The spread of malignant cells around the body, known as metastasis, is the leading cause of mortality in women with breast cancer.
Now, a new gene therapy technique being developed by researchers at MIT is showing promise as a way to prevent breast cancer tumors from metastasizing.
The treatment, described in a paper published today in the journal Nature Communications, uses microRNAs — small noncoding RNA molecules that regulate gene expression — to control metastasis.
The therapy could be used alongside chemotherapy to treat
«The idea is that if the cancer is diagnosed early enough, then in addition to treating the primary tumor [with chemotherapy], one could also treat with specific microRNAs, in order to prevent the spread of cancer cells that cause metastasis," Artzi says.
The regulation of gene expression by microRNAs is known to be important in preventing the spread of cancer cells. Recent studies by the Shomron team in
To identify the specific microRNAs that play a role in breast cancer progression and could therefore potentially be used to suppress metastasis, the research teams first carried out an extensive bioinformatics analysis.
They compared three datasets: one for known SNPs; a second for sites at which microRNAs bind to the genome; and a third for breast
This analysis revealed a variant, or SNP, known as rs1071738, which influences metastasis. They found that this SNP disrupts binding of two microRNAs,
Previous research has shown that Palladin plays a key role in the migration of breast cancer cells, and their subsequent invasion of otherwise healthy organs.
When the researchers carried out in vitro experiments in cells, they found that applying
«Previous research had discussed the role of Palladin in controlling migration and invasion (of cancer cells), but no one had tried to use microRNAs to silence those specific targets and prevent metastasis," Artzi says. «In this way we were able to pinpoint the critical role of these microRNAs in stopping the spread of breast cancer.»
The researchers then developed a method to deliver engineered microRNAs to breast cancer tumors. They embedded nanoparticles containing the microRNAs into a hydrogel scaffold, which they then implanted into mice.
They found that this allowed efficient and precise delivery of the microRNAs to a target breast cancer tumor site. The treatment resulted in a dramatic reduction in breast cancer metastasis, says Artzi.
«We can locally change the cells in order to prevent metastasis from occurring," she says.
To increase the effectiveness of the treatment even further, the researchers then added the chemotherapy drug cisplatin to the nanoparticles. This led to a significant reduction in both the growth of the primary tumor, and its metastasis.
«We believe local delivery is much more effective (than systemic treatment), because it gives us a much higher effective dose of the cargo, in this case the two microRNAs and the cisplatin," she says.
«The research offers the potential for combined experimental therapeutics with traditional chemotherapy in cancer metastasis," says Julie
The research team, which also includes MIT post doc Joao Conde and graduate student Nuria Oliva, both from IMES; graduate student Avital Gilam and postdoc Daphna
«We are very excited about the results so far, and the efficacy seems to be really good. So the next step will be to move on to larger models and then to clinical trials, although there is still a long way to go," Artzi says.
Source: http://news.mit.edu/2016/gene-therapy-technique-prevent-cancer-metastasis-0919
