Keratocyte activation and apoptosis in transplanted human corneas in a xenograft model.
(65/726)
PURPOSE: To study keratocyte activation and cellular apoptosis in transplanted human corneas during the early postoperative period. METHODS: Ten human donor corneas preserved for 6 days at 4 degrees C were transplanted into the eyes of 10 adult cats. After confocal and specular microscopy in vivo 1 week after keratoplasty, the cats were killed, and the fixed corneas were examined by TUNEL assay and by scanning (SEM) and transmission electron microscopy (TEM). RESULTS: Abnormal keratocytes, in which portions of cell bodies and processes as well as nuclei were visible, were present in all corneas and occupied the anterior 16 to 562 microm of the stroma. By TEM in the same corneas, these abnormalities represented keratocytes that were activated to a repair phenotype. Only 0% to 1% of all corneal cells were apoptotic by TUNEL assay, except for the donor keratocytes near the wound, where 7% were apoptotic. The midstromal keratocyte density was decreased at 13,936 +/- 5,910 cells/mm(3) (mean +/- SD), and the endothelial cell density was 2,298 +/- 688 cells/mm(2), representing an endothelial cell loss of 7% +/- 16%. CONCLUSIONS: Substantial keratocyte activation and low levels of cellular apoptosis occur 1 week after human corneal transplantation. The human-to-cat xenograft model of corneal transplantation demonstrated endothelial cell loss and other clinical findings similar to human allografts. The model will be useful for preclinical testing of new methods of long-term corneal preservation and of donor endothelial cell augmentation, as well as the study of human corneal wound healing and keratocyte replacement during the early postoperative period. (+info)
Delay of corneal epithelial wound healing and induction of keratocyte apoptosis by platelet-activating factor.
(66/726)
PURPOSE: To examine the role of the lipid mediator platelet-activating factor (PAF) in epithelial wound healing. METHODS: A 7-mm central de-epithelializing wound was produced in rabbit corneas, and the tissue was incubated with 125 nM carbamyl PAF (cPAF), an analogue of PAF. Rabbit corneal epithelial and stromal cells were also cultured in the presence of cPAF. Cell adhesion, proliferation, and migration assays were conducted. Apoptosis was assayed by TUNEL staining on preparations of corneal tissue sections and in cells in culture. RESULTS: Twenty-four hours after injury, 50% of the wounded area was covered by new epithelium, whereas only 30% was covered in the presence of cPAF. At 48 hours, the epithelium completely closed the wound, but only 45% of the original wound was covered in corneas treated with cPAF. Similar inhibition of epithelial wound closure was found with human corneas incubated with PAF in organ culture. Moreover, addition of several growth factors involved in corneal wound healing, such as epidermal growth factor, hepatocyte growth factor, and keratinocyte growth factor, could not overcome the inhibitory action of PAF in wound closure. Three PAF antagonists, BN50727, BN50730, and BN50739, abolished the effect of PAF. A significant increase in TUNEL-positive staining occurred in corneal stromal cells (keratocytes), which was inhibited by preincubating the corneas with PAF antagonists. However, no TUNEL-positive staining was found in epithelial cells. TUNEL-staining results in cultured stromal cells (keratocytes) and epithelial cells in first-passage cell culture were similar to those in organ-cultured corneas. In addition, PAF caused 35% to 56% inhibition of adhesion of epithelial cells to proteins of the extracellular matrix: collagen I and IV, fibronectin, and laminin. There were no significant changes in proliferation or migration of epithelial cells induced by the lipid mediator. CONCLUSIONS: The results suggest PAF plays an important role in preventing corneal wound healing by affecting adhesion of epithelial cells and increasing apoptosis in stromal cells. PAF antagonists could be of therapeutic importance during prolonged ocular inflammation, helping to avoid loss of corneal transparency and visual acuity. (+info)
Expression of neurotensin receptors in human corneal keratocytes.
