Connexin 43 expression and proliferation of human limbal epithelium on intact and denuded amniotic membrane.

PURPOSE: Stem cell (SC)-containing limbal basal epithelium and transient amplifying cell (TAC)-containing corneal basal epithelium lie on different mesenchymal matrices. The gap junction protein connexin 43 (Cx43) is absent in the limbal basal epithelium but is present in the corneal basal epithelium, suggesting that the expression of Cx43 denotes SC differentiation into TACs. Amniotic membrane (AM) can expand limbal epithelial progenitor cells in vivo and in culture for subsequent corneal surface reconstruction. In this study, the modulation of Cx43 expression, gap junction intercellular communication (GJIC), and proliferative activity of ex vivo expanded human limbal epithelial (HLE) cells on intact and epithelially denuded AM was investigated. METHODS: HLE cells were expanded on intact (i.e., remaining devitalized amniotic epithelium) or epithelially denuded AM (EDTA-treated). Cx43 expression and 24-hour 5-bromo-2'-deoxyuridine-5'monophosphate (BrdU) labeling index (percentage) were determined by double immunostaining. GJIC was investigated by a scrape-loading dye transfer assay. In a subset of cultures Cx43 and K3 keratin as well as BrdU-retaining nuclei were analyzed in the stratified epithelium obtained 5 days after subcutaneous transplantation in NIH bg-nu-xidBR mice of AM cultures continuously labeled with BrdU for 7 days. RESULTS: The outgrowth rate, overall, was significantly higher on EDTA-treated AM than on intact AM (P < 0.05). Cx43 was expressed in 12.4% +/- 14.5% (n = 5) on intact and 57.5% +/- 18.2% (n = 5) on EDTA-treated AM (P < 0.05). The BrdU labeling index was 2.4% +/- 0.9% (n = 5) for the intact AM group, which was significantly less than 22.5% +/- 8.2% (n = 5) for EDTA-treated AM (P < 0.05). BrdU-labeled cells did not express Cx43. The dye transfer assay revealed reduced GJIC on both AM-cultured groups compared with the control culture on plastic (P < 0.002). GJIC on intact AM (17%) was reduced compared with that on EDTA-treated AM (27%; P = 0.42). After xenotransplantation, the basal layer of the stratified epithelium was Cx43 and K3 keratin negative and retained BrdU on intact AM, resembling characteristics of the limbal basal epithelium in vivo. In contrast, that of EDTA-treated AM was Cx43 and K3 keratin positive without BrdU retention, resembling characteristics of the corneal epithelium in vivo. CONCLUSION: These data indicate that denudation of the devitalized amniotic epithelium to expose its basement membrane might be a microenvironmental cue to promote TAC differentiation. The model system described herein is ideal for future exploration of the exact mechanistic operation in the microenvironmental niche that maintains the "stemness" of limbal SCs as well as in the signal that promotes corneal TAC differentiation.     

Modulation of keratin and connexin expression in limbal epithelium expanded on denuded amniotic membrane with and without a 3T3 fibroblast feeder layer

PURPOSE. Based on the knowledge that limbal epithelial stem cells (SCs) do not express keratin-3 (K3), connexin (Cx)43, and Cx50, a study was conducted to investigate amniotic membrane (AM) culturing conditions that promote limbal SC expansion. METHODS. Human limbal epithelium was expanded on intact and epithelially denuded AM, with or without a 3T3 feeder layer, and subsequently transplanted to nude mice to induce epithelial stratification and differentiation. Immunostaining and Western blot analysis were used to determine protein expression of K3, Cx43, and Cx50. Expression of integrin-alpha3, -beta1, -alpha6, and -beta4 was investigated by immunostaining. RESULTS. Protein levels of K3, Cx43, and Cx50 in limbal epithelium on intact AM was lower than those on denuded AM. Addition of 3T3 to denuded AM increased the level of Cx43 but decreased that of Cx50. After xenotransplantation, the basal layer of the resultant stratified epithelium on intact AM did not express K3, Cx43, and Cx50, whereas that on denuded AM expressed all three markers. The addition of 3T3 resulted in positive staining of Cx43 and K3 but negative staining of Cx50 in the basal epithelium. After stratification, integrin expression was detected at the basal epithelium-amniotic basement membrane interface in all three culture conditions. CONCLUSIONS. Limbal cultures on intact AM retain a limbal epithelial phenotype, whereas those on denuded AM differentiate into a corneal phenotype. The addition of 3T3 slows but does not prevent corneal differentiation on denuded AM. Such a difference may involve integrin-mediated extracellular matrix interactions.     

