UMLS:C0022568 - FACTA Search

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Query: UMLS:C0022568 (keratitis)
5,133 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Scanning electron microscopic study of corneal endothelium in two cases of corneal disease. In one case of herpetic keratitis with stromal oedema and anterior uveitis an important cellular reaction is found with different cells forming a retrocorneal membrane. In a case of graft rejection there are two different aspects. On somes places there is an inflammatory reaction with lymphocytes and macrophages. The main surface of the graft is covered with indifferenciated cells whose origine is probably the receiver's endothelium.
Arch Ophtalmol Rev Gen Ophtalmol 1975 May
PMID:[Scanning microscopy aspects of the corneal endothelium in disciform keratitis and graft rejection]. 13 Aug 73

Study of corneal endothelium by scanning and transmission electron microscopy in two cases of corneal disease. In one case of herpetic keratitis with stromal oedema, there is no cellular reaction. The endothelium is damaged with cellular necrosis and nucleus irregularity. Intercellular junctions are abnormal. With TEM it is possible to say that there are two layers of cells on some places with cellular necrosis. In one case of corneal dryness with lesions of corneal anaesthesia the cells are very damaged and a retrocorneal membrane if formed by many layers of cells. The intercellular junctions are almost normal.
Arch Ophtalmol Rev Gen Ophtalmol
PMID:[Electron microscopic study of the corneal endothelium in 2 cases of keratitis. Herpetic disciform keratitis. Neuroparalystic keratitis with dry keratitis]. 13 Aug 83

We used a herpes simplex virus (HSV) type 1 ribonucleotide reductase (RR) null mutant (ICP6 delta) to study the role of HSV-1 RR in ocular HSV infections. We found that ICP6 delta was unable to induce vascularization of the cornea or stromal keratitis following inoculation into the cornea of BALB/c mice, but was able to induce a transient mild blepharitis. The parental strain (HSV-1 KOS) and a revertant of ICP6 delta, ICP6 delta+3.1, both caused severe ocular disease, indicating that HSV-1 RR is required for ocular virulence in mice. ICP6 delta grew poorly in vitro (Vero and BALB/c 3T3 fibroblasts) and in vivo (eye, trigeminal ganglia and brain) compared to ICP6 delta+3.1 and HSV-1 KOS, suggesting that the avirulence of ICP6 delta is due to poor growth in the host. ICP6 delta also grew less well in primary human corneal fibroblasts, suggesting that RR may be required for virulence in humans. These results indicate that drugs inhibiting the function of RR might be effective in treating ocular HSV infections.
J Gen Virol 1991 Sep
PMID:The herpes simplex virus ribonucleotide reductase is required for ocular virulence. 165 68

Glycoprotein C (gC) of herpes simplex virus type 1 (HSV-1) is a receptor for the complement component C3b. We have previously isolated HSV-1 gC- strains (TN1, TN2 and TN3) from a patient with recurrent keratitis at three different times. These are very rare isolates because gC was thought to be essential for the virus in vivo. To determine whether gC modifies the interaction of complement with cell-free virus or virus-infected cells, we constructed gC+ recombinant viruses in which the intact gC gene of strain KOS was inserted into the TN1 virus genome. TN1 virus was inactivated by complement and TN1 virus-infected cells were lysed by complement; however, gC+ recombinant viruses became resistant to these effects of complement. These results suggest a role for gC in protection of both the virion envelope and the infected cell surface against damage by complement. TN1 virus was inactivated by complement from rats (Wistar, WKA, F344 and SD), guinea-pigs (Hartley) and humans, but not by complement from mice (C3H, DDD and BALB/c), which indicates that mice seem to be inappropriate as an experimental model for the study of HSV infection in which complement factors need to be considered.
J Gen Virol 1991 Apr
PMID:Glycoprotein C of herpes simplex virus type 1 is essential for the virus to evade antibody-independent complement-mediated virus inactivation and lysis of virus-infected cells. 184 74

