How do neurons in breast cancer tumours control anti-tumour immune responses?

Immune cells can be very effective at killing cancer cells, but tumours have the ability to suppress the immune system. This is why some of the best cancer therapies work by turning the immune system back on. To do this, it is key to understand what controls immune responses in the tumour. In inflammation, it has been shown that neurons can control the immune system. Interestingly, there is evidence that by removing neurons, cancer growth is reduced. We have discovered that when the “heat sensing” TRPV1 neurons are removed in mice, the tumor will grow much slower. We will looked at changes in immune cells using flow cytometry, which allows us to measure over 20 different immune cell types and discovered that these mice may have lower numbers of a rare cell type called ILC2. Next we are trying to understand how neurons are affecting these cells and the tumor growth. Finally, we will design a cell culture system where neurons and mini-cancers will be grown together to see if the tumors are secreting something that changes the expression of genes by neurons. This will lead to the development of novel therapies that activate the immune system by targeting neurons and provide new information on therapeutic avenues for breast cancer.