Comparison of intact and denuded amniotic membrane as a substrate for cell-suspension culture of human limbal epithelial cells

Background We have previously developed a limbal epithelial culture system using a cell-suspension method on denuded amniotic membrane (AM). However, other workers reported that intact AM is advantageous for limbal epithelial culture in that it preserves stem cell characteristics. In this study, we cultivated human limbal epithelial cell-suspensions on both intact and denuded AM and compared the morphology and adhesion of the limbal epithelial cells on these two substrates.Methods Human limbal epithelial cells were dissociated from donor eyes using dispase and gentle pipetting and then seeded onto intact and denuded AM as cell suspension. Limbal epithelial cells on AM were co-cultured with a MMC-treated 3T3 fibroblast feeder layer and epithelial differentiation was promoted by air lifting. Cultures were examined by light, scanning and transmission electron microscopy and differences in cellular attachments and intercellular spacing were quantified. Basement membrane complexes were examined by indirect immunofluorescence.Results Limbal cells grown on denuded AM were well stratified and differentiated. Cells were well attached to each other and to the basement membrane. In contrast, limbal cells cultured on intact AM failed to stratify and in places formed a monolayer.The culture on denuded AM had significantly (P<0.001) more desmosomal junctions as well as significantly (P<0.001) more junctional attachments to the carrier than the intact culture. In addition, the intercellular spaces between cells cultivated on denuded AM were significantly (P<0.001) smaller than those between cells grown on the intact substrate. In cultures on both denuded and intact AM, the basement membrane zone displayed a positive staining for collagen VII, integrins alpha-6 and beta-4 and laminin 5.Conclusions We successfully cultivated well-stratified and -differentiated limbal cells on denuded AM, while on the intact AM limbal cells failed to stratify and in places formed only a monolayer of cells. The limbal cells cultivated on denuded AM were well attached to the AM stroma and were morphologically superior to the limbal epithelium cultivated on intact AM. We conclude that for purposes of transplantation of differentiated epithelial sheets, denuded AM is probably the more practical carrier for human limbal epithelial cell cultures when using our cell-suspension culture system.     

Conjunctival transdifferentiation is due to the incomplete removal of limbal basal epithelium

Previous studies have shown that using n-heptanol to create a total corneal epithelial defect beyond the limbus results in two different healing patterns with an unpredictable incidence. Between 14-68% of these wounded rabbit corneas (n = 287, combining various reports) showed extensive vascularization and conjunctivalization, whereas the remaining were not vascularized and had conjunctival transdifferentiation with a cornea-like epithelium. To investigate the role of the limbal epithelium in these two healing patterns, the authors treated rabbit eyes for various durations with n-heptanol and additional scraping. Histology showed that treatment for up to 120 seconds removed both the corneal and conjunctival epithelia but left the limbal basal cells intact. To prove viability, they cultured the treated limbal explants on collagen gel. After 14 days of culture, increased stratification of the limbal epithelium and an epithelial outgrowth onto the corneal stroma was observed. The latter was proven to be of corneal origin (positive to AE-5 but negative to AM-3 monoclonal antibody staining). The authors then surgically removed the entire limbal zone including 2 mm of peripheral cornea and 3 mm of adjacent conjunctiva in addition to n-heptanol debridement of the entire corneal epithelium in 54 rabbit eyes and observed a high incidence (96%) of corneal vascularization and conjunctivalization of the resultant epithelial phenotype (positive to AM-3, but negative to AE-5 monoclonal antibody staining). These results support the hypothesis that corneal epithelial stem cells are located in the limbus and indicate that an incomplete removal of the basal limbal epithelium by n-heptanol leads to unvascularized corneas with conjunctival transdifferentiation. Conversely, complete removal of such cells results in corneal vascularization and conjunctivalization.     

