The strategy used by Google to decide which pages
are relevant for a search query can also be used to determine which proteins in
a patient's cancer are relevant for the disease progression.
Researchers from Dresden
University of Technology, Germany, have used a modified version of Google's
PageRank algorithm to rank about 20,000 proteins by their genetic relevance to
the progression of pancreatic cancer. In their study, published in PLoS
Computational Biology, they found seven proteins that can help to assess how
aggressive a patient's tumor is and guide the clinician to decide if that
patient should receive chemotherapy or not.
The researcher's own
version of the Google algorithm
has been used in this study to find new cancer biomarkers,
which are molecules produced bycancer cells. Biomarkers
can help to detect cancer earlier in body fluids or directly in the cancer tissue obtained
in an operation or biopsy. Finding these biomarkers is often difficult and time
consuming. Another problem is that markers found in different studies for the same types of cancer almost
never overlap.
This problem has been
circumvented using the Google strategy, which takes into account the content of
a web page and also how these pages are connected via hyperlinks. With this
strategy as the model, the authors made use of the fact that proteins in a cell
are connected through a network of physical and regulatory interactions; the
'protein Facebook' so to speak.
"Once we added the
network information in our analysis, our biomarkers became more
reproducible," said Christof Winter, the paper's first author. Using this
network information and the Google Algorithm, a significant overlap was found
with an earlier study from the University of North Carolina. There, a
connection was made with a protein which can assess aggressiveness in
pancreatic cancer.
Although the new
biomarkers seem to mark an improvement over currently used diagnostic tools,
they are far from perfect and still need to be validated in a larger follow-up
study before they can be used in clinical practice. It remains an open problem
to turn these insights into novel drugs which slow down cancer progression. A
first step in this direction is the group's cooperation with the Dresden-based
biotech company RESprotect, who are running a clinical trial on a pancreas
cancer drug.
TU Dresden is a leading
German university, whose Center for Regenerative Therapies was awarded
excellence status in the national excellence initiative. The work was a cooperation
between the bioinformatics group of Prof. Dr. Michael Schroeder and the medical
groups of Dr. Christian Pilarsky and Prof. Robert Grützmann.
More information: Winter C, Kristiansen G, Kersting S, Roy J, Aust D, et al. (2012)
Google Goes Cancer: Improving Outcome Prediction for Cancer Patients by
Network-Based Ranking of Marker Genes. PLoS Comput Biol 8(5): e1002511. doi:10.1371/journal.pcbi.1002511
Journal reference: PLoS
Computational Biology
Provided by Public
Library of Science
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