Faculty Bibliography

BACKGROUND: The corneal epithelium converges at the peripheral zone (limbus) with the conjunctival epithelium, forming a continuous sheet with phenotypically distinct regions--central, limbal, and conjunctival. The epithelial basement membrane (EBM) is important for corneal functions and cell adhesion, but its regional composition is poorly understood. Current literature is controversial as to the occurrence of type IV collagen in the cornea. The aim of this study was to investigate in detail corneal basement membrane (BM) composition and correlate it with the differentiation state of contributing cells. EXPERIMENTAL DESIGN: Adult human corneas (N = 8) were cryosectioned and analyzed by immunofluorescence with antibodies to 15 BM components and to keratin 3, a marker of corneal epithelial differentiation. RESULTS: A novel type of spatial heterogeneity ('horizontal') in the EBM composition was found between the central cornea, limbus, and conjunctiva. Central EBM had type IV collagen alpha 3-alpha 5 chains, whereas limbal and conjunctival EBM contained alpha 1-alpha 2 chains and also laminin alpha 2 and beta 2 chains. Limbal EBM in addition had alpha 5(IV) chain. Laminin-1 (alpha 1 beta 1 gamma 1), laminin-5 (alpha 3 beta 3 gamma 2), perlecan, fibronectin, entactin/nidogen, and type VII collagen were seen in the entire EBM. Another novel type of BM heterogeneity ('vertical') was typical for the corneal Descemet's membrane: its stromal face had alpha 1(IV) and alpha 2(IV) chains and fibronectin, whereas alpha 3(IV)-alpha 5(IV) chains, entactin/nidogen, laminin-1, and perlecan were present on the endothelial face. CONCLUSIONS: Type IV collagen controversy is the result of the shifts of isoforms in the limbus and conjunctiva. These shifts and the appearance of additional laminins in the limbus may be related to the differentiation state of corneal cells contributing to the EBM formation. Novel types of BM heterogeneity in the human cornea are described: regional (horizontal) in the EBM and vertical in the Descemet's membrane. The first one may be a common feature of converging complex epithelia, whereas the second one may be another unique property of the Descemet's membrane

Asymmetric unit membrane (AUM) consisting of uroplakins is a remarkable structure in the apical plasma membrane of mammalian urothelium. The present study demonstrated that uroplakins existed in intermediate cells of mouse bladder epithelium and formed the typical AUM only in fusiform vesicles of the intermediate cells. The fusiform vesicle is also associated tightly with intermediate filament much like in those of superficial cells. This presents a reliable evidence for the morphogenesis of AUM and the differentiation model of bladder urothelium.

Uroplakins are a group of integral membrane proteins that are synthesized as the major differentiation products of urothelium. The luminal portions of these proteins form 12-nm protein particles arranged in a two-dimensional crystalline array. The expression of uroplakin genes is bladder specific and differentiation dependent; little is known, however, about their molecular regulation. Here we describe the cloning of mouse uroplakin II gene and demonstrate, in transgenic mouse experiments, that a 3.6-kb 5'-flanking sequence of this gene can drive a bacterial lacZ (reporter) gene to express in the suprabasal cell layers of the urothelium. The transgene was not expressed in any tested (nonurothelial) epithelial and other tissues (except hypothalamus). These results suggest that most of the cis elements that confer the bladder-specific and differentiation-dependent expression of mouse uroplakin II gene must reside in the 3.6-kb sequence. The availability of a promoter capable of delivering a foreign molecule to the differentiated cell layers of bladder epithelium opens avenues for studying normal and pathological urothelial differentiation in transgenic mice

