Imiquimod, a drug used to treat skin cancer, has been shown to have a previously unknown effect on immune cells. The drug transforms cells known as dendritic cells into “tumor killers” that attack the tumor directly and destroy its cells. The dendritic cells adopt an ingenious approach here – they not only produce special substances with a cell-damaging effect, they also manage to fight the tumor without the help of T and B cells and natural killer (NK) cells. This complex interaction was discovered by scientists participating in a doctoral program of the Austrian Science Fund FWF. It was also recently published and commented on in the Journal of Clinical Investigation.
For 15 years now the drug Imiquimod has been authorised for the treatment of certain skin diseases, including some types of skin cancer. And during that period, the drug, which is administered as a skin cream, has proven to be an effective treatment. Despite this therapeutic success, the drug´s exact mechanism of action was not known to date. However, a research group working with Prof. Maria Sibilia, Head of the Institute for Cancer Research at the Medical University of Vienna, has now succeeded in determining some unknown and surprising effects of Imiquimod (Imi) on special immune cells.
In a mouse model for malignant melanoma, Prof. Sibilia and her team succeeded in demonstrating that Imiquimod not only triggers the “recruitment” of special immune cells, but also “arms” them for the battle against tumor cells. “We were able to show that Imi has an immediate and direct effect on mast cells in the skin. Mast cells are immune system cells that can release messenger substances for the control of an immune response. In reaction to Imi, which activates special receptors known as toll-like receptors, mast cells release CCL2 messenger substances – a starting signal that triggers a response with fatal consequences for tumor cells,” explains Dr. Barbara Drobits, key scientist in the FWF-funded doctoral program responsible for the discovery.
The group actually succeeded in demonstrating that CCL2 then causes the migration of additional immune system cells. The analysis of the subsequent activity of these immune cells generated a real surprise for the scientists: the immune cells, called plasmacytoid dendritic cells (pDCs), were considered to be modulators up to now. However, in their reaction to Imi, they proved to be bona fide aggressors.
Prof. Sibilia reports: “My team succeeded in decoding an important aspect of the mechanism of action triggered by Imiquimod and the role of the pDCs in this process. This is part of a complex strategy adopted by the body in the fight against tumors. pDCs were not only attracted by CCL2, but were also prompted to produce interferon alpha (IFN alpha) in response Imi.” IFN alpha actually triggers the production of different substances (TRAIL, granzyme B) that can have a fatal effect on tumor cells. As another special characteristic, it was possible to show, for the first time, that pDCs themselves initiate the destruction of the tumor cells independent of the immune cells of the adaptive immune system (B and T cells) and without the help of NK cells, both of which are considered important components of the anti-tumoral immune response.
Overall, the team from the doctoral program “Inflammation and Immunity” succeeded in discovering a new mechanism of action of dendritic cells in fighting tumors; it had never been possible before to observe such a direct attack on tumors by pDCs. Further studies will reveal the extent to which this discovery will benefit the development of innovative cancer therapies. Some important questions remain open, however, as Dr. Drobits explains: “It is known that some tumor cells produce CCL2 themselves. In other words, they should have triggered the same cascade as Imi. But this did not always result in a positive disease progression. We do not yet know why this is the case and it needs to be explained.” In meeting challenges like this, the FWF´s doctoral program once again proves that it is fulfilling an important goal: to give young scientists the opportunity to work at the vanguard of cutting-edge science.
Date: March 26, 2012
Source: Austrian Science Fund
Filed Under: Drug Discovery