Ten Minutes with Rainmaker Michal Brylinski
Michal Brylinski, associate professor in the 海角社区 Department of Biological Sciences with a joint appointment at the Center for Computation & Technology, uses artificial intelligence and complex algorithms on large biological datasets to design and discover new drugs. As a member of 海角社区鈥檚 Deep Drug team, he鈥檚 a current semifinalist for the $5M IBM Watson AI XPRIZE. His career path, however, has been a bit kr臋ci si臋, as you鈥檇 say in his native Polish, meaning squiggly.
Michal Brylinski
I understand that you didn鈥檛 start out as a computational biologist, is that right?
Yes. It鈥檚 been a long road. First, I went to pharmacy school; I wanted to become a
pharmacist. But after I graduated and worked in pharmacies and hospitals for a while,
I didn鈥檛 like it. I was more interested in research. So, I decided to go back to school
and get a PhD, this time in chemistry. I then joined a computational chemistry and
computational biology group at Georgia Tech in Atlanta for my postdoc. That鈥檚 when
I started working on many projects related to human health, and a number of projects
related to drug discovery. It was great. I stayed with that group for a few more years
as a research scientist, up to 2012 when I took a faculty position here at 海角社区 and
started my own group.
I interviewed at many different places. The reason I wanted to come to 海角社区 was a combination
of factors. First of all, my interactions with faculty, students, and staff was the
best among all of the interviews I had. I knew going in that I would have a large
number of good collaborators I could work with, both in wet labs and on the electrical
engineering-computer science side. I鈥檓 a big advocate of team-based research; I don鈥檛
work just by myself. On top of that, we have great resources here at 海角社区鈥攖op notch鈥攕o
I knew I could go large-scale and think big on big projects. Also, Poland is a cold
country. I wanted to stay in the South and pretty much never have winter again. Now,
I like winter when I go skiing on holidays, but I don鈥檛 necessarily want to live and
work where there is snow.
There is so much in Louisiana that goes beyond what most people think of when they
think of the American South.
True! Definitely. I鈥檓 European, so I like the culture here too. There is a lot of
European influence in Louisiana and I enjoy the food and culture. Louisiana really
is different than other Southern states; other states are more 鈥淎merican.鈥 Louisiana
is more of a European style.
Why was computational biology the right fit for you?
I鈥檓 expanding my research programs in genomics and data sciences right now, which
is still related to human health and drug discovery, but a little bit different. Biology
is still behind other disciplines like physics and chemistry, where computational
research has a long history. But it was maybe just 10-15 years ago that computational
biology started, and there is so much data to look at. Computational approaches are
becoming more critical to analyze this data because of both size and complexity.
鈥淚 had a very good mentor when I first came to the US who said, 鈥淵ou want to work with people who are smarter than you.鈥 It took me a long time to realize that the guy was right. Of course, I wanted to be the smartest person in the room, but there are so many people who are smarter than me and I just want to work with all of them...鈥
There is a lot of work to do on secondary data analysis of older data; there is so
much data just sitting there. You don鈥檛 have to collect more data; you can mine what鈥檚
already available. One of our biggest challenges is that the data comes from very
different sources. It鈥檚 highly heterogeneous, so data integration is a big component
of the work we do.
How has the XPRIZE competition opened new avenues of research for you?
It鈥檚 been a very interesting experience for me; very different from other projects
I work on because you鈥檙e in competition with industrial groups and companies and non-profits.
It鈥檚 more of a corporate setting and not purely academic research. When we started
this two years ago, I had no idea we were going to get this far. Our team has survived
so many eliminations鈥攁mong 147 groups, we鈥檙e now one of the 10 semifinalists.
What鈥檚 the most important piece of advice you鈥檝e ever received as a researcher?
I had a very good mentor when I first came to the US who said, 鈥淵ou want to work with
people who are smarter than you.鈥 It took me a long time to realize that the guy was
right. Of course, I wanted to be the smartest person in the room, but there are so
many people who are smarter than me and I just want to work with all of them, learn
from them, as much as they can learn from me. This is what led me to team-based work
and highly interdisciplinary research.
鈥淚鈥檓 really looking forward to applying the most recent and powerful artificial intelligence, or AI, techniques to large biological data sets, as the XPRIZE project is just one of many we鈥檙e working on. Some are focused on complex conditions, such as Alzheimer鈥檚, schizophrenia, and cancer.鈥
Most of the collaborations I have right now are through the Center for Computation
& Technology here on campus. If you can find people with complementary expertise and
write proposals together, this greatly increases your chances of getting funded. Physical
proximity is important, too, being all in one center under one roof with resources鈥攊t
just sounds more plausible that we鈥檒l be able to complete something.
What are you the most excited about over the next 3-5 years?
I鈥檓 really looking forward to applying the most recent and powerful artificial intelligence,
or AI, techniques to large biological data sets, as the XPRIZE project is just one
of many we鈥檙e working on. Some are focused on complex conditions, such as Alzheimer鈥檚,
schizophrenia, and cancer. These require application of the most powerful AI to come
up with new hypotheses, treatments, and drugs.
Another really interesting thing right now is not so much drug discovery as drug repurposing
or repositioning. This means that you find new uses or indications for already existing
drugs. Instead of developing a totally new molecule from scratch, which takes about
10 years and costs billions of dollars, we could use an available drug to treat a
different condition. There are many groups working on this. We already have many drugs
and most have not been tested against an array of diseases. They could potentially
treat something else, which is why it makes sense to work on big data science and
AI to see what those repositioning opportunities might be. This is particularly important
for rare diseases where it鈥檚 difficult to find a cure. From a pharmacological company
perspective, it鈥檚 unprofitable to develop a new drug to treat a rare disease鈥攖here
aren鈥檛 that many customers. There are maybe 7,000 rare diseases that affect small
groups of people, but together, that鈥檚 millions of people worldwide. While developing
new drugs generally isn鈥檛 profitable, this leaves a big role for academia. We鈥檙e not
a for-profit company; we can work for the greater good and we鈥檙e much better positioned
to do this kind of research.
I also want to mention how privileged I am to work with very good students and postdocs.
Both our undergraduate and graduate students here at 海角社区 are just excellent, and a
major factor behind the success of our research groups. My PhD students have multiple
solid, first-author publications by the time they graduate. Every single undergraduate
student I work with has published at least one paper in a good, peer-reviewed journal鈥攁
real accomplishment鈥攁nd some have published two or three. Meanwhile, when I was an
undergraduate student, I didn鈥檛 have any papers. Our students are outstanding.
Read more about 海角社区 Deep Drug鈥檚 participation in the IBM Watson XPRIZE AI competition.
The Rainmaker Awards are given each year by the Office of Research & Economic Development, Campus Federal Credit Union, and the Council on Research to faculty who show outstanding research, scholarship, and creative activity for their respective ranks and discipline. The awards recognize both sustained and continuing work, as well as the impact that work has had on faculty members, departments, and our academic community. There are three award categories: Emerging Scholar, Mid-Career Scholar, and Senior Scholar. For each category, an award is offered for a faculty member in the area of Arts, Humanities, Social and Behavioral Sciences, and one in the area of Science, Technology, Engineering, and Mathematics.
Emerging Scholar Award
Mid-Career Scholar Award
Michal Brylinski, Biological Sciences
Raymond Pingree, Mass Communication
Senior Scholar Award
Jinx Broussard, Mass Communication
Samithamby 鈥淛ey鈥 Jeyaseelan, Pathobiological Sciences
Elsa Hahne
海角社区 Office of Research & Economic Development
225-578-4774
ehahne@lsu.edu