(67/726)
PURPOSE: The purpose of the study was to investigate whether cultured human keratocytes express the neurotensin receptors (NTR1, NTR2, and NTR3), to determine the presence of neurotensin (NT) in keratocytes, and to assess the influence of NT on these cells. METHODS: Human keratocytes were cultured in medium treated with various concentrations (10(-7)-10(-9) M) of JMV449 (a weakly degradable NT agonist). Cell proliferation and viability were analyzed by 3-(4,5-dimethylthiazol-2-yl)-5-(3-carboxy-methoxyphenyl)-2-(4-sulfophenyl)-2H-tet razolium inner salt (MTS) assay. Apoptosis was studied by nucleus labeling with a fluorescent dye and cold light fluorometry. NT, NTR1, NTR2, and NTR3 mRNA were detected in human keratocytes by means of reverse transcriptase-polymerase chain reaction (RT-PCR). NTR1 protein was detected by Western blot analysis. Functionality of NTR1 was assessed by intracellular calcium ([Ca2+]i) measurement with a dynamic imaging microscopy system. RESULTS: RT-PCR and Western blot analysis showed the expression of the NTR1 (mRNA and protein) and NTR3 mRNA in human corneal keratocytes. NT and NTR2 mRNA were undetectable. JMV449 induced a rapid and transient [Ca2+]i increase in human corneal keratocytes that was blocked by the specific antagonist SR48692. JMV449 significantly increased cell proliferation and viability after 72, 96, and 120 hours of culture, with a maximum effect at 10(-7) M (P < 0.005). Finally, JMV449 decreased keratocyte apoptosis, whatever the concentration used (P < 0.005). CONCLUSIONS: These results indicate that cultured human keratocytes express NTR1 and NTR3 and that NT may exert physiological effects on cornea such as regulation of keratocyte proliferation and apoptosis. (+info)
The effect of chronic corneal epithelial debridement on epithelial and stromal morphology in dogs.
(68/726)
PURPOSE: To determine the effect of chronic corneal epithelial debridement on epithelial and stromal morphology and extracellular matrix components, and to compare those changes to those in spontaneous chronic corneal epithelial defects (SCCED) in dogs. METHODS: Axial corneal epithelial wounds, 10 mm in diameter, were created weekly for 8 weeks in five normal adult laboratory beagles. Slit lamp biomicroscopy and corneal pachymetry were performed weekly before wounding. Three days after the last debridement the dogs were killed humanely, and corneas were processed for light and electron microscopy and immunohistochemistry for collagen IV, collagen VII, fibronectin, and laminin. RESULTS: No significant changes in corneal thickness were found. All samples demonstrated epithelial dysmaturation adjacent to the wound edge, and, in four of five, a narrow zone of nonadherent epithelium formed adjacent to the exposed stroma. All samples had a stromal acellular zone in the area of the defect and continuing for a short distance under the adjacent attached epithelium. Experimentally wounded dogs did not form the superficial hyaline acellular lamina found in 92% of dogs with SCCED. Laminin, collagen IV, and fibronectin were present on the stromal surface in all samples, and collagen VII was present in four of five samples. Transmission electron microscopy (TEM) demonstrated the presence of basement membrane on the surface of the exposed stroma. CONCLUSIONS: Epithelial changes are similar between experimentally wounded dogs and dogs with SCCED. The stromal acellular zone that forms in experimentally wounded dogs is distinct from the hyaline lamina observed in dogs with SCCED. The difference in the acellular stromal layers between chronically wounded dogs and dogs with SCCED may be of relevance to our understanding of the pathophysiology of persistent epithelial defects. (+info)
UV absorbance of the human cornea in the 240- to 400-nm range.
(69/726)
PURPOSE: To determine the UV absorbance of the corneal layers (epithelium, Bowman layer, stroma) in the 240- to 400-nm range. METHODS: Consecutive slices (100 microm) of human cadaveric corneas were cut, and the UV absorbance of each sample was determined in a scanning spectrophotometer. In some cases the epithelium was scraped off and its absorbance measured separately. RESULTS: The investigation of the UV-B absorption of consecutive corneal slices revealed evidence that UV-B absorption is 1.8 times higher in the anterior 100 microm of the human cornea than in the posterior layers. The UV absorbance of the posterior layers was uniform, showing no further structural dependence. The epithelium and Bowman layer are both effective absorbers of UV-B radiation. CONCLUSIONS: These results suggest that the anterior corneal layers are particularly important in preventing damage by UV-B radiation. (+info)
Identification of a novel macrophage population in the normal mouse corneal stroma.
