Expression of vascular endothelial growth factor receptor-3 (VEGFR-3) on monocytic bone marrow-derived cells in the conjunctiva

Vascular endothelial growth factor-3 (VEGFR-3), also known as Fms-like tyrosine kinase receptor 4 (FLT-4), was thought to be expressed exclusively on the lymphatic endothelium, high endothelial venules, and rarely on vascular endothelium. It plays a critical role in the development of lymphatics and cancer metastasis. Very recently, however, VEGFR-3 expression has been identified on dendritic cells (DCs) in the inflamed cornea, and related to the trafficking of these cells to lymphoid organs. The current study was performed to evaluate the expression of VEGFR-3 in the conjunctiva. The conjunctiva and limbus of normal and inflamed murine eyes were excised and stained for VEGFR-3. Immunofluorescence double staining for CD11b, CD11c, CD31, CD45, GR-1, CD3, CD80, LYVE-1 and class II major histocompatibility complex (MHC) antigen expression, using confocal microscopy, was performed to further phenotype the VEGFR-3+ cells. VEGFR-3 and LYVE-1 expression was observed on lymphatic, but not blood vessel, endothelium. In addition, we also detected expression of VEGFR-3 on non-endothelial CD45+ bone marrow-derived cells in the conjunctiva of normal and, in an increased number, in inflamed eyes. These cells were uniformly CD11b+, CD3-, and Gr-1-, suggesting a monocytic origin, similar to the VEGFR-3+ cells in the cornea. Nearly half of the VEGFR-3+ cells were also positive for MHC class II expression, and none were positive for CD80 (B7-1), indicating their relative immature status. In contrast to the recently described VEGFR3+ corneal cells, however, VEGFR-3+ conjunctival cells did not express the DC marker CD11c. We conclude that in addition to its known role in lymphangiogenesis, VEGFR-3 is also expressed by a conjunctival monocyte/macrophage lineage, implicating a potential relationship between lymphangiogenesis and leukocyte trafficking in the ocular surface.     

Inhibition of murine corneal allograft rejection by treatment with antibodies to CD80 and CD86

The purpose of this study was to investigate the role of CD80 and CD86 costimulatory molecules in corneal allograft rejection. Anti-CD80 and anti-CD86 monoclonal antibodies (mAbs) were administered after orthotopic corneal allograft transplantation. Graft rejection was observed by biomicroscopy. Population and localization of CD80(+)and CD86(+)cells in the cornea, cervical lymph nodes, and spleen were examined by flow cytometry and immunohistochemistry. The combined use of anti-CD80 and anti-CD86 mAbs was effective in prolonging corneal allograft survival. In the untreated mice bearing rejected graft, many CD86(+)and CD80(+)cells were found around the host-graft junctional area in the cornea, and CD86(high)cells were found in the cervical lymph node and spleen. In contrast, few CD86(+)or CD80(+)cells were observed in the cornea, cervical lymph node, and spleen from the mice treated with anti-CD80/CD86 mAbs. These results demonstrated a significant role of CD80 and CD86 costimulatory molecules in corneal allograft rejection.     

The chemokine receptor CX3CR1 mediates homing of MHC class II-positive cells to the normal mouse corneal epithelium

