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MembershipFiled under: Podcasts | Tags: antigen, biron, immune, Immunology, inate, interferons, microbiology, molecular, pathogens, system
Christine Biron, Ph.D., Esther Elizabeth Brintzenhoff Professor, Molecular Microbiology & Immunology, Brown Univeristy
Christine Biron is the chair of the Department of Molecular Microbiology and Immunology at Brown University in Providence, and she focuses her research program on the mechanisms of the innate immune system – the body’s system of non-specific munitions for fighting off pathogens. Dr. Biron is also a newly elected fellow of the American Academy of Microbiology.
When a pathogen gets on or in your body, your innate immune system is on the front lines, working against the pathogen is a non-specific manner. In research, the innate immune system got short shrift for a long time, and only in the last 10 or 20 years has the field picked up momentum. Dr. Biron says back when she was in graduate school “the innate immune system wasn’t thought to be very cool”, but she says the field is fast-moving today, in part because of some major discoveries involving Type-1 interferons, natural killer cells, and an increased appreciation of a wider range of antigen processing cells that link the innate and adaptive immune responses.
In this interview, I talked with Dr. Biron about our increasing awareness of the innate immune system, why it’s important to bring microbiologists and immunologists together under one big tent, and why it’s best that a battle between a virus and a host ends not in victory for one and defeat for the other, but in détente.
Filed under: Podcasts | Tags: Avian Bornavirus, biochemistry, derisi, dilatation, discovery, disease, eli lilly, genome, Immunology, malaria, microarray, microbiology, parrots, pathogen, proventricular, sars, sequence, viral
Joseph DeRisi, Ph.D., HHMI Investigator, University of California, San Francisco
Joseph DeRisi is a Professor of Biochemistry and Biophysics at the University of California, San Francisco and a Howard Hughes Medical Institute Investigator. His research focuses on two distinct areas: malaria and new viral pathogen discovery. Dr. DeRisi is this year’s recipient of the Eli Lilly and Company Research Award, granted in recognition of fundamental research of unusual merit in microbiology or immunology by an individual on the threshold of his or her career.
Discovering new viral pathogens seems like exciting work, and DeRisi has lots of ideas for prospecting. In one recent success with their viral microarray, his group recently helped identify the virus responsible for a devastating disease among rare parrots and other birds: proventricular dilatation disease, or PDD, has been recognized for 30 years, but veterinarians didn’t know the cause or how to control it. Now that DeRisi’s group has pinpointed Avian Bornavirus as the culprit and sequenced its genome, therapies and control measures to help both captive birds and birds in the wild can’t be far behind.
In this interview, I asked Dr. DeRisi whether he’s interested in putting the microarray approach to virus discovery to work in uncovering the causes of some human illnesses, especially those diseases we suspect might be spread by viruses, but for which we’ve never found a virus responsible. He has some very interesting ideas for where to start. We also talked about his work on identifying the SARS virus, and a new approach in the ongoing fight against malaria.
ID3 Podcast Image Provided by James Gathany Courtesy of the CDC.
