Shared genetic marker offers new promise in targeting specific ovarian and lung cancers. The drug currently used to treat estrogen positive breast cancer may be useful in treating two different types of cancers.
‘Rare types of lung and ovarian cancers could be treated effectively and safely by drugs targeting specific genetic markers.’
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The challenge became how to find a way to exploit this genetic deficiency to better treat these patients. Stepping up to the challenge was Dr. Sidong Huang, Assistant Professor in the Department of Biochemistry at McGill's Faculty of Medicine, and senior author on both papers. Having trained for many years in Functional Genomics, Dr. Huang joined McGill with the goal of working on important problems in oncology. Read More..
"Working on something like SCCOHT seemed an obvious choice as it is a unique genetic disease driven by loss of a single gene, SMARCA4," explains Dr. Huang, who is also a member of McGill's Goodman Cancer Research Centre.
A collaboration between Dr. Huang and Dr. Foulkes ensued, along with fellow McGill Professor Dr. Janusz Rak at the Research Institute of the McGill University Health Centre (RI-MUHC), Dr. Barbara Vanderhyden at the Ottawa Hospital Research Institute and Dr. Sriram Venneti at the University of Michigan.
Through their work, Dr. Huang and his PhD student Yibo Xue, the papers' first author, were able to identify that targeting the cyclin-dependent kinases 4/6 (CDK4/6) exposed a vulnerability in SMARCA4-deficient cancers.
"What's clinically exciting about this work is that CDK4/6 inhibitors have been used for years, so they are very well known and their safety profile is established," notes Dr. Foulkes who is also Head of the Cancer Genetics Laboratory at the Lady Davis Institute of the Jewish General Hospital and a researcher at the RI-MUHC.
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Ovarian Cancer | Cancer in the Ovaries - Causes, Symptoms, Treatment & Prevention
Ovarian cancer affects both the ovaries and is referred to as the 'silent killer' as the symptoms go unnoticed until the disease advances.
Ovarian cancer affects both the ovaries and is referred to as the 'silent killer' as the symptoms go unnoticed until the disease advances.
Although much more common than SCCOHT, non-small cell lung cancer (NSCLC) can be very difficult to cure. "We extended the SCCOHT work to NSCLC as we realised about 10% of these common tumours also lack SMARCA4," explains Xue.
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"The fact these drugs worked so well was a bit surprising," says Dr. Foulkes. "Perhaps it works because the protein which is targeted is at critically low levels in the tumour - just enough to keep the tumour alive, but still susceptible to blocking."
"This is in contrast to the initial application of this class of drugs to treat breast cancers that often express elevated levels of the same protein," adds Dr. Huang. "Thus, our findings potentially broaden the applications of these drugs."
The precise mechanism by which these particular inhibitors work in the different cancers is yet to be definitively determined. But, says Dr. Foulkes, this is an academic question; so long as the drugs proves effective, the clinical impact is undeniable.
"The next step is seeing if these drugs work in patients with SCCOHT or NSCLC with SMARCA4 deficiency and identifying other additional drug targets in these cancers to be inhibited in combination with CDK4/6 inhibitors to overcome potential resistance," says Dr. Huang.
"The dream would be to cure these cancers, but any hint of a response would be a positive step forward, in particular because current treatments for women stricken with SCCOHT have limited effectiveness," concludes Dr. Foulkes.
Source-Eurekalert