PURPOSE: Recent investigations have revealed that populations of macrophages and dendritic cells (DCs) are present in the stroma and epithelium of the cornea, although the precise phenotype and distribution are still controversial. CX(3)CR1, the sole receptor for the chemokine fractalkine, is expressed by these monocyte-derived cells. Transgenic CX(3)CR1(GFP) mice, in which either one (heterozygous) or both (homozygous) copies of the CX(3)CR1 gene were replaced by enhanced green fluorescent protein (eGFP), were used to characterize monocyte-derived cells in the mouse cornea and to determine whether the expression of this receptor influences the recruitment of these cells into the normal cornea. METHODS: Wholemount corneas were immunostained with anti-leukocyte antibodies to the phenotypic markers major histocompatibility complex (MHC) class II, CD169, CD68, CD11b, and CD45 and analyzed by epifluorescence and confocal microscopy. The density of intraepithelial MHC class II(+) cells was quantified in wild-type, CX(3)CR1(+/GFP) heterozygous, CX(3)CR1(GFP/GFP) homozygous, and CX(3)CR1-knockout mice. RESULTS: There was a significant reduction in the number of MHC class II(+) cells (putative DCs) in the corneal epithelium of CX(3)CR1-deficient mice (P < 0.009) compared with wild-type mice, and the few cells that were present did not possess classic dendriform morphology. No GFP(+) MHC class II(-) cells were noted in the epithelium. Dual immunostaining of corneas in both heterozygous and homozygous (CX(3)CR1-deficient) mice revealed GFP(+) cells with a more pleomorphic morphology throughout the entire corneal stroma that were CD11b(+) CD169(+), and had variable degrees of expression of CD68 andMHC class II. The immunophenotype and morphology of these intrastromal cells is strongly indicative of a macrophage phenotype. CONCLUSIONS: This study has identified a role for CX(3)CR1 in the normal recruitment of MHC class II(+) putative DCs into the corneal epithelium and establishes a model for investigating monocyte-derived cells and fractalkine/CX(3)CR1 interactions during corneal disease.     

Identification of novel dendritic cell populations in normal mouse retina

PURPOSE: Whether tissue resident or infiltrating antigen-presenting cells (APCs) are involved in modulating immune responses in the retina and initiating inflammation is controversial. In this histologic study, the authors examine the retinas of mice strains with different susceptibility to experimental autoimmune uveoretinitis (EAU) for tissue resident APC. METHODS: Retinal wholemounts from normal and inflamed eyes of B10R III, C57BL/6, BALB/c, and ABH Biozii mice were immunostained for APC markers (33D1, CD11c, CD11b, major histocompatibility complex [MHC] class II, F4/80, CD80, CD86, CD205, mPDCA, B220, and GR1) and analyzed by confocal fluorescence microscopy using emission fingerprinting and three-dimensional reconstruction techniques. Hematoxylin and eosin-stained histologic sections were used to evaluate EAU disease scores and to assess outer blood retina barrier (retinal pigment epithelium [RPE]) structures. RESULTS: A population of 33D1(+) cells was identified exclusively in the peripheral margins and juxtapapillary areas of the retina in normal, nonimmunized C57BL/6 adult mice. These cells were also MHC class II(high), and their location corresponded to sites of earliest inflammation in EAU. Numbers in the papillary area were very low (less than 10), but this region marked the predominant anatomic site for initiation of inflammation in this moderately susceptible strain. The distribution and phenotype of these cells within the retinas differed between mouse strains exhibiting different disease susceptibility. In EAU-resistant BALB/c mice, many more 33D1(+) dendritic cells were present in the normal retina but were MHC class II(low/-). Conversely, no 33D1(+) or MHC class II (+) dendriform cells could be found in the normal retinas of highly EAU-susceptible B10.RIII mice. CONCLUSIONS: A novel population of 33D1(+) DCs was identified in normal mouse retina. The function of these cells remains to be defined, but increased numbers correlate positively with structural abnormalities in the RPE and increased resistance of the strain to EAU.     

鼠角膜碱烧伤的免疫学研究

目的 探讨角膜碱烧伤后眼局部的免疫反应机制。方法在大鼠角 制作碱烧伤模型。在烧伤后的不同阶段,制备角膜、虹膜组织平片,采用标准的卵白素－生物素过化物酶复合物免疫组方法。观察眼局部Ｔ淋巴细胞亚群,巨噬细胞、树突细胞、主要组织相容性复合物－Ⅱ类怕阳性细胞的动态变化。结果 碱烧伤后早期,角膜及虹膜即有Ｔ淋巴细胞浸润,以ＣＤ３淋巴细胞为主,ＭＨＣ－Ⅱ怕阳性细胞也轻度增多。在角膜溶解穿孔阶段,Ｔ淋巴细胞浸润     

