N255 is a key residue for recognition by a monoclonal antibody which protects against Yersinia pestis infection.

Mab7.3 to Yersinia pestis LcrV antigen (LcrV(Ype)) protected J774A.1 macrophages in vitro from killing by a Yersinia pseudotuberculosis strain expressing LcrV(Ype). Of 4 site-directed mutations in the coiled-coil region (148-169) and 7 mutations in the 225-255 sequence of LcrV(Ype), only the mutation of N255 to D255, abrogated the binding of Mab7.3 and reduced its protective capacity against plague. Since the Mab7.3 epitope in LcrV(Ype) (135-275) encompasses a region (136-180) thought to be exposed on the injectisome, we suggest that Mab7.3 protects by binding to LcrV(Ype) and interfering with protein-protein interactions necessary for type three secretion.

Small protective fragments of the Yersinia pestis V antigen.

Yersinia pestis is the causative agent of plague. Naturally occurring cases of the disease and the potential use of Y. pestis as a bioweapon fuel the need for efficacious vaccines. The most recent plague vaccine is a killed whole cell preparation that is expensive to manufacture and its side effects are common. The protective antigens F1 and V have been identified and are currently being developed as a combined subunit vaccine. Protective epitopes of the V antigen have previously been shown to reside in the central part of the protein. In order to identify the minimum protective fragment of the V antigen that can provide protection against plague, the structures of several small fragments of the antigen were modelled in silico and recombinant proteins were produced. These fragments were probed for the retention of a protective epitope using a protective monoclonal antibody and protection against Y. pestis in mice was determined. The smallest protective fragment of V antigen identified comprised amino acids 135-262. Finally the ability of this fragment to confer protection when given in the context of a DNA vaccine was confirmed.