Distinct high frequency recurrence (HFRc) or low frequency recurrence (LFRc) phenotypes were observed following rabbit keratitis with three type 1 and five type 2 herpes simplex virus strains. LFRc strains were found to have latently infected the animal but were detected very rarely, if at all, in the eye following the acute phase. The recurrence phenotypes defined in singly infected animals remained unchanged following bilateral infection of the same animal with strains of opposite phenotype. Cocultivation of virus from bilaterally infected animals showed that both virus strains were capable of latently infecting the same animal. Restriction enzyme analysis of plaque-purified virus revealed that some ganglia were latently infected with both parental strains. Recombinants were also found. Some latently infected animals could be re-infected acutely. However, establishment of latency by the superinfecting strain was inhibited.
J Gen Virol 1983 Nov
PMID:Recurrence phenotypes and establishment of latency following rabbit keratitis produced by multiple herpes simplex virus strains. 631 65

Herpes simplex virus (HSV) ocular virulence has been associated with strain sensitivity to mouse interferon (IFN)-alpha/beta. To identify the region of the virus genome associated with heightened resistance to this cytokine, intertypic recombinants were constructed using the intact genome of avirulent, IFN-sensitive HSV type 1 (strain 35) and XbaI-digested DNA from virulent, IFN-resistant HSV type 2 (strain 186). An intertypic recombinant, designated HSV-R4, was isolated which grew to titres 10- to 100-fold higher than HSV-1(35) in mouse ocular tissue in vivo, and induced stromal keratitis. The recombinant which was several orders of magnitude more resistant to mouse IFN-alpha/beta than HSV-1(35) had a genome composed of HSV-1(35) DNA except for a 12 kb fragment (0.15 to 0.23 map units) derived from HSV-2(186). To define the IFN resistance locus further, three overlapping subclones of this 12 kb fragment were constructed from the HSV-2(186) genome and subjected to marker rescue experiments. The cloned BamHI D fragment was the only subclone that promoted HSV-1(35) ocular growth in vivo. An intertypic recombinant, designated HSV-R(BD), was isolated from the 35 x 186 BamHI D transfection progeny pool. This recombinant, in contrast to HSV-1(35), was several orders of magnitude more resistant to mouse IFN-alpha/beta inhibition in vitro, grew 10- to 100-fold better in mouse ocular tissue in vivo, and caused severe necrotizing stromal keratitis in BALB/c mice. Analysis of the recombinant genome indicated that the HSV-2 genetic information responsible for IFN resistance of HSV-R(BD) was located within the BamHI D fragment, most likely mapping to that region containing three partial open reading frames designated UL14, UL15 and UL16. The products encoded by this region remain to be identified.
J Gen Virol 1993 Nov
PMID:Mapping the genetic region coding for herpes simplex virus resistance to mouse interferon alpha/beta. 824 49

Herpetic stromal keratitis (HSK) and blepharoconjunctivitis in humans are thought partly to result from immunopathological responses to herpes simplex virus type 1 (HSV-1). The corneas of NIH mice were inoculated with HSV-1 (strain McKrae) and mice were examined for signs of disease and infection on days 1, 4, 7, 10, 14 and 21. The eyes and eyelids of infected and control mice were processed for immunohistochemistry and double stained for viral antigens and one of the following cell surface markers (Gr-1, F4/80, CD4, CD8, CD45R or MHC class II) or one of the following cytokines (IL-2, IL-4, IL-6, IL-10, IL-12 or IFN-gamma). All infected mice developed signs of HSK by day 4 and blepharitis by day 7 and these both persisted until day 21, when signs of resolution where apparent. Virus was detected during the first week of infection and became undetectable by day 10. Large numbers of Gr-1(+) cells (neutrophils) infiltrated infected corneas and eyelids in areas of viral antigen and CD4(+) T cells increased significantly in number after virus clearance. In both sites, the predominant cytokines were IL-6, IL-10, IL-12 and IFN-gamma, with few IL-2(+) and IL-4(+) cells. These observations suggest that the immune responses in the cornea are similar to those in the eyelids but, overall, the responses are not clearly characterized as either Th1 or Th2. In both sites, the neutrophil is the predominant infiltrating cell type and is a likely source of the cytokines observed and a major effector of the disease process.
J Gen Virol 2002 Jul
PMID:Primary herpes simplex virus type 1 infection of the eye triggers similar immune responses in the cornea and the skin of the eyelids. 1207 76

