Hideki Fukuoka

Tumor-Associated Calcium Signal Transducer 2 Is Required for the Proper Subcellular Localization of Claudin 1 and 7 : Implications in the Pathogenesis of Gelatinous Drop-Like Corneal Dystrophy

Gelatinous drop-like dystrophy (GDLD) is a rare autosomal recessive form of corneal dystrophy characterized by subepithelial amyloid depositions on the cornea. Previous clinical and laboratory observations have strongly suggested that epithelial barrier function is significantly decreased in GDLD. Despite the decade-old identification of the tumor-associated calcium signal transducer 2 (TACSTD2) gene as a causative gene for GDLD, the mechanism by which the loss of function of this causative gene leads to the pathological consequence of this disease remains unknown. In this study, we investigated the functional relationship between the TACSTD2 gene and epithelial barrier function. Through the use of immunoprecipitation and a proximity ligation assay, we obtained evidence that the TACSTD2 protein directly binds to claudin 1 and 7 proteins. In addition, the loss of function of the TACSTD2 gene leads to decreased expression and change in the subcellular localization of tight junction-related proteins, including claudin 1, 4, 7, and ZO1 and occludin, both in diseased cornea and cultured corneal epithelial cells. These results indicate that loss of function of the TACSTD2 gene impairs epithelial barrier function through decreased expression and altered subcellular localization of tight junction-related proteins in GDLD corneas.

Genomic Aberrations and Cellular Heterogeneity in SV40-Immortalized Human Corneal Epithelial Cells

PURPOSE Simian virus (SV)40-immortalized human corneal epithelial (HCE-T) cells have been widely used as an in vitro model of human corneal epithelial cells. The nature of this cell line was assessed for genomic aberrations and cellular heterogeneity. METHODS For the quantitative measurement of genomic aberrations, array-based comparative genomic hybridization (CGH) analysis was performed. For identification of cellular heterogeneity, cell morphology, growth kinetics, transepithelial electrical resistance, and transfection/transcriptional efficiency were analyzed. Real-time PCR and chromosomal fluorescent in situ hybridization (cFISH) against some gained or lost loci were performed, to assess genomic heterogeneity. Expressed sequence tags (ESTs) for this cell line were collected to assess differences in the gene expression profiles between HCE-T cells and normal corneal epithelial cells. Southern blot analysis and inverse PCR analyses were used to determine the genomic integration site of the SV40 large T antigen gene (LTAG). RESULTS Array CGH analysis demonstrated that the genomic content of HCE-T cells is different from the normal healthy genome. The results from cellular functional assays, real-time PCR, and cFISH strongly indicated that HCE-T cells consist of a significant number of heterogeneous cell populations. The genomic integration site of the SV40 large T antigen was at p22.1 of chromosome 9. CONCLUSIONS The results indicate that HCE-T cells have an altered genomic content and that they are composed of heterogeneous cell populations. This should be considered when conducting experiments or interpreting the results of studies that use this cell line.

Lattice Corneal Dystrophy Type IV (p.Leu527Arg) Is Caused by a Founder Mutation of the TGFBI Gene in a Single Japanese Ancestor

PURPOSE Lattice corneal dystrophy (LCD) type IV (LCD4) is a late-onset corneal dystrophy with amyloid deposition at the deep stromal layer of cornea. As with other corneal dystrophies, this LCD subtype is also caused by a mutation (p. Leu527Arg) of the transforming growth factor, beta-induced (TGFBI) gene. Although LCD type I has been reported worldwide, LCD4 has been reported only in the Japanese population. In the present study, a haplotype analysis was performed to investigate whether this LCD subtype is caused by a founder mutation. METHODS Genomic DNA samples were extracted from 13 unrelated patients with LCD4. As a control, genomic DNA samples from 96 normal volunteers were also analyzed. For the haplotype analysis, the samples were amplified by polymerase chain reaction (PCR), TA-cloned, isothermally amplified, and subjected to a 1-base primer extension assay against a mutation site (c.1580T>G) and six known single-nucleotide polymorphisms (SNPs; rs4669, rs2072239, rs7727725, rs17689879, rs6871571, and rs3792900), which are located adjacent to the mutation site. RESULTS The haplotype analysis revealed that all the disease-carrying alleles from the 13 LCD4 patients shared an identical haplotype, whereas non-disease-carrying alleles from the normal volunteers and the LCD4 patients exhibited four haplotypes. There was a statistically significant difference in the haplotype distribution between the disease-carrying and the non-disease-carrying alleles. CONCLUSIONS The findings of this study strongly indicate that LCD4 was caused by a founder mutation of the TGFBI gene that occurred in a single Japanese ancestor.

