From Einstein News:
"Scientists at Albert Einstein College of Medicine of Yeshiva University have designed a new type of vaccine that could be the first-ever for preventing genital herpes—one of the most common sexually transmitted diseases, affecting some 500 million people worldwide. By using a counterintuitive scientific approach, researchers were able to prevent both active and latent infections caused by herpes simplex virus type 2 (HSV-2), the virus that causes genital herpes. Findings from the research, conducted in mice, were published today in the online journal eLife."
Read the entire article here.
Dr. Jacobs' Inaugural Article as a new member of the National Academy of Sciences (NAS) in the September 2, 2014 issue of PNAS describes the discovery that the efficient plasmid transformation (ept) phenotype of mc(^2)155 is caused by a loss-of-function mutation in a gene.
Read the Biological Profile of Dr. Jacobs as a new NAS member
Thursday April 10th, Xia Xu of the Jacobs Lab successfully defended her thesis!
Congratulations to the new Ph.D !
Bill Jacobs lights the way to better tuberculosis drugs.
BY BRENDAN BORRELLILUSTRATION BY JORGE COLOMBOMARCH 27, 2014
Special Thanks to Amy Maxmen and Kimberly Newman
Acetic Acid/ Vinger Kills TB! Read on to see what Dr. Catherine Vilcheze has to say about the discovery.
Click here for a link to the publication
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UAB Alumnus Revolutionizes Tuberculosis Research
By Meghan Davis
Bill Jacobs cracked one of the great problems in infectious disease research using a mathematician's heart, a molecular biologist's training, and a helpful handful of dirt.
Jacobs, a professor of immunology, microbiology, and genetics at the Albert Einstein College of Medicine in New York City, earned one of the top honors in American science when he was elected to the National Academy of Sciences in 2013. He won the honor, in part, for identifying new ways to target tuberculosis, which is still one of the world's great public health threats. But Jacobs, who earned his Ph.D. in molecular cell biology at UAB in 1985, says it all might not have happened apart from a fateful letter to Birmingham.
While studying math at Edinboro State College near Erie, Pennsylvania (actress Sharon Stone was a classmate), Jacobs took a microbiology course that sparked his interest. He applied to several microbiology graduate programs, but few even bothered to answer his inquiry letters. Then Roy Curtiss, Ph.D., founder of UAB's molecular cell biology graduate program, invited him to Birmingham for an interview and tour.
"I told Roy that I didn't know much biology," Jacobs says. "And he told me, 'There is no sin in being ignorant. The sin is to remain ignorant.' I decided that from that day forward, I wasn't going to be ashamed to ask questions in seminars."
Jacobs says he still uses Curtiss's quote to encourage his own students.
"This article demonstrates that Mycobacterium tuberculosis induces extracellular trap (ET) formation from not only human neutrophils but also human macrophages. In contrast to neutrophil ETs (NETs), the macrophage ETs (METs) are originated from the nuclei of infected macrophages. Interestingly, only a subset of M. tuberculosis is trapped in the METs, and the majority of bacteria still resides and continually grows in the macrophages. The authors clearly demonstrate that the METs are produced by heavily M. tuberculosis-infected macrophages and that IFN-γ enhances the MET formation and macrophage necrosis via the M. tuberculosis ESX-1 secretion system. This finding demonstrates a new role of IFN-γ in facilitating M. tuberculosis replication in human macrophages, and this process requires M. tuberculosis ESX-1, which is a major virulence factor."