For nearly 20 years, Hao Wu has studied innate immunity, our body’s first line of defense against infection. One of her research specialties is the challenging technique of X-ray crystallography, which she uses to capture the atomic structure of key molecules that drive an inflammatory response. But for this method to work, the proteins have to be coaxed to form regular crystals—and that has often proven to be prohibitively difficult. Wu, now at Boston Children’s Hospital and Harvard Medical School, can be relentless in her attempts to crystallize difficult molecular structures, and this quality has helped her make a number of important discoveries. Among them is the seminal finding that innate immune cells process and internalize signals to handle invading microbes much differently than previously thought.
Innate immune cells, which include macrophages and neutrophils, patrol the body non-specifically, keeping a look out for signs of anything unusual. Using protein receptors displayed on their surfaces, these cells can sense distinctive molecular patterns on microbes, prompting an immediate response at the site of infection.
Wu has shown that these cells form previously unknown protein complexes that mediate the immune response [1, 2]. She received an NIH Director’s 2015 Pioneer Award to help translate her expertise in the structural biology of these signaling complexes into the design of new kinds of anti-inflammatory treatments. This award helps exceptionally creative scientists to pioneer transformative approaches to major challenges in biomedical and behavioral research.
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