Genome Canada Selects Two McGill Projects for Funding
Today, Genome Quebec announced that four projects would be funded through a pan-Canadian competition sponsored by Genome Canada. The Genomics Applications Partnership Program will invest over $19 million dollars in genomics in Québec. This includes two McGill University research initiatives which will receive over $2.9 million in funding for their innovative use of genomic tools. Overall, Quebec projects fared well in the competition, securing 55% percent of the total Canadian envelope.
“I would like to extend my warmest congratulations to the leaders of the winning projects of Genome Canada’s Genomics Applications Partnership Program,” said Martha Crago, Vice President, Research and Innovation, McGill University. “The work of our researchers is truly innovative and builds on the deep relationships we have with partners outside of the University. These collaborations are crucial tools that enable us to make meaningful contributions to society.”
“Collaboration between multiple partners, from the public, private and academic sectors, will make it possible to counter the decline of bees, identify antibiotic resistance genes in the environment and develop new cellular therapies to treat refractory cancers. Genomics is a real ally in the search for concrete, sustainable solutions, but also a vector for innovation in research and technological applications,” said Stéphanie Lord-Fontaine, Vice-President, Scientific Affairs, Génome Québec.
Project 1: Enhancing Cord Blood Natural Killer blood cells to fight cancer (budget: $5,845,337)
The team of Dr. Michel Tremblay and Dr. David Langlais from McGill University, and Pierre Laneuville from the Cellular Therapy Laboratory, McGill University Health Centre – together with commercial partner Kanyr Pharma – is enhancing the cancer-fighting potential of so-called Cord Blood Natural Killer (CB-NK) cells. These cells, collected from the umbilical cord, have a strong potential for anti-tumor immunotherapy, which is boosted through the addition of a synthetic compound. Using omics-based selection processes, the team aims to identify the specific signatures that indicate the likelihood of treatment efficacy for a given set of CB-NK cells. The specific cancer the team will examine is acute myeloid leukemia, a form that is notoriously difficult to treat.
Project 2: Crowdsourcing metagenomic analysis through video games (budget: $4,440,406)
Computer Science Professor Jerome Waldisphül, in partnership Gearbox Studio, is leveraging the potential of video games to engage a broad public in genomic research. By tagging metagenomic data and embedding it within a Massive Multiplayer Online Game (MMOG), the team is able dramatically accelerate data collection thanks to the high number of users, i.e., in the millions. They will work on adapting this technology to process metagenomics data sets from the Earth Microbiome Project (EMP) and use it to relate specific types of microbes to diet, aging, and various types of diseases.