Streptococcus pneumoniae is a major cause of bacterial keratitis. Pneumococcal keratitis causes damage that can result in irreversible corneal scarring. The corneal damage seen in pneumococcal keratitis has been attributed mainly to bacterial virulence factors that stimulate an intense host response. Important to pneumococcal keratitis is the production of pneumolysin, a virulence factor capable of cell lysis as well as the activation of complement. In non-ocular infections, the production of pneumolysin is not sufficient to achieve virulence; the organism must also produce a polysaccharide capsule. The role of the capsule in keratitis or other ocular infections has not been established and preliminary data from this laboratory suggests that the capsule may not contribute to ocular virulence. This point is significant because vaccination of patients has been suggested as a means to prevent pneumococcal ocular infections. The research proposed is designed to develop means to limit the damage associated with pneumococcal keratitis. This research consists of using new therapies directed toward the virulence factors responsible for protecting the organism and stimulating the damaging inflammatory response. The immediate aims are to: 1) determine if the capsule is a virulence factor in keratitis, a study that could show that the cornea, unlike vascularized body sites, is susceptible to infection by unencapsulated strains; 2) determine if the inhibition of pneumolysin by topical application of a molecule that inhibits its binding to cells will provide protection against inflammation to the infected cornea, a possibility that is supported by preliminary studies; and 3) determine if antibody to pneumolysin can be used actively or passively to limit or prevent the ability of this molecule to induce inflammation with tissue damaging effects. From a public health perspective, bacteria including pneumococcus are becoming increasingly resistant to antibiotics. The development of alternative and novel therapies for bacterial eye infections will help to prevent scarring and loss of the eye.
Showing the most recent 10 out of 11 publications