Staphylococcus aureus, a major nosocomial pathogen, causes a wide variety of infections, from simple abscesses to fatal sepsis, plus toxinoses such as food poisoning and toxic shock syndrome. S. aureus produces and secretes thirty or more specific pathogenicity factors that interfere with host defenses. Its pathogenic versatility is compounded by its ability to develop resistance to new antibiotics almost as fast as they are introduced.
In the Novick Lab at NYU Langone, we have identified, sequenced, and characterized a global regulator, agr, that is the major regulatory element in a precisely orchestrated temporal program of virulence gene expression in vitro in S. aureus. Agr consists of a two-component signal transduction pathway, an autoinducing octapeptide (AIP) that serves as its ligand, and a regulatory RNA that controls target gene expression. There are four or more groups of S. aureus strains that synthesize different AIPs; these activate agr expression within their group but inhibit agr expression in the other groups.
We find that one of the AIPs can block infection by a heterologous strain in a mouse subcutaneous abscess model. We now study the biochemistry of AIP processing, the structure and function of the regulatory RNA, the expression of virulence factors in vivo, and the use of inhibitory peptides for antibacterial therapy.
Richard P. Novick, MD
Research Professor, Department of Microbiology
Professor Emeritus of Microbiology and Medicine, Department of Microbiology
NYU Grossman School of Medicine
540 First Avenue, 2nd floor, Lab 1-2
New York, NY 10016
Office phone: 212-263-6290
Lab phone: 212-263-6294