Melanomas in some patients do not respond well to immunotherapy treatments, and now researchers have discovered that a defect in STING gene expression in melanoma cells helps them escape immune cell surveillance.
Cancer cells use a variety of recently discovered mechanisms to avoid detection and destruction by immune cells, including defective detection and destruction of T cells, losses in expression of critical proteins on tumour cells and defective cell signaling in both immune and tumor cells.
The interferon signaling pathway is an important signaling pathway in interactions between tumour and immune cells. This pathway increases expression of molecules allowing tumour cells to be targeted by immune cells. One of the interferon signaling pathway’s key molecules is STING, which is activated by the protein cGAS.
Previously Moffitt researchers showed that STING activity is suppressed and altered in a subset of melanomas, rendering tumour cells invisible to the immune system.
Using a process called epigenetic modification to turn genes on or off with methylation groups, the researchers sought to improve the understanding of alterations in STING signaling in melanoma and find out how STING expression is suppressed.
The researchers performed a series of laboratory experiments and discovered that the DNA regulatory region of the STING gene is highly modified by methylation groups resulting in loss of STING gene expression in certain melanoma cell lines. Importantly, they confirmed these findings in patient clinical samples of early and late-stage melanomas and showed similar methylation events and loss of expression of the upstream STING regulator cGAS.
The researchers demonstrated the possibility of reactivating STING and/or cGAS expression with a demethylating drug or genetic approaches. These successfully reactivated STING activity, resulting in increased interferon levels when triggered by STING agonist drugs that enabled the melanoma cells to now be recognised and targeted by immune cells.
“These studies show the critical importance of an intact STING pathway in melanomas for optimal T cell immunotherapy success, and how to overcome a notable STING defect in melanoma cases of gene hypermethylation by a combination therapy,” said senior author James J. Mulé, PhD, and Associate Center Director, Translational Science, H. Lee Moffitt Cancer Center & Research Institute.”Unless patients’ melanomas are pre-screened for intact versus defective STING, it is not at all surprising that clinical trials of STING agonists have, to date, uniformly failed.”
Source: News-Medical.Net
Journal information: Falahat, R., et al. (2021) Epigenetic reprogramming of tumor cell–intrinsic STING function sculpts antigenicity and T cell recognition of melanoma. Proceedings of the National Academy of Sciences. doi.org/10.1073/pnas.2013598118.