Conjunctival inflammation induces Langerhans cell migration into the cornea

PURPOSE: The virtual absence of Langerhans cells (LC) in donor or recipient corneal epithelium is known to be an important factor in the acceptance of orthotopic corneal allografts. Though it is well known that various types of stimulation to the cornea induce LC migration into the corneal epithelium, resulting in poor graft survival, the influence of conjunctival inflammation on LC migration into the cornea has not been elucidated. Therefore we examined whether LCs migrate into the cornea in the presence of conjunctival inflammation. METHODS: Sixteen BALB/c mice were divided into four groups. Group A: 4 mice with corneal inflammation induced by two 9-0 silk interrupted sutures in the central cornea (positive control); Group B: 4 mice with conjunctival inflammation induced by two 9-0 silk interrupted sutures in the temporal and nasal bulbar conjunctiva 1 mm from the limbus; Group C: 4 mice with conjunctival inflammation by two 10-0 nylon interrupted sutures in the temporal and nasal bulbar conjunctiva 1 mm from the limbus; and Group N: 4 mice with no inflammation (untreated, naive control). Fourteen days after suturing, the mice were sacrificed and LCs migrated into the corneal epithelium were counted by immunofluorescence assay using anti-Ia antibody. RESULTS: In Group A, Ia(+) cells in the cornea totaled 29.4 +/- 3.8 cells/mm(2); in Group B, 7.9 +/- 1.2 cells/mm(2); in Group C, 7.8 +/- 0.7 cells/mm(2); and in Group N, 1. 6 +/- 0.5 cells/mm(2). Significantly greater numbers of Ia(+) cells were detected in Groups A, B and C than in Group N (p < 0.005). CONCLUSIONS: Conjunctival inflammation caused by sutures in the bulbar conjunctiva induced LC migration into the cornea. These results indicate that conjunctival inflammation influences the corneal immunological environment, and may affect the fate of orthotopic corneal allografts.     

角膜移植排斥反应的铺片免疫组化研究

目的 探讨角膜移植排斥反应的发生机制及其参与细胞的表型。方法 制备正常大鼠和穿透性角膜移植鼠的角膜和虹膜睫状体铺片,用８种单克隆抗体,于铺片上进行免疫组化染色。结果 正常周边角膜及角膜缘可见少量的Ｔ细胞（ＣＤ３）、辅助／诱导性Ｔ细胞（ＣＤ４）、抑制／细胞毒Ｔ细胞（ＣＤ８）、巨噬细胞、树突细胞、主要组织相容性复合体Ⅱ类抗原阳性细胞及β转化生长因子阳性细胞;同种角膜移植术后７及１２天角膜和虹膜睫状体中     

内毒素在Lewis鼠诱导的角膜改变——角膜平片的免疫组织化学研究

目的:探讨内毒素全身注射所致的角膜改变。方法:使用抗单核细胞、巨噬细胞和MHC-Ⅱ类抗原阳性细胞的单克隆抗体,用标准的ABC方法于内毒素注射前、后制备的角膜平片上进行免疫组织化学染色。结果:发现在正常角膜中央区实质内有散在分布的巨噬细胞,越近角膜缘分布越密集,MHC-Ⅱ类抗原阳性细胞则仅存在于角膜缘;内毒素注射后,中央区角膜单核巨噬细胞增多,这些细胞于角膜实质内发生了一系列形态学改变,MHC-Ⅱ类抗原阳性细胞仅见于注射后早期的中央区角膜内皮面。结论:内毒素诱导的角膜中巨噬细胞的增多可能是机体应激状态下的重要防御机制,角膜实质中MHC-Ⅱ类抗原的缺如则对维持角膜局部免疫微环境的稳定性有重要意义。眼科学报1996;12:70—74。     

Distinct populations of dendritic cells in the normal human donor corneal epithelium