An evaluation of cultivated corneal limbal epithelial cells,using cell-suspension culture

PURPOSE: A previous report has described an ocular surface reconstruction method involving the use of cultivated corneal epithelium derived from limbal explants. In the current study, a new culture system was developed involving the in vitro propagation on amniotic membrane (AM) of epithelial cells from enzymatically dissociated limbal epithelium. The purpose of this new method is to produce a cultivated epithelial cell layer that contains stem cells and that is superior to explanted cultivated epithelium. The new cell-suspension technique was compared with the existing explant method. METHODS: Limbal epithelial cells were dissociated from donor eyes by dispase and seeded on the denuded AM. Small pieces of limbal epithelium were also cultured on denuded AM as explant cultures. The cultivated epithelium was examined by electron microscopy and immunohistochemistry for cornea-specific keratins (K3 and K12). RESULTS: Both cell-suspension and explant culture methods produced a healthy epithelial cell layer. The cell-suspension culture had significantly (P < 0.001) more desmosomal junctions between the explant-cultured basal cells. In addition, the intercellular spaces between the cell-suspension's basal cells were significantly (P < 0.001) smaller than those between the explant-cultured basal cells. Both types of cultivated epithelium showed positive expression of K3 and K12 keratins. In the cell-suspension culture, expression of K3 and K12 keratins was more prominent in the superficial cells. CONCLUSIONS: Corneal epithelial cells were successfully regenerated in vitro by a cell-suspension culture system. The suspension-cultured epithelium must include some stem cells and morphologically is significantly superior to explant-cultured epithelium. Thus, this new technique is potentially more suitable for cultivated corneal limbal epithelial transplantation.     

Gap junctional communication in microinjected human limbal and peripheral corneal epithelial cells cultured on intact amniotic membrane

The aim of the study was to determine if human limbal epithelial cells (HLEC) do not form gap junctions (GJ) during ex vivo expansion on preserved and intact human amniotic membrane (AM). Thereby, we attempt to evaluate if characteristic features of the limbal epithelial progenitor cells are preserved on AM. Primary human limbal (HLEC) and peripheral corneal (HPCEC) epithelial cells from limbal and peripheral corneal explants were cultured with SHEM either on intact AM or plastic. After 3-4 weeks, cell cultures were terminated and processed for immunofluorescence. In all cell cultures, formations of GJs were analyzed with a mouse monoclonal antibody to connexin 43 (Cx43) and a rabbit affinity purified antibody against connexin 26 (Cx26). Sections of human limbus and cornea served as positive control. Lucifer yellow (LY) known to be a GJ permeant dye was used to analyse functionality of GJ. Microinjection of LY into single cells was performed with a pressure microinjection device under visual control and with the aid of phase contrast optics. Dye spread of LY into adjacent cells indicating intercellular communication was compared between HLEC and HPCEC cultured either on AM or plastic. In vivo, a punctate pattern of Cx43 was typically found in basal and suprabasal corneal epithelial cells and labeling for Cx26 was observed in all cell layers of the human corneal epithelium, however, subpopulations of limbal basal epithelial cells lacked detectable fluorescence signals for both connexins. In HLEC cultured on AM, a scanty immunolabeling for Cx43 (12.6%) was noted, but HPCEC cultured on AM as well as HLEC cultured on plastic showed a higher labeling index (LI) for Cx43 (42.7 and 52.3%, respectively). A significant lower immunostaining for Cx26 was observed in HLEC cultured on AM (LI: 35.16%) in comparison to HLEC cultured on plastic (68.4%), as well as, HPCEC cultured either on AM or plastic (61% and 79.3%, respectively; p<0.001). Gap junctional communication was evidenced more frequently in HLEC cultured on plastic (51%, p<0.05) in contrast to HLEC cultures on AM, which exhibited a limited dye spread in 29.7% of injected cells. A significant difference in dye coupling was also evidenced between HPCEC on AM (52.9%; p<0.05) and HLEC on AM. Subpopulations of HLEC cultured on AM remain Cx43 and Cx26 negative and without functional GPs indicating that characteristic features of limbal epithelial progenitor cells might be preserved during ex-vivo expansion on AM. These data provide support to the use of the ex-vivo expansion of HLEC as an alternative therapeutic strategy for corneal surface reconstruction in distinct ocular surface diseases.     

Regional heterogeneity in human corneal and limbal epithelia: an immunohistochemical evaluation.

