange with collaboration partners will definitely advance my research considerably.”