Ryuji Kamata

The Serratial 56K Protease as a Major Pathogenic Factor in Serratial Keratitis: Clinical and Experimental Study

A possible cause and the difference in clinical severity of serratial keratitis were investigated. Two strains of Serratia marcescens were isolated: one from a patient with severe liquefactive keratitis, who had diabetes mellitus, and one from a patient with mild superficial keratitis, but who had no underlying disease. When the same numbers of bacteria were injected separately into corneas of the same rabbits or guinea pigs, the strain from the first patient elicited severe corneal destruction, remarkable intracorneal edema; and liquefactive necrosis, but the strain from the second caused mild keratitis with erosion or intracorneal abscess. The keratitis induced by the former strain required a longer time to heal, and the prognosis was poorer than that for the other keratitis. Therefore, the difference in severity between the two cases of experimentally induced keratitis paralleled that of the clinical cases. Thus, the severity of the serratial keratitis might be attributed more to the virulence of the bacteria than the condition of the host. The virulence factor seemed to be a heat-labile metabolic product (or products) of the bacteria. To clarify this virulence factor, the major secretory protease (56K protease) produced by these two strains of bacteria was compared by using in vitro and in vivo systems. The virulent strain produced about ten times more protease during culture than the less virulent strain. When injected into the corneas of experimental animals, the 56K protease from the virulent strain induced severe lesions similar to those caused by the living virulent strain of bacteria. These results indicated that one of the major factors causing the virulence was correlated with the tissue destructive 56K protease produced by S. marcescens.

Inhibitory effects of ovomacroglobulin on bacterial keratitis in rabbits

We studied the inhibitory effects of chicken egg-white ovomacroglobulin (ovoM) on keratitis induced by 56000-Da protease (56 KP) of Serratia marcescens and by elastase (PE) and alkaline protease (PAP) of Pseudomonas aeruginosa. The effects of ovoM on the serratial and pseudomonal keratitis in rabbits were also elucidated. In one model, four drops of 56 KP, PE, or PAP (1 mg/ml) were applied to wounded corneas of eight eyes. Thereafter, 80 μl ovoM (10 mg/ml) was dropped into four eyes and 0.01 M phosphate-buffed 0.15 M saline (pH 7.4) into the other eyes as a control. The other in vivo test system involved intrastromal injection of S. marcescens or P. aeruginosa, by which each sample (105–107 colony-forming units) mixed with ovoM was injected into one cornea and the other cornea received organisms without ovoM. OvoM completely inhibited the activity of these bacterial proteases in vitro and reduced corneal destruction in experimental keratitis in rabbits. In addition, greatly accelerated wound healing was observed.

Effects of protease inhibitors on growth of Serratia marcescens and Pseudomonas aeruginosa

The growth inhibitory effects of chicken egg white ovomacroglobulin (ovoM) on Serratia marcescens and Pseudomonas aeruginosa were studied. The growth of protease-producing strains was greater than that of the strains producing little protease, and was inhibited in a dose-dependent manner by ovoM, a potent protease inhibitor. Dose-dependent enhancement of growth of strains of S. marcescens and P. aeruginosa that produce little protease was observed with the medium treated with proteases. These results indicate that extracellular proteases produced by the organisms augment their growth and that inhibition of the proteases results in suppression of growth.

The role of Pseudomonas aeruginosa elastase in corneal ring abscess formation in pseudomonal keratitis

In order to identify the causative factors of ring abscess, which is the characteristic feature of pseudomonal keratitis, pseudomonal endotoxin, exotoxin A, and elastase were each separately injected into guinea pig cornea. There was no formation of ring abscess. Injection of livingPseudomonas aeruginosa strains IFO3455 and Takamatsu which produce all three molecules, clearly induced ring abscess. In contrast, when heat-killed bacteria strain IFO3455 or living bacteria of the non-elastase-producing strain PA103 were injected, ring abscess was not induced. Furthermore, when living bacteria strain IFO3455 were injected with anti-elastase antibody or a protease inhibitor, ovomacroglobulin, ring abscess formation was significantly inhibited. Histological examination demonstrated that the ring abscess was a dense accumulation and aggregation of polymorphonuclear leukocytes (PMN) with debris of cells and lamellae in the deep stroma at the corneal margins, suggesting prevention of PMN migration to the central lesion. The presence of anti-elastase antibody or a specific elastase inhibitor facilitated PMN migration towards living bacteria strain IFO3455 in an in vitro model. These results indicate that pseudomonal elastase is a necessary but not sufficient factor in the formation of ring abscess in pseudomonal keratitis.

Therapeutic intervention with chicken egg white ovomacroglobulin and a new quinolone on experimental Pseudomonas keratitis

Abstract⊎ Background: Chicken egg white ovomacroglobulin (ovoM) is a potent protease inhibitor with broad-spectrum activity against various proteases. The combined effects of ovoM and the new quinolone, ofloxacin (OFLX) on experimental Pseudomonas aeruginosa keratitis were investigated. ⊎ Methods: The in vitro inhibitory effects of ovoM on protease activity in culture fluid of clinically isolated P. aeruginosa and on activity of human neutrophil elastase and cathepsin G were assayed using azo-casein as substrate. Albino rabbits received intrastromal injection of the isolated Pseudomonas strain (1 × 105 colony-forming units). At 16 h after inoculation, three treatment groups -0.1% ovoM alone, 0.3% OFLX alone, and a combination of both —and a non-treatment control group were tested. ⊎ Results: Protease activity in the culture solution and human neutrophil elastase was inhibited by ovoM, whereas cathepsin G was not inhibited effectively. In vivo additive therapeutic effects of ovoM and OFLX were observed at 96 h (P < 0.05 compared with OFLX alone). ⊎ Conclusion: The results indicate that inhibition of proteolytic activity with ovoM is useful in preventing stromal degradation in P. aeruginosa keratitis.