Largest-ever study of thyroid cancer genetics finds new mutations, suggests immunotherapy
"Anaplastic thyroid cancer is a particularly terrible cancer - people wonder what makes it so bad, and advanced thyroid cancer causes significant morbidity. I've had a very productive relationship with Foundation Medicine, primarily to study rare salivary gland cancers and I'm pleased that we've been able to extend our collaboration to the study of thyroid cancers to hopefully answer some of these questions," says Daniel Bowles, MD, clinical and translational investigator at CU Cancer Center and Head of Cancer Research at the Denver Veterans Administration Medical Center.
Bowles worked with first author Nikita Pozdeyev, MD, PhD, to analyze tumor samples submitted by oncologists from around the United States to Foundation Medicine for genetic analysis that could inform treatment strategies. Interestingly, the fact that clinicians who submitted these samples were specifically seeking possible treatment strategies meant that the majority of samples were from advanced cancers.
"Genetic analysis of early-stage thyroid cancers is most often not necessary - we successfully treat these tumors with surgery and radioactive iodine," Pozdeyev says. "But with distant metastases, genetic information becomes important for treatment. Because oncologists had sought this genetic information, our study is enriched for advanced cases."
The researchers point out that even large treatment centers are likely to only a few of these most dangerous, anaplastic thyroid cancers every year. Due to the current study's industry-academia collaboration, the researchers were able to explore 196 of these anaplastic thyroid cancers, "giving us sufficient analytical power to use machine learning and statistical analysis to make sense of the data," Pozdeyev says.
In addition to finding that some anaplastic thyroid cancers carried a high overall mutation burden that could make immunotherapy an attractive treatment option, the group found specific genetic changes driving anaplastic cancers, including amplifications of the genes KDR, KIT and PDGFRA. These genes encode a kind of on-off switch called "receptor tyrosine kinases" that many cancer cells use to speed their growth and proliferation. In this case, these receptor tyrosine kinases happen to be targeted by the drug lenvatinib, which earned FDA approval for use in kidney cancer. In collaboration with Drs. Bryan Haugen and Rebecca Schweppe, the researchers treated a cohort of thyroid cancer cell lines with lenvatinib, finding that it was the cell line with amplification of KDR, KIT and PDGFRA that was especially sensitive to the drug, hinting that treatment with lenvatinib may be an attractive strategy against a subset of anaplastic thyroid cancers.
"As a clinician, I learn from this study that every patient with advanced thyroid cancer that we consider for systemic therapy should be genotyped - knowledge of genetic background may affect how we treat that patient," Pozdeyev says. "There are many drugs targeting many genetic changes that are approved for other cancers, which we would not usually think to use in thyroid cancer. Some of the findings in this paper will potentially change that."
Original publication
Nikita Pozdeyev, Laurie Gay, Ethan S Sokol, Ryan J Hartmaier, Kelsi E Deaver, Stephanie N Davis, Jena D French, Pierre Vanden Borre, Daniel V LaBarbera, Aik-Choon Tan, Rebecca E. Schweppe, Lauren Fishbein, Jeffrey S. Ross, Bryan R. Haugen and Daniel W. Bowles; "Genetic analysis of 779 advanced differentiated and anaplastic thyroid cancers"; Clinical Cancer Research; 2018
Most read news
Original publication
Nikita Pozdeyev, Laurie Gay, Ethan S Sokol, Ryan J Hartmaier, Kelsi E Deaver, Stephanie N Davis, Jena D French, Pierre Vanden Borre, Daniel V LaBarbera, Aik-Choon Tan, Rebecca E. Schweppe, Lauren Fishbein, Jeffrey S. Ross, Bryan R. Haugen and Daniel W. Bowles; "Genetic analysis of 779 advanced differentiated and anaplastic thyroid cancers"; Clinical Cancer Research; 2018
Topics
Organizations
Other news from the department science
Get the analytics and lab tech industry in your inbox
From now on, don't miss a thing: Our newsletter for analytics and lab technology brings you up to date every Tuesday. The latest industry news, product highlights and innovations - compact and easy to understand in your inbox. Researched by us so you don't have to.