New genomic signature can spot aggressive tumor cells from primary, untreated prostate cancers

Many cases of early prostate cancer are dominated by cells that are slow-growing, often leading to a clinical decision to monitor for progression before initiating treatments that can have adverse side effects.

But some of these cancers might also include a small number of aggressive cells hiding among the indolent ones like wolves in a herd of sheep. Researchers at Duke Health have identified a molecular signature that can spot these lurking threats.

Publishing online in the journal European Urology, the researchers said the genomic signature they have identified makes it possible to develop a test to identify which men should undergo treatment early in their diagnosis, vs. those who could safely postpone therapy, if needed at all.

We performed single-cell RNA sequencing analysis of freshly isolated tumor cells from primary, untreated prostate cancers in men as well as advanced cancer cells."

Jiaoti Huang, M.D., Ph.D., Chair of Duke's Department of Pathology and senior author of the study

"We discovered that a small fraction -- less than 0.5% -- of primary prostate cancer cells possess the genomic features of advanced and aggressive prostate cancer cells that have become resistant to hormonal therapies," Huang said. "This shows that hormonal therapy resistance can be a feature present in a small number of tumor cells early in the disease process before therapy."

Huang said the goal now is to develop a clinical assay that identifies the more dangerous cells, which could trigger earlier, aggressive treatment in some patients to avoid disease progression. Huang said Duke owns intellectual property rights on the genomic signature.

Source:
Journal reference:

Cheng, Q., et al. (2022) Pre-existing Castration-resistant Prostate Cancer–like Cells in Primary Prostate Cancer Promote Resistance to Hormonal Therapy. European Urology. doi.org/10.1016/j.eururo.2021.12.039.

Comments

The opinions expressed here are the views of the writer and do not necessarily reflect the views and opinions of News Medical.
Post a new comment
Post
You might also like...
Researchers discover new pathway for DNA transfer in tumor microenvironment