An active substance that kills the cancer cells very effectively without harming healthy cells has now been developed. In Switzerland alone, >5,700 women are diagnosed with breast cancer each year, and almost 1,400 of those affected die of the disease. In many very invasive forms of breast cancer, the cells have too much of the receptor HER2 on their surface. This leads to uncontrolled growth of the cells. Various antibodies such as trastuzumab and pertuzumab, which recognize the HER2 receptor, have been used in breast cancer therapy for many years now. However, these antibodies do not kill off the cancer cells. Instead, they render them dormant, and the cancer cells can become active again at any time.
The team led by Andreas Plückthun has now found out why these antibodies merely slow tumor growth rather than killing off the cancer cells. The receptor HER2 uses several signaling pathways at the same time to inform the cell that it should grow and divide. But the antibodies available thus far only block one of those signaling pathways, while the others remain active. The most important of these open paths leads through the central hub called RAS. “It is this protein that is responsible for reactivating the growth signal emitted by the HER2 receptor. The antibodies lose effect and the cancer cells continue to proliferate.”
The active ingredient comprises several DARPins (designed ankyrin repeat proteins). This new class of protein compounds that are easy to produce and have a large number of favorable binding properties was created in Plückthun’s biochemistry lab. A very similar substance is now being developed by Molecular Partners, a spin-off company of the University of Zurich. The aim is to test the first drug that functions according to this mechanism in patients as soon as possible in the course of clinical trials. Andreas Plückthun is optimistic: “Now that we have identified the Achilles heel of HER2-positive cancer cells, new opportunities are opening up for treating invasive tumor types like breast cancer more effectively in the future.” http://www.eurekalert.org/pub_releases/2016-06/uoz-ptp060216.php
http://www.nature.com/ncomms/2016/160603/ncomms11672/full/ncomms11672.html
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