The authors studied the distribution of specific keratins within the superior, inferior, medial, and lateral regions of human limbus and cornea to determine whether the limbal epithelium exhibits regional heterogeneity in its microstructure. A corneal epithelial basic keratin (K3), recognized by monoclonal antibody AE5, was immunohistochemically undetectable in the basal layers of the limbus in these four regions, but was seen in all layers in the central cornea. The pattern of immunostaining with another monoclonal antibody, AE1, which recognizes several acidic keratins, was complementary to AE5 staining in that AE1 recognized a similar heterogeneity in the limbal epithelial cells. AE1 immunoreacted with the basal cells of the limbus, but not those of the central corneal epithelium. Limbal characteristics, as defined by AE1-positive and AE5-negative staining, extended deeply into peripheral cornea in the superior and inferior regions, but to a lesser extent in the lateral and medial regions. The broader regions of epithelium with limbal characteristics in the superior and inferior regions raises the possibility that these regions play an important role in corneal epithelial maintenance and wound healing.     

Identification and characterization of limbal stem cells

The maintenance of a healthy corneal epithelium under both normal and wound healing conditions is achieved by a population of stem cells (SC) located in the basal epithelium at the corneoscleral limbus. In the light of the development of strategies for reconstruction of the ocular surface in patients with limbal stem cell deficiency, a major challenge in corneal SC biology remains the ability to identify stem cells in situ and in vitro. Until recently, the identification of limbal stem cells mainly has been based on general properties of stem cells, e.g. lack of differentiation, prolonged label-retaining, indefinite capacity of proliferation exemplified by the clonogenic assay as well as their special role in corneal wound healing. During the last years, a number of molecular markers for the limbal SC compartment has been proposed, however, their role in distinguishing limbal SC from their early progeny is still under debate. Data reported from the literature combined with our own recent observations suggest, that the basal epithelial cells of the human limbus contain ABCG2, K19, vimentin, KGF-R, metallothionein, and integrin alpha9, but do not stain for K3/K12, Cx43, involucrin, P-cadherin, integrins alpha2, alpha6, and beta4, and nestin, when compared to the basal cells of the corneal epithelium. A relatively higher expression level in basal limbal cells was observed for p63, alpha-enolase, K5/14, and HGF-R, whereas there were no significant differences in staining intensity for beta-catenin, integrins alphav, beta1, beta2, and beta5, CD71, EGF-R, TGF-beta-RI, TGF-beta-RII, and TrkA between limbal and corneal basal epithelial cells. Therefore, a combination of differentiation-associated markers (e.g. K3/K12, Cx43, or involucrin) and putative SC-associated markers (e.g. ABCG2, K19, vimentin, or integrin alpha9) may provide a suitable tool for identification of human limbal SC. While most putative SC markers label the majority of limbal basal cells and, therefore, may not distinguish SC from progenitor cells, only ABCG2 was strictly confined to small clusters of basal cells in the limbal epithelium. At present, ABCG2 therefore appears to be the most useful cell surface marker for the identification and isolation of corneal epithelial SC. Moreover, the characteristics of the specific microenvironment of corneal SC, as provided by growth factor activity and basement membrane heterogeneity in the limbal area, could serve as additional tools for their selective enrichment and in vitro expansion for the purpose of ocular surface reconstruction.     

Histochemical and morphological study of the regenerating corneal epithelium after limbus-to-limbus denudation

Two typical characteristics of the limbal epithelium, namely, its high mitochondria content and histochemically proven proclivity towards carbonic anhydrase staining, were used to identify regenerating corneal epithelium as originating from the limbus. In addition, the period necessary for metaplasia of limbus epithelial cells into typical corneal epithelia was studied in light of these two criteria. It was proven that, on completion of the morphological transformation, after 7 days the positive carbonic anhydrase reaction was identifiable only in the basal cells of the limbus area, as in those of the control animals. It is concluded that in the early phase of reepithelialization, the forward-proliferating epithelial cells can be directly traced to the basal limbus epithelial cells.     

Basement membrane dissolution and reassembly by limbal corneal epithelial cells expanded on amniotic membrane

