Lung cancer patients are particularly susceptible to malignant pleural effusion, when fluid collects in the space between the lungs and the chest wall. Researchers have discovered a novel mechanism that causes this to happen. Their study, published in Nature Communications, now refines the mechanistic picture.
Malignant pulmonary effusion (MPE) frequently occurs in patients with metastatic breast or lung cancer. It involves a build-up of excess fluid in the pleural cavity, the area between the lungs and the chest wall, with accompanying malignant cells. The lung is surrounded by fluid, which can cause shortness of breath and chest pain, for example, and may even prove fatal.
"The cause is still not fully understood, which makes the search for suitable therapies more difficult," explains the research group leader. "However, we've now made significant progress in that direction."
In their recent work, the team built on findings which they had also published in Nature Communications in May 2017. "At the time, we were able to show that pleural effusion is triggered by cancer cells with a malignant mutation in the KRAS gene*," says lead author of the paper.
The authors have now been able to expand on this knowledge. "Our experiments show that inflammatory messengers of the immune system notably interleukin-1β activate a signaling pathway in mutated cancer cells, which in the long term can lead to pleural effusion," the author explains. The molecule IKKα plays a key role in the signaling pathway in that it, in turn, releases other messengers (CXCL1), resulting in a strong inflammatory response (see illustration). "Consequently, those cells migrate to the pleural cavity via the spleen, where they cause effusion," explains the lung expert.
To determine whether the findings might prove relevant to future treatment strategies, the researchers suppressed the newly discovered signaling pathway in the experimental model from two sides. In their double-pronged approach, they used both an inhibitor of KRAS and an inhibitor of IKKα. "In fact, this dual strategy significantly reduced both the incidence and the progression of MPE," the author reports. Resistance to a single treatment was also reduced.
"Nearly two thirds of all MPEs are the result of lung cancer. Given the large number of people who still smoke, appropriate therapies are urgently needed," author says. "Our findings suggest that drugs could become a therapeutic option for suppressing the mechanism we've discovered. We plan to investigate this line of enquiry in greater depth in the future and to further confirm the results in the translational approach with lung cancer patients."
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