The existence of dead cells in donor corneal endothelium preserved with storage media

Aim To investigate the viability of donor corneal endothelial cells (CECs) preserved in storage media by histological examination. Methods Twenty-eight donor corneas were obtained from SightLife Eye Bank (Seattle, Washington), and redundant peripheral portions of those corneas were used for histological examination after removal of the centre corneal graft for transplantation. To assess cell viability in the corneal endothelium, biostaining experiments were performed using propidium iodide, calcein-AM, Hoechst 33 342, annexin V, anti-vimentin antibody and toluidine blue. Results Histological analysis of the endothelium showed that the cytoplasm of dead cells had low-intensity fluorescence and that their nuclei stained red, while almost all living cells had green cytoplasm and blue-stained nuclei. The mean dead cell rate in the 28 donor corneas was 4.9%±3.3% (mean ±SD) (range: 0.6%–10.5%). The propidium iodide-positive cells stained positive for annexin V, negative for vimentin and pale for toluidine blue. After the specimens were incubated in a culture medium, the red nucleus dead cells dropped off from the level of the blue nucleus living cells. Conclusion Our findings showed the existence of dead cells in storage-media-preserved donor corneal endothelium and that they dropped off after incubation, thus suggesting that the decrease of CECs following keratoplasty may be related to the presence of dead cells.

Findings of secondary corneal amyloidosis with ultrahigh-resolution optical coherence tomography.

Purpose To describe observations by ultrahigh-resolution optical coherence tomography (OCT) in a secondary corneal amyloidosis (SCA) patient with histological analysis of excised tissue. A unique finding under OCT of her fellow eye is also described. Case A 39-year-old female had suffered from trichiasis in both of her eyes for more than 30 years. Slit-lamp examination showed a milky-white soft mass on her left cornea and a linear opacity on the fellow cornea at the cilia-attached region. OCT demonstrated the presence of a mass region within a thin epithelial layer and no destruction of Bowman’s layer in her left cornea. In the fellow cornea, which exhibited a linear opacity, a high-density spot in Bowman’s layer was observed at the cilia-attached region covered by the epithelial layer, with normal thickness. Histological examination of the excised cornea showed that the mass was positive with both Congo red and antilactoferrin antibody. Conclusion SCA, amyloid gradually accumulates above Bowman’s layer, occupying the epithelial layer, with no destruction of Bowman’s layer until the advanced stage. A high-density spot in Bowman’s layer might be the first stage of SCA.

Biopsy of recurrent nasolacrimal duct obstruction using sheath-guided dacryoendoscopy

ABSTRACT Purpose: The purpose of this article is to present a novel technique, as well the histopathological findings, of dacryoendoscopic guided nasolacrimal duct (NLD) biopsy for recurrent nasolacrimal duct obstruction (NLDO). Methods: This study involved subjects with recurrent NLDO. Direct endoscopic probing or sheath-guided endoscopic probing was used for the initial intubation in all treated eyes, and the stent had been removed at between 2 and 11 months (mean 3.5 months) post-intubation with dacryoendoscopic confirmation of patency and mucosal regeneration. Biopsy specimens were obtained by scraping the recurrent lesion by sheath advancement. Histopathological examination and immunohistochemical (IHC) staining were performed. Results: In five patients (two males and three females, mean age: 71.2 ± 5.6 years [range: 61–78 years]) with recurrent NLDO, biopsy specimens were obtained from six ducts of six eyes, and stratified epithelium and a mixed inflammatory cell infiltrates were identified. IHC staining was positive for cytokeratin (CK)4 and CK13, and negative for paired box protein Pax-6. Conclusions: This novel technique enabled a minimally invasive biopsy of the NLD to be obtained, and IHC staining indicated the presence of mucus epithelium, thus suggesting squamous metaplasia of the usual respiratory epithelium which likely occurs secondary to chronic inflammation.

Cytopathological Features of a Severe Type of Corneal Intraepithelial Neoplasia

Purpose: To report the cytopathological features of corneal intraepithelial neoplasia (CIN) through the investigation of cytokeratin expression pattern, keratinization, cell proliferation, apoptosis, and epithelial mesenchymal transition. Patient and Methods: Corneal tissue excised from a CIN patient was examined in this study. Cryosections of the excised CIN epithelial tissue were examined by immunostaining analysis using antibodies against cytokeratins, keratinization-related proteins, Ki-67, human telomerase reverse transcriptase (hTERT), and epithelial mesenchymal transition (EMT)-related proteins. Subcellular localization of F-actin was also analyzed using phalloidin. For the detection of apoptotic cells, terminal deoxynucleotidyl transferase dUTP nick end labeling (TUNEL) assay was performed. Real-time polymerase chain reaction was performed to quantify the expression level of hTERT in the CIN epithelium. Results: The CIN epithelium exhibited a significantly altered cytokeratin expression pattern compared to normal corneas with an upregulated expression of keratinization-related proteins. The CIN epithelium also demonstrated an increased number of Ki-67-positive cells with an upregulated expression of hTERT, while exhibiting an increased number of apoptotic cells. EMT did not occur in the CIN epithelium. Conclusion: CIN epithelium seems to be slightly dedifferentiated from the corneal epithelial lineage. The status of cell proliferation and apoptosis in the CIN epithelium was significantly altered from that of normal corneal epithelium, but its malignancy level does not appear to be as high as that of metastasis-competent malignant cancers.