PURPOSE: To investigate basement membrane (BM) formation during ex vivo expansion of limbal corneal epithelial cells on intact amniotic membrane (iAM) and epithelially denuded (d)AM. METHODS: Human limbal explants were cultured on iAM and dAM. Expression of BM components, including laminin-5, type IV collagen, type VII collagen, perlecan, integrin alpha6, and epithelial cell differentiation markers such as p63, cytokeratin 3 (K3), and cytokeratin 12 (K12), were investigated by immunostaining. Levels of matrix metalloproteinase (MMP)-2 and MMP-9 and tissue inhibitor of matrix metalloproteinase (TIMP)-1 in the conditioned media were determined by ELISA and gelatin zymography. RESULTS: All four BM components were preserved in both iAM and dAM before culturing, but dissolved 1 week afterward when MMP-2 was increased. Epithelial outgrowth correlated with increased expression of MMP-2 and -9 for both cultures. Resynthesis of BM began with laminin-5 followed by other components. This process took place at 1 week on iAM but at 2 weeks on dAM after culturing. At 4 weeks, BM was more maturely deposited as a linear band from the explant toward the leading edge on iAM and temporally correlated with a sharp decline of MMP-9 levels. In contrast, such BM deposition began at the leading edge on dAM only when TIMP-1 levels were increased. Epithelial cell outgrowth on iAM expressed more p63 but less K3 and K12 than did that on dAM. CONCLUSIONS: After dissolution of original amniotic BM, new BM formed by ex vivo expanded human limbal corneal epithelial cells on iAM deposits much faster and is more mature, resulting in regeneration of a limbal epithelial phenotype. In contrast, BM deposition is delayed and remains immature on dAM, resembling wound healing by a corneal epithelial phenotype. Thus, BM resynthesis may be used as another objective readout for assessing the success of ex vivo expansion of limbal epithelial progenitor cells on AM.     

Successful primary culture and autologous transplantation of corneal limbal epithelial cells from minimal biopsy for unilateral severe ocular surface disease

BACKGROUND: Patients with severe unilateral ocular surface disease require reconstruction of the damaged ocular surface. We succeeded in culturing primary corneal limbal epithelial cells taken from minimal biopsy and, once grown, transplanting them on denuded amniotic membrane (AM). METHODS: Autologous corneal limbal epithelial cells from a 3 mm(2) biopsy of the uninjured eye were grown for 3 weeks on a denuded AM carrier. The resultant sheet was then transplanted onto the unilateral severely chemically injured eye. RESULTS: Minimal biopsy showed the autologous cultivated corneal epithelial cells to have 4-5 layers of sufficient stratification and to be well differentiated. At 19 months post-transplantation, the ocular surface epithelium was stable and there were no epithelial defects. CONCLUSION: We document that it is possible to produce sufficiently stratified, well differentiated, autologous cultivated corneal limbal epithelium on AM from a minimal biopsy of the donor eye and to transplant it onto the injured eye.     

人角膜及角膜缘上皮细胞分化标记的检测

目的检测分化标记在人角膜及角膜缘上皮细胞的表达,以了解角膜及角膜缘细胞分化状态,旨在发现新的角膜上皮干细胞的阴性标记。方法获取人角膜及角膜缘组织,对冰冻切片及整个角膜组织行免疫荧光染色检测分化标记钙粘连素E、角蛋白3(CK3)、角蛋白12(CK12)、缝隙连接蛋白43、巢蛋白(nestin)和包壳蛋白(involucrin)的表达,经荧光显微镜及激光扫描共焦电镜观察,并行半定量RT-PCR以检测其相关分化标记基因的表达。结果分化标记CK3、CK12、缝隙连接蛋白43、巢蛋白和包壳蛋白在角膜和角膜缘上皮的表层细胞表达,角膜缘基底细胞不表达。激光扫描共焦电镜观察及RT-PCR结果显示角膜缘基底上皮细胞不表达细胞CK3、连接蛋白43和巢蛋白,而角膜上皮细胞则明显表达。结论角膜及角膜缘表层上皮较为成熟分化,而角膜缘基底细胞具有未分化细胞的特征,很可能是干细胞的部位。     

