Malignant melanoma is one of the most aggressive types of cancer. Despite recent progress in effective therapies, the tumours of many patients are either resistant from the outset or become so during the course of treatment.
A University of Zurich (UZH) study published in Cell Reports Medicine has now identified a mechanism involving subverted immune cells that impedes the effectiveness of therapies. The result provides new ideas for treatments to suppress the development of resistance.
Comparing resistant and non-resistant tumour cells
For the study, the team utilised an innovative fine-needle biopsy to sample tumour cells before and during therapy. This allowed the researchers to analyse each cell individually. The patients providing the samples were undergoing targeted cancer therapy for malignant melanoma, which inhibits signalling pathways for tumour formation.
“It was important that some of the tumours responded to the therapy, while others showed resistance,” says study leader Lukas Sommer, professor of stem cell biology at the Institute of Anatomy at UZH. This allowed the team to compare the metabolism and environment of resistant and non-resistant tumour cells and look for significant differences.
Interaction between tumour factor and immune cells
One of the most relevant findings concerned the POSTN gene: it codes for a secreted factor that plays an important role in resistant tumours. In fact, the tumours of patients with rapidly progressing disease despite treatment showed increased POSTN levels. In addition, the microenvironment of these tumours contained a larger number of a certain type of macrophage – a subtype of immune cell that promotes the development of cancer.
Through a series of further experiments – both with human cancer cells and with mice – the research team was able to show how the interaction of increased POSTN levels and this type of macrophage triggers resistance: the POSTN factor binds to receptors on the surface of the macrophages and polarises them to protect melanoma cells from cell death. “This is why the targeted therapy no longer works,” says Sommer.
No resistance without cancer-promoting macrophages
The team considers this mechanism a promising starting point. “The study highlights the potential of targeting specific types of macrophages within the tumour microenvironment to overcome resistance,” says Sommer. “In combination with already known therapies, this could significantly improve the success of treatment for patients with malignant melanoma.”
Source: University of Zurich