(70/726)
PURPOSE: To examine the normal murine corneal stroma for the presence of bone marrow-derived leukocytes. METHODS: Wholemounts of paraformaldehyde-fixed corneal stroma from normal mice at 5 to 16 weeks of age were examined in single- and double-color immunomorphologic studies performed with confocal microscopy. The phenotype, morphology, distribution, and density of immunopositive cells were determined. RESULTS: Numerous CD45(+) cells with pleomorphic and dendriform morphology were found within the pericentral and central region of the corneal stroma (200-300 cells/mm(2)). Dual-color immunostaining demonstrated that 100% of the CD45(+) cells coexpressed CD11b and 50% coexpressed F4/80. Approximately 30% of the total cells and 50% of the F4/80(+) cells coexpressed major histocompatibility complex (MHC) class II antigens. Very small to negligible numbers of cells expressed markers of dendritic cells (CD11c) or granulocytes (Ly6G). Markers for T-cells and NK cells were absent from the corneal stroma, indicating that all the cells identified in the stroma were of the myeloid lineage. CONCLUSIONS: The normal murine corneal stroma contains a significant number of CD45(+) leukocytes. Most these cells express the CD11b marker, but not other dendrite, granulocyte, T-cell, or NK markers, placing them in the monocyte/macrophage lineage. (+info)
Lipoteichoic acid selectively induces the ERK signaling pathway in the cornea.
(71/726)
PURPOSE: To identify signal transduction pathways and gene expression induced by the bacterial cell wall component lipoteichoic acid (LTA) in human corneal keratocytes. METHODS: Human corneal keratocytes were cultured in the presence of 6.25 to 50 microg/ml LTA from Staphylococcus aureus. Induced DNA-binding of NF-kappaB was determined by electrophoretic mobility shift assays (EMSAs). Activation of MAP-kinase signaling pathways (p38, JNK-1/2, ERK-1/2, Elk 1, MEK-1/2, c-Raf) was evaluated by Western blotting using phospho-specific antibodies. To investigate the effect of LTA signaling on gene expression, keratocytes were transfected with a luciferase reporter gene under the control of serum response elements (SREs). LTA-induced gene expression was quantified using luciferase assays. RESULTS: Exposure of various concentrations of LTA up to 24 hours did not lead to activation of NF-kappaB, whereas TNF-alpha potently induced this transcription factor. A systematic analysis of LTA-activated MAPK pathways revealed no significant effects on JNK and p38, but a dose- and time-dependent phosphorylation of members of the ERK pathway. Analysis of the ERK-activating signaling cascade showed LTA-induced phosphorylation of ERK-1, MEK1/2, and c-Raf. ERK activity resulted in an enhanced transcription of an SRE-controlled reporter gene. CONCLUSIONS: LTA induces SRE-enhanced gene transcription in corneal keratocytes that is selectively mediated by the ERK pathway. Therefore, it seems possible that components of the bacterial cell wall such as LTA can alter the transcriptional program within the corneal stroma and thereby trigger an inflammatory response. (+info)
Regulation of endotoxin-induced keratitis by PECAM-1, MIP-2, and toll-like receptor 4.
(72/726)
PURPOSE: Bacterial lipopolysaccharide (LPS, endotoxin) is a potent stimulator of inflammatory responses and is likely to contribute to microbial keratitis and to the pathogenesis of sterile corneal ulcers. The purpose of the present study was to identify specific mediators of endotoxin-induced keratitis. METHODS: The corneal epithelium of BALB/c, C3H/HeJ, and C3H/HeN mice was abraded, and Pseudomonas aeruginosa endotoxin (10 microg in 1 microL) was added. Stromal thickness and haze were measured by in vivo scanning confocal microscopy, and neutrophil recruitment determined by immunohistochemistry. RESULTS: Pseudomonas endotoxin induced a significant increase in stromal thickness and haze compared with untreated control corneas at each time point examined, and the severity coincided with neutrophil infiltration into the corneal stroma. Furthermore, systemic depletion of neutrophils completely abrogated endotoxin-induced increases in stromal thickness and haze, indicating an essential role for these cells. Expression of platelet endothelial cell adhesion molecule (PECAM)-1 on vascular endothelium and production of macrophage inflammatory protein (MIP)-2 in the corneal stroma were also significantly elevated after exposure to endotoxin, and antibody blockade inhibited neutrophil recruitment to the cornea and abrogated endotoxin-induced increases in stromal thickness and haze. In LPS-hyporesponsive C3H/HeJ mice, PECAM-1 and MIP-2 were not upregulated after exposure to endotoxin, and endotoxin-induced keratitis did not develop in these mice. CONCLUSIONS: These findings demonstrate that endotoxin-induced keratitis is regulated by toll-like receptor-4 (TLR4)-dependent expression of PECAM-1 and MIP-2, which are essential for recruitment of neutrophils to this site and for development of endotoxin-induced stromal disease. (+info)