共焦显微镜引导下取材行人角膜缘上皮干细胞的体外培养及鉴定

背景目前严重的致盲性眼表疾病的治疗方法主要是自体或异体角膜缘干细胞移植，但存在着供体材料来源有限、术后免疫排斥等问题。体外培养角膜缘干细胞用于成为研究热点，优化其培养方法是提高培养效率的前提。目的以共焦显微镜作为指导进行取材，对人角膜缘干细胞进行体外培养和鉴定，为构建人角膜缘干细胞植片奠定基础。方法应用激光扫描共焦显微镜对10例10眼白内障术前检查的患者行全角膜及角膜缘分区扫描，记录角膜及角膜缘上皮层、前弹力层图像，对所有检查资料进行研究分析。依据共焦显微镜对角膜缘上皮层的结构分析，对眼库提供的正常供体角膜缘组织进行取材，实验共分6批取组织进行培养，共接种103张组织块。用组织块培养法、以羊膜为载体进行体外培养，分别在培养的第5天、第10天利用免疫荧光技术检测p63蛋白、细胞角蛋白19（CKl9）和角蛋白3（K3）及involuerin蛋白的表达对培养细胞的表型进行鉴定。结果共焦显微镜扫描显示，角膜缘上皮层细胞聚集成细长条索，呈栅栏状外观，其间可见大量高反光颗粒状物质；在基底部扫描时观察到“细胞岛”样现象；角膜缘部位斜切面观察可见上皮层下有排列整齐的乳头状突起。接种的103块组织块中出膜生长74块，平均出膜率为（68．62±16．94）％，平均出膜时间为（5．83±2．04）d，第3批和第6批组织块的出膜率明显高于第2批和第4批，差异均有统计学意义（P〈O．05）。第4批和第6批组织块的出膜时间明显长于第1、2、3、5批，差异有统计学意义（P〈0．05）。在培养的第5天和第10天，角膜缘干细胞表达p63蛋白的阳性细胞比例分别为4．05％和36．52％，CK19阳性细胞比例分别为26．07％和40．55％，K3的阳性细胞比例分别为57．88％和40．81％，表达involucrin蛋白的阳性细胞比例分别为64．66％和59．19％。结论在共焦显微镜引导下选取角膜缘组织进行角膜缘干细胞培养结果可靠，羊膜作为载体可以使体外培养的人角膜缘干细胞良好生长。     

Corneal epithelial stem cells at the limbus: looking at some old problems from a new angle

Corneal epithelium is traditionally thought to be a self-sufficient, self-renewing tissue implying that its stem cells are located in its basal cell layer. Recent studies indicate however that corneal epithelial stem cells reside in the basal layer of peripheral cornea in the limbal zone, and that corneal and conjunctival epithelia represent distinct cell lineages. These ideas are supported by the unique limbal/corneal expression pattern of the K3 keratin marker for corneal-type differentiation; the restriction of the slow-cycling (label-retaining) cells in the limbus; the distinct keratin expression patterns of corneal and conjunctival epithelial cells even when they are provided with identical in vivo and in vitro growth environments; and the limbal cells' superior ability as compared with central corneal epithelial cells in undergoing in vitro proliferation and in reconstituting in vivo an intact corneal epithelium. The realization that corneal epithelial stem cells reside in the limbal zone provides explanations for several paradoxical properties of corneal epithelium including its 'mature-looking' basal cells, the preponderance of tumor formation in the limbal zone, and the centripetal cellular migration. The limbal stem cell concept has led to a better understanding of the strategies of corneal epithelial repair, to a new classification of various anterior surface epithelial diseases, to the use of limbal stem cells for the reconstruction of corneal epithelium damaged or lost as a consequence of trauma or disease ('limbal stem cell transplantation'), and to the rejection of the traditional notion of 'conjunctival transdifferentiation'. The fact that corneal epithelial stem cells reside outside of the cornea proper suggests that studying corneal epithelium per se without taking into account its limbal zone will yield partial pictures. Future studies need to address the signals that constitute the limbal stem cell niche, the mechanism by which amniotic membrane facilitates limbal stem cell transplantation and ex vivo expansion, and the lineage flexibility of limbal stem cells.     

角膜上皮干细胞定位特征的免疫组织化学研究

利用单克隆抗体ＡＥ５与分化型角膜上皮细胞中角蛋白Ｋ３特异性结合,研究缺乏分化标志特征的角膜上皮干细胞定位特点,应用免疫组织化学方法显示Ｋ３阳性表达的区域分布于除角膜缘上皮基底部以外的所有角膜上皮细胞中,角膜上皮干细胞存在于角膜缘基底部ＡＥ５抗体反应阴性细胞中,即角膜干细胞位于角膜缘上皮层基底部。     

