What brought you to Gladstone?
Three things influenced my decision to come to Gladstone. First, the research topic and in vivo imaging techniques in Katerina Akassoglou’s lab were a big draw. Investigating brain-vasculature interactions with an eye toward disease application was something a bit different from what I studied in graduate school (basic science of neural stem cells), and it was important to me to learn something new. Second, I wanted to stay in the Bay Area, because I had made a life here during graduate school at Stanford. Finally, Gladstone has had a reputation for being one of the best places for postdocs to work, which “sealed the deal” in my mind.
What do you like about Gladstone?
It's great to be part of a close community of scientists in an independent research institute that is within close proximity of UCSF. I like that I recognize and exchange “hellos” with most people I see during the day.
What or who influenced your decision to work in science?
I have loved the natural world since I was a child—collecting bugs, growing plants, and going on walks in the woods. I am a curious person and ask a lot of questions. My parents were both scientists, which probably also had something to do with it. When I worked in a lab as an undergraduate, I realized that the job of an experimentalist is a special one—we get to work with our hands to answer fascinating questions that may positively impact humankind. And no day is the same or boring!
Why did you choose to study neurobiology?
The brain is still largely uncharted territory. Without the brain, you have nothing. I wanted to contribute to our understanding of this special organ.
What do you think is the biggest challenge facing young scientists? Do you think there is a solution?
I imagine that a formidable challenge for many young scientists is the decision to remain in academia when there are other paths that could bring more money for less effort, especially with such low levels of government funding for research. However, I think it’s important to ask whether a certain career path allows one to stay true to one’s values. For example, I greatly value knowledge, both acquiring and producing it, so academic research has been the best path for me.
What advice would you give a graduate student or postdoc?
Try to find successes throughout the day, even ones that seem trivial, like running a well-controlled Western blot that works the first time or patch-clamping a neuron. The huge successes, like papers and grants, don’t happen often enough, and it’s important to have positive reinforcement to continue in science.
What do you do when you are not working in the lab?
I wander around the different neighborhoods of San Francisco and the East Bay, finding new restaurants with good ambiance to enjoy with friends. I also have a passion for helping animals in need, so I volunteer at Family Dog Rescue in the Mission.
What is your hidden/unique talent?
I can make quick meals out of just a few things in the refrigerator. Lately, I have made many quick meals with tomatoes—I can’t eat enough of them! Sliced vine tomatoes drizzled with olive oil, salt, and pepper, served with bread and cheese on the side. It’s so simple, but completely satisfying.
If you could learn to do anything, what would it be?
I like being self-sufficient, and I like projects. If I had the time, space, and resources, I would become an expert woodworker. It strikes me as a lost art.
If you could meet any scientist from any point in time, who would it be and why?
Oliver Sacks. While he is technically a neurologist and writer, he qualifies as a scientist in my mind. He recently passed away, and I feel it’s a great loss for the biomedical community and the world. I could tell he was a kindred spirit. I would ask him to tell me stories from his life and share his vision for the future of neuroscience.
Research from Gladstone Institutes reveals that a blood coagulation protein is responsible for initiating toxic inflammation and neuron loss after a major head injury. The findings can inform new treatment strategies for a condition that often presents long-term health challenges.
News Release Dementia Traumatic Brain Injury Neurological Disease Akassoglou LabNew research into how blood makes the brain’s immune cells toxic points to new treatments for Alzheimer’s disease and multiple sclerosis
News Release Research (Publication) Multiple Sclerosis Alzheimer’s Disease Center for Neurovascular Brain Immunology Neurological Disease Akassoglou Lab Krogan Lab PicoGladstone scientists make headway toward new treatments for people with chronic long-term effects
Gladstone Experts Traumatic Brain Injury Neurological Disease Akassoglou Lab Paz Lab Srivastava Lab Deep Dive