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Born in Russia, Misha Zilberter (he/him), PhD, grew up in North Carolina and received his PhD in Neuroscience from Karolinska Institutet in Stockholm, Sweden. He is currently researching Alzheimer’s disease in the lab of Yadong Huang at Gladstone Institutes.
I wanted to do cutting-edge Alzheimer’s research, so when the opportunity came to join Yadong Huang’s lab at Gladstone, I moved back to the US from Sweden. What do you like about Gladstone?
I like Gladstone’s focus on research, as well as its collaborative spirit and supportive atmosphere.
My research focuses on understanding how brain cells, especially neurons, produce energy, manage oxidative stress, and generate electrical signals to communicate. In Alzheimer’s disease, certain proteins and genes disrupt these functions, causing a chain reaction that affects energy production and communication between neurons. This breakdown makes it harder for the brain to process information, leading to difficulties with learning and memory. My goal is to pinpoint where and why these problems begin and find ways to stop them to protect brain function.
Its multifactorial nature. There isn’t a single cause or trigger; instead, the disease results from a complex interplay of various factors, genes, and pathways. This makes it difficult to tackle because research often focuses on one specific mechanism at a time. However, in reality, these mechanisms don’t operate in isolation, but are part of an intricate web of interactions. Understanding and addressing this complexity, along with the causal chain of events and triggers, is crucial for developing effective treatments.
Research in Progress seminars are a great way to find out about research happening in other labs at Gladstone, to share ideas, and to find ways to collaborate afterward. There is such a wide diversity of expertise and techniques at Gladstone that often complement each other.
While the electrophysiology method we use in our lab is invaluable for examining functional changes in neurons and networks, understanding the underlying causes at a molecular level requires transcriptomic and proteomic data. CRISPR gene editing then allows us to validate these molecular targets. This collaborative approach not only deepens our understanding, but also expands the scope and quality of our research, making it more comprehensive and impactful.
My father is the one who introduced me to neuroscience and electrophysiology when I was a kid, and he reminded me about it when I was still an engineer and considering choosing a different career.
In addition, Yadong Huang, my current mentor, has taught me to ask the important questions, to think outside the box, and to be more daring in choosing new directions.
I like sports like strength training, judo, and Brazilian jiu-jitsu. I also enjoy traveling and reading.
I wish I could say it was guitar, but even though I’ve been playing for 30 years, I’m still pretty bad at it. So maybe I’ll say handstands, cartwheels, and somersaults.
Tools and techniques are not as important as asking the right questions. Always keep sight of the big picture and what is the next step.
Our people are our most important asset. We offer a wide array of career opportunities both in our administrative offices and in our labs.
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