PURPOSE. To determine the cell kinetic properties of epithelial cells from various zones of the conjunctiva. METHODS. The morphology and cell kinetics of bulbar, fornical, and palpebral conjunctival epithelium were studied in neonatal and adult SENCAR mice. To examine the proliferative rate of the conjunctival epithelium, a single administration of tritiated thymidine (3H-TdR) was used to detect cells in 'S' phase. Proliferative rates were also assessed by determining mitotic activity after an intraperitoneal injection of colchicine to arrest cells in mitosis. To detect slow-cycling cells, mice received 3H-TdR continuously for 1 week. After a 4-week chase, animals were sacrificed and eyes were surgically removed. All tissues were immediately fixed in formalin and processed for histology and autoradiography. RESULTS. Slow-cycling cells, detected as label-retaining cells (LRCs), were identified in bulbar, fornical, and palpebral epithelia, as well as in limbal epithelium. The greatest number of LRCs was found in fornical epithelium. In addition, we found a number of label-retaining goblet cells. This cell population was shown to incorporate 3H-TdR after a single pulse administration, and mitotic figures were seen in goblet cells after colchicine treatment, indicating that conjunctival goblet cells have proliferative capabilities. CONCLUSIONS. These findings are consistent with earlier in vitro data that the fornical epithelium may be a zone enriched in conjunctival epithelial stem cells. This has important implications in conjunctival epithelial development and is relevant in wound repair. Furthermore, the concept that goblet cells are slow-cycling cells with proliferative capabilities provides new insights into the area of conjunctival homeostasis

We have shown previously that a 300-base pair (bp) 5' upstream sequence of rabbit keratin K3 gene (RK3) can function as a keratinocyte-specific promoter in transient transfection assays. Electrophoretic mobility shift assays using various overlapping and mutated oligonucleotides established that corneal keratinocyte nuclear proteins bound in vitro to two sites (B and E). Immunosupershift and UV cross-linking established that the keratinocyte nuclear binding protein of site B (5'-GGGGCTTTCC-3', -262 to -253 bp) was NFkB consisting of the p65 and p50 subunits. The E site contained an unusual GC-rich motif (5'-CCGCCCCCTG-3', -203 to -194 bp) whose sequence deviated from the Sp1 consensus in 4 out of 10 positions; this site bound an Sp 1-related keratinocyte nuclear protein. Mutagenesis of the NFkB, GC motif, and both sites abolished 20, 50, and 75%, respectively, of the promoter activity in transfected keratinocytes. The NFkB-like keratinocyte nuclear protein was barely detectable in kidney epithelial cells, HeLa, and fibroblasts. The Sp1-related nuclear protein was abundant in keratinocytes and simple epithelial cells, but was much less abundant in fibroblasts. These results indicate that NFkB is present in significant quantities in keratinocyte nuclei and that the tissue restriction of the NFkB- and Sp1-related proteins, in combination with other factors, may contribute to the keratinocyte specificity of RK3 promoter

The luminal surface of mammalian bladder is exposed to urine with a composition widely different from that of plasma that bathes the basolateral surface of epithelium. Therefore we predict that the bladder permeability barrier, which is likely located in the apical membrane (AM), will exhibit low permeabilities to water, urea, NH3, H+, and small nonelectrolytes. AM surface area increases as the bladder fills with urine and decreases during emptying, a process that involves cyclical endocytosis and reinsertion of membrane from a pool of AM endosomes (AME). Rigid-appearing plaques composed of three proteins, uroplakins, have been identified and occupy 70-90% of AM surface area. To determine permeability properties of the AM permeability barrier, we purified AME and measured their permeabilities. Rabbit urinary bladders were removed, and their apical surface was exposed to carboxyfluorescein (CF) or horseradish peroxidase (HRP). Exposure to hypotonic and then isotonic basolateral solutions induced endocytosis of luminal CF or HRP into AME. Electron microscopy of bladders after this treatment revealed HRP entrapped within AME bordered by plaques. AME were purified by differential and sucrose-gradient centrifugation, and CF-containing AME were purified 17.0 +/- 3-fold (SD) with respect to homogenate. Analysis of purified AME by flow cytometry showed that > 95% of vesicles contained CF entrapped from luminal solution and were selectively labeled with anti-uroplakin antibody. AME osmotic water permeability averaged 2.3 +/- 0.66 x 10(-4) cm/s and exhibited a high activation energy, indicating that AM contains no water channels. Permeability to urea and NH3 averaged 7.8 +/- 3.7 x 10(-7) and 1.5 +/- 0.3 x 10(-3) cm/s, respectively, which are exceptionally low and similar to permeabilities of other water-tight membranes, including toad urinary bladder and gastric mucosa. AME behaved as a single population in all permeability studies, which will permit future characterization of protein and lipid structure responsible for these unique permeability properties