PURPOSE: To characterize dendritic cells (DC) in normal human corneal epithelium. METHODS: Normal human donor corneal epithelium was examined by fluorescence microscopy with single and double staining for multiple markers. Morphologic studies were also performed by confocal microscopy. HLA-DRa, CD1c, and CD16 mRNA expression in the corneal epithelium was examined by RT-PCR. CD45+ cells were separated from the corneal epithelium with magnetic beads and then were stimulated with TNF-alpha and lipopolysaccharide in vitro. RESULTS: CD45+ cells were mainly located in the basal-cell layer of the corneal epithelium and partly in the wing/surface layers. CD45-positive cell numbers were significantly higher in the peripheral cornea (3-6 mm from the center) than in the central cornea (0-3 mm from the center). All these cells expressed HLA-DR and CD11c but not CD3, CD11b, CD14, CD19, CD56, or CD66, suggesting that these were bone marrow-derived myeloid DC. Some DR+CD11c+ DCs from the periphery expressed CD1c and CD16. HLA-DRa, CD1c, and CD16 mRNAs were detected in normal corneal epithelium. These CD11c+ DCs did not express CD123, CD1a, DC marker (CMRF56), CD40, CD80, or CD86. When CD45+ cells were isolated from the corneal epithelium by magnetic cell sorting, CD40 and CD86 expression were detected after in vitro stimulation with TNF-alpha and lipopolysaccharide. CONCLUSIONS: These findings demonstrate that normal human corneal epithelium contains at least three DC phenotypes, with HLA-DR+ myeloid lineage CD11c+CD16- DCs as the main population plus a small number of CD11c+CD16+ DCs and CD11c+CD1c+ DCs. These cells can be discriminated from bone marrow-derived cells in the human corneal stroma.     

The corneal stroma is endowed with a significant number of resident dendritic cells

PURPOSE: Dendritic cells (DCs) comprise a system of highly efficient antigen-presenting cells (APCs) that initiate immune responses. The purpose of this study was to examine the normal stroma for the presence of DCs and other bone marrow (BM)-derived cells. METHODS: Normal uninflamed corneas of BALB/c and other murine strains were excised, and immunofluorescence single- and double-staining for multiple markers was performed for examination by confocal microscopy. Corneal buttons were placed in culture and immunocytochemistry and flow cytometry performed. RESULTS: MHC class II(+)CD80(+)CD86(+) cells were found in the periphery of the anterior normal stroma. These cells were CD45(+), CD11c(+)CD11b(+) suggesting a BM-derived and monocytic DC lineage. In a surprising finding, significant numbers of MHC class II(-)CD80(-)CD86(-) cells were found in the center of the anterior stroma. These cells were also CD45(+)CD11c(+)CD11b(+) but CD3(-), GR-1(-), keratan sulfate(-), and CD8alpha(-), reflecting an immature precursor phenotype of myeloid DC. In addition to DC subsets in the anterior stroma, a CD11c(-)CD11b(+) population of BM-derived cells was found primarily in the posterior stroma, representing monocytes/macrophages. These cells were rarely present in the anterior third of the normal stroma. Further, CD14(+) precursor-type DCs were found throughout the stroma. These in vivo findings were not strain specific and were confirmed by immunocytochemistry and flow cytometry analyses of cells derived from corneal explants and by transmission electron microscopy. CONCLUSIONS: This study demonstrates that, in addition to the known Langerhans cells in the corneal epithelium, at least three BM-derived cell subsets reside in the normal corneal stroma.     

Existence of small slow-cycling Langerhans cells in the limbal basal epithelium that express ABCG2

