A new interdisciplinary breakthrough could see cancer being diagnosed through a quick finger-prick test.
After five years of research, the team of biologists, clinical oncologists, pathologists and information scientists from ETH Zurich, University Hospital Zurich and the Cantonal Hospital of St. Gallen have determined a biomarker for prostate cancer – a particular pattern of proteins in the blood that indicate the presence of cancerous disease.
A common precursor to prostate cancer in both mice and men is the inactivation of the “Pten” gene, which can lead to uncontrolled cell growth. Thus mouse models were used in the hope that subsequent steps would be common between species. The researchers began by examining prostate surface proteins and comparing protein sets in both healthy and cancerous mice that had developed the disease following Pten inactivation. From this they determined a pattern of proteins that is typical of the mutated version of Pten and thus also for prostate cancer.
Examining tissues and serum samples from human prostate cancer sufferers and a control group, and using the list of specific proteins drawn up using the mouse model, the scientists were able to identify 39 corresponding proteins in humans that indicated the presence of cancer. The information scientists then calculated the four most reliable proteins as cancer indicators using 20,000 models.
“We then used this biomarker pattern to examine a cohort of patients whose blood had never previously been analyzed,” says Wilhelm Krek, professor of Cell Biology at ETH Zurich. “We were able to predict with precision, stability and reproducibility whether they were suffering from prostate cancer.”
It is presumed that the onset of cancer is often triggered by a mutation, such as the deactivation of a gene, which can lead to a change in the protein pattern of the affected organ. Separating off surface proteins of certain tissues allows 20 percent of these protein patterns to be detected in the serum, allowing a reliable method of diagnosis.
Currently, cancer is diagnosed by tumor antigens in the blood, but these methods are often misleading and can involve expensive and painful biopsies.