Scientists have uncovered a completely new way to make cancers sensitive to treatment - by targeting antenna-like structures on cells.
Their study found that drug-resistant cancer cells have more and longer antennae than those which are killed by treatment. Blocking the growth of antennae reactivated a range of cancer treatments that had stopped working, the team found. The study is published in the journal Cell Reports.
The researchers observed that cells that had become resistant to cancer drugs had more, longer cilia - tiny 'antennae' that help cells sense chemical signals.
They then blocked the growth of cilia in drug-resistant cancer cells, and found that their sensitivity to treatment had been restored. Exposure to drugs killed between 35 and 60 per cent of formerly resistant cancer cells - nearly doubling the effectiveness of cancer drugs.
For example, in lung cancer cells without cilia, only 39 per cent of cells survived treatment with a drug called erlotinib, compared with 72 per cent of cells that still had cilia.
Blocking important signalling molecules in cilia also restored cells' response to cancer drugs. Lengthening cilia had the opposite effect, causing cells that previously had responded to treatment to develop resistance.
Cancer cells can evolve in many different ways to become resistant to treatment - for example, changing so that they no longer rely on the molecular weaknesses targeted by the drug.
The researchers believe that the role of cilia in drug resistance is largely linked to important cell signalling molecules they contain.
Next, they aim to study molecular networks in cilia, and the effect of changes in the length and stability of the structures, to better understand their role in cancer drug resistance.
Cellular antenna implicated in cancer drug resistance
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