Virion host shutoff (vhs)-deficient herpes simplex virus (HSV) was tested as a therapeutic vaccine in a mouse model of UV light-induced recurrent herpetic stromal keratitis. Four weeks after primary corneal infection, mice were vaccinated intraperitoneally with vhs(-) vaccine or control. Four weeks after vaccination, the eyes of latently infected mice were UV-B irradiated to induce recurrent virus shedding and disease. Post-irradiation corneal opacity in latently infected, vhs(-)-vaccinated mice was significantly reduced compared to control-vaccinated mice (P=0.007 to 0.035). The incidence and duration of recurrent virus shedding were the same in both groups. Antibody titres were increased (P=0.05) and delayed type hypersensitive responses were unaffected by vhs(-) vaccination. Combined with studies using different vaccination timing and vhs(-) genotypes, these data suggest that deletion of vhs is a useful strategy in the development of a therapeutic HSV vaccine, and that temporal and genetic factors influence vaccination outcome.
J Gen Virol 2002 Oct
PMID:Therapeutic vaccination with vhs(-) herpes simplex virus reduces the severity of recurrent herpetic stromal keratitis in mice. 1223 16

The role that T cell subsets play in herpetic stromal keratitis (HSK) has been the subject of intense research efforts. While most studies implicate CD4(+) T cells as the principal cell type mediating primary corneal disease, recent reports using knockout mice have suggested that both CD4(+) and CD8(+) T cell subsets may play integral roles in modulating the disease. Furthermore, recent studies suggest that CD8(+) T cells are directly involved in maintaining virus latency in infected trigeminal ganglia. This work has addressed these discrepancies by infecting the corneas of mice lacking CD4(+) and CD8(+) T cells with herpes simplex virus type 1 (HSV-1) and monitoring both corneal disease and latent infection of trigeminal ganglia. Results indicated that mice lacking CD8(+) T cells had more severe corneal disease than either BALB/c or B6 parental strains. In contrast, mice lacking CD4(+) T cells had a milder disease than parental strains. When mice were evaluated for persistence of infectious virus, only transient differences were observed in periocular tissue and corneas. No significant differences were found in persistence of virus in trigeminal ganglia or virus reactivation from explanted ganglia. These data support the following conclusions. CD4(+) T cells are not required for resistance to infection with HSV-1 and probably mediate HSK. Mice lacking CD8(+) T cells do not display differences in viral loads or reactivation and thus CD8(+) T cells are not absolutely required to maintain latency. Finally, CD8(+) T cells probably play a protective role by regulating the immunopathological response that mediates HSK.
J Gen Virol 2004 Jul
PMID:CD8(+) T cells control corneal disease following ocular infection with herpes simplex virus type 1. 1521 91

Herpes stromal keratitis (HSK) results from infection of herpes simplex virus (HSV) in the cornea. Recurrent HSV infection is a leading cause of corneal scarring and visual loss. Although it is generally thought that HSK is the result of an immune response to one or more viral proteins, no viral proteins have been detected in HSK corneas. Thus, the viral proteins involved in HSK, if any, remain undetermined. In contrast, it is reported here that when HSK corneal buttons from latently infected rabbits were fixed using standard procedures, the important immediate-early HSV-1 protein ICP0 was readily detected in the fixative by Western blotting. Similarly, when HSK corneal buttons were soaked in buffer (rather than fixative), ICP0 was readily detected in the soaking buffer. Other HSV-1 proteins were not detected either in the fixative or in the soaking buffer. It is also reported here that ICP0 was consistently detected in virus-free tears from the eyes of rabbits acutely infected with HSV-1. These results suggest that ICP0 rapidly diffuses out of the cornea and may explain why ICP0 was detected in the fixative of HSK corneas and in the soaking buffer of acutely infected corneas.
J Gen Virol 2005 Nov
PMID:Herpes simplex virus type 1 immediate-early protein ICP0 diffuses out of infected rabbit corneas. 1622 19

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