人角膜上皮干细胞的识别

目的 探讨人角膜上皮干细胞的分子标记。方法 对人角膜和角膜缘部位行组织学检查以分析角膜缘解剖结构。对人角膜切片和整个角膜组织行免疫组织化学染色以检测中央角膜和角膜缘部位未分化标记,如核蛋白p63、乳腺癌抵抗蛋白（ABCG2,BCRP1）、烯醇化酶α、整合素拍、胡及β1、表皮生长因子受体（EGFR）、细胞角蛋白19（CK19）、14（CK14）及转铁蛋白受体（CDT1）的表达,经荧光显微镜和激光扫描共焦显微镜观察。对角膜中部和角膜缘上皮细胞的mRNA进行半定量逆转录聚合酶链反应（RT—PCR）和原位杂交以检测其相关基因的表达。结果 角膜缘部位横向切片显示角膜缘上皮细胞为乳头放射状排列,对应于Vogt栅栏环境。未分化标记整合素β1、EGFR、烯醇化酶α及CK19在角膜缘基底细胞胞质染色较表层细胞更强;p63、ABCG2、整合素胡蛋白仅见于角膜缘基底部上皮细胞。激光扫描共焦显微镜观察和RT—PCR结果显示角膜缘表达p63、ABCG2、整合素胡蛋白及mRNA。原位杂交显示p63仅表达于角膜缘基底层细胞。结论 角膜缘上皮呈乳头放射状排列,角膜缘干细胞群具有复合标记：p63表达于细胞核、ABCG2表达于胞质、整合素胡表达于胞膜。采用这些标记复合体,可将角膜缘干细胞群与其他上皮细胞区分。     

Limbal stem cells of the corneal epithelium

Stem cells have certain unique characteristics, which include longevity, high capacity of self-renewal with a long cell cycle time and a short S-phase duration, increased potential for error-free proliferation, and poor differentiation. The ocular surface is made up of two distinct types of epithelial cells, constituting the conjunctival and the corneal epithelia. Although anatomically continuous with each other at the corneoscleral limbus, the two cell phenotypes represent quite distinct subpopulations. Stem cells for the cornea reside at the corneoscleral limbus. The limbal palisades of Vogt and the interpalisade rete ridges are believed to be repositories of stem cells. The microenvironment of the limbus is considered to be important in maintaining the stemness of stem cells. Limbal stem cells also act as a "barrier" to conjunctival epithelial cells and normally prevent them from migrating on to the corneal surface. Under certain conditions, however, the limbal stem cells may be partially or totally depleted, resulting in varying degrees of stem cell deficiency with resulting abnormalities in the corneal surface. Such deficiency of limbal stem cells leads to "conjunctivalization" of the cornea with vascularization, appearance of goblet cells, and an irregular and unstable epithelium. This results in ocular discomfort and reduced vision. Partial stem cell deficiency can be managed by removing the abnormal epithelium and allowing the denuded cornea, especially the visual axis, to resurface with cells derived from the remaining intact limbal epithelium. In total stem cell deficiency, autologous limbus from the opposite normal eye or homologous limbus from living related or cadaveric donors can be transplanted on to the affected eye. With the latter option, systemic immunosuppression is required. Amniotic membrane transplantation is a useful adjunct to the above procedures in some instances.     

Novel enzymatic isolation of an entire viable human limbal epithelial sheet

OBJECTIVE. To develop a reproducible method of isolating an intact viable human limbal epithelial sheet. METHODS. Human pigmented limbus was incubated at 4 degrees C for 18 hours in supplemental hormonal epithelial medium (SHEM) containing 50 mg/mL dispase II and 100 mM sorbitol. A loose limbal epithelial sheet was separated by a spatula. The remaining stroma was digested and subcultured. The viability of isolated cells was assessed. Isolated epithelial sheets and remaining stroma were subjected to immunostaining. Sheets 1.5 mm in length were cultured in SHEM on plastic until confluence, and cell extracts were subjected to Western blot analysis. RESULTS. Intact limbal epithelial sheets were consistently isolated. Pigmented palisades of Vogt revealed large superficial squamous cells and small basal cuboidal cells. No epithelial cells grew from the remaining stroma. Mean viability was 80.7% +/- 9.1%. The basal epithelium was negative to keratin 3 and connexin 43, but was scatter positive for p63. The epithelial sheet showed negative staining for laminin 5 and collagen VII, but interrupted linear basal staining for collagen IV. The remaining stroma showed negative staining for laminin 5, positive linear staining for collagen IV in the basement membrane, and diffuse staining for collagen VII in the superior stroma subjacent to the basement membrane. Western blot analysis revealed that cells originating from the limbal sheets expressed keratin 3 and p63. CONCLUSIONS. An intact limbal epithelial sheet can be consistently and reproducibly isolated and contains stem cell characteristics in the basal epithelium by degrading laminin 5 and part of collagen IV, and disassembling collagen VII.