Fruit flies may help detect cancer
Washington: Fruit flies can distinguish cancer cells from healthy ones using their olfactory senses, according to a new study which may lead to fast and efficient pre-screening techniques to detect tumours.
The study is the first to demonstrate that fruit flies are able to distinguish cancer cells from healthy cells via their olfactory sense, researchers said.
Researchers at University of Konstanz and the University La Sapienza in Rome, Italy, described how characteristic patterns in the olfactory receptors of transgenic Drosophilae can be recorded when activated by scent.
Not only could a clear distinction be made between healthy cells and cancer cells; moreover, groupings could be identified among the different cancer cells.
“What really is new and spectacular about this result is the combination of objective, specific and quantifiable laboratory results and the extremely high sensitivity of a living being that cannot be matched by electronic noses or gas chromatography,” said zoologist Professor Giovanni Galizia.
Natural olfactory systems are better suited to detecting the very small differences in scent between healthy cells and cancer cells, researchers said.
This fact has already been shown in experiments with dogs; however, these results are not objectifiable and are thus not applicable for a systematic medical diagnosis.
The researchers used the fact that single odorant molecules dock to the receptor neurons of the flies’ antenna and thus activate the neurons.
In an imaging technique, the different odorant molecules of the respective scent samples create different patterns of activated neurons, which fluoresce under the microscope when active, thanks to a genetic modification.
In the experiment, five different types of breast cancer cell lines were analysed, compared to healthy cells and clearly divergent patterns were generated.
“As not only cancer cells can be distinguished from healthy cells, but also subgroups were discernible within the cancer cells, it seems that even different types of breast cancer cells can be differentiated via the antenna of Drosophila,” said Alja Ludke, member of the research unit.
“The high sensitivity of the natural olfactory receptors, paired with the quickness with which we can generate these test results, might lead to the development of a cheap, fast and highly-efficient pre-screening that can detect cancer cells well before we can discover them with the present diagnostic imaging techniques,” said Galizia.
The study was published in the journal Scientific Report.