New Method May Allow Personalized Clinical Trial

Photo: Woman on chemotherapy

A new tool may offer ways to
improve personalized cancer
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The drug also causes some tumor cells to go into a non-dividing (quiescent) state or to slow down their rate of division. This variability in cell response to the drug may be involved in cancer recurrence and drug resistance, the authors suggest.

The new tool may offer ways to improve personalized cancer therapy by predicting tumor response and testing combinations of targeted therapies in an individual patient's tumor. In the personalized approach to cancer treatment, a patient's tumor is analyzed for a set of mutations to which there are matching drugs that act on those mutations.

This approach has worked rather well for many cancers that carry specific mutations, said senior author Doctor Vito Quaranta.
"The genetics is well understood, the clinical effect is understood and the chemistry behind the therapy is understood. But there is a missing piece," said Quaranta. "Believe it or not, what is actually not understood is how cells respond to these drugs, what is actually happening."

The prevailing view has been that targeted therapies kill all the cells harboring a particular mutation. But even if the tumor is composed entirely of genetically identical cells – which is unlikely – a drug will not affect all cells the same way, Quaranta explained.

"Some of these cells may die, some may just stop dividing and sit there (called quiescence), and some may keep dividing, but more slowly." However, no current tests can provide an accurate, detailed picture of cell behavior needed to understand tumor response to drugs.

So, the investigators combined powerful automated, time-lapse microscopy with analytical tools and software they developed. Using these techniques, they could capture the behavior of lung cancer cells every six to 10 minutes for up to 10 days.

As they expected, the targeted therapy erlotinib killed some cells, while others became quiescent. They observed that the drug even affected genetically identical cells (cells that arose from the same parental cell) differently.

"These cells are clearly genetically identical, as identical as they can possibly be because one cell just divided into two, but you get completely different responses: one dies and the other one does not," said Darren Tyson. "This suggests that there are other things besides genetics that have to be taken into account."

MEDICA.de; Source: Vanderbilt University Medical Center