Despite the obvious importance of limbal stem cells in corneal homeostasis and tumorigenesis, little is known about their specific biological characteristics. The purpose of this study was to characterize limbal slow-cycling cells based on the expression of ABCG2 and major histocompatibility complex (MHC) class II and the cell size. Wistar rats were daily injected with 5-bromo-2-deoxyuridine (BrdU) at a dose of 5 mg/100 g for 2 weeks. After 4-week BrdU-free period, corneal tissues were excised, and immunofluorescence staining for ABCG2, BrdU, and MHC class II was performed by confocal microscopy. In another series, corneal tissues of normal rat were double immunostained for ABCG2, keratin 14, keratin 3, CD11c, and MHC class II. In addition, limbal, peripheral and central corneal epithelial sheets were isolated by Dispase II digestion and dissociated into single cell by trypsin digestion and cytospin preparations were double immunostained for ABCG2 and MHC class II. The cell size and nucleus-to-cytoplasm (N/C) ratio of limbal ABCG2+ cells were analyzed and compared with those of cells from other zones. BrdU label-retaining cells (LRCs) with expression of ABCG2 were found in the limbal epithelial basal layer, but not in other parts of the cornea. Approximately 20% of these cells were MHC class II positive. All MHC class II+ cells in the corneal epithelium were positive for CD11c, a marker for dendritic cells (DCs). Double labeling with ABCG2 and keratin 14 showed that nearly four-fifth of limbal ABCG2+ cells were positive for keratin 14 but negative for keratin 3, exhibiting an undifferentiated epithelial cell lineage. Cytospin sample analysis revealed the presence of a distinct population of smaller ABCG2+ cells with expression of MHC class II with a larger N/C ratio in the limbal epithelium. A new population of small slow-cycling cells with large N/C ratio has been found to express ABCG2 in the limbal epithelial basal layer. Some of these cells normally express MHC class II antigen. These findings may have important implications for our understanding of the characteristics of limbal slow-cycling cells.     

Quantitative studies on Langerhans cells in mouse corneal epithelium following infection with herpes simplex virus

Dendritic Langerhans cells (LCs) were identified in flat-mount preparations of mouse corneal epithelium after staining for ATPase activity. They were found predominantly in the limbus, but after inoculating the cornea with HSV1 strain SC16 LC, numbers increased both in the limbus and the central cornea. Numbers of LCs reached a maximum on day 8 and if severe keratitis was present remained high at least until day 22. A small but significant increase in LCs was also found in the opposite, uninoculated eye in mice with severe damage in the inoculated eye. After HSV inoculation on the snout, 60% of mice had corneal disease in the eye on the inoculated side; in such mice corneal LCs were at a maximum 18 days after inoculation. The increase in LC numbers was similar whether inoculation was into the cornea or in the snout. After corneal inoculation the cells were distributed fairly evenly over the corneal surface, with accumulations limited to epithelial ulcers. However, after inoculation on the snout, numerous clusters were seen over the epithelial surface, often surround by epithelium devoid of LCs.     

大鼠角膜热烧伤后眼组织平片的免疫组织化学研究

目的:探讨角膜热烧伤后角膜溃烂溶解穿孔以及眼内炎症的免疫学机制。方法:在大鼠角膜上制作热烧伤模型,在烧伤后的不同阶段,制备角膜,虹膜、脉络膜巩膜复合体以及视网膜平片,采用标准的ABC免疫组化方法,观察眼局部T淋巴细胞亚群,巨噬细胞、树突细胞,MHC Ⅱ类抗原阳性细胞的动态变化。结果:烧伤后早期,角膜及虹膜即有T淋巴细胞浸润,以CD3阳性细胞为主,MHCⅡ类抗原阳性细胞也轻度增多;当角膜溶解穿孔阶段,T淋巴细胞浸润达到高峰,在T淋巴细胞亚群中,CD4明显多于CD8阳性细胞;同时,巨噬细胞、树突细胞、MHCⅡ类抗原阳性细胞也大量出现。细胞密集分布于角膜缘,在溃疡溶解处,可见MHCⅡ类抗原阳性细胞及少至中等量CD3阳性淋巴细胞。Ⅱ类抗原阳性细胞在形态学上也发生了些变化,由初期的园形变为多形性,且大小不一。当烧伤恢复期病变稳定时,各种阳性细胞逐渐减少。结论:免疫反应参与了严重角膜烧伤的发病过程,在角膜溶解穿孔的发生中起重要作用。眼科学报 1997;13:70～74。     

Cell subpopulations in failed human corneal grafts

BACKGROUND/AIMS: Inflammatory cells and antigen presenting cells (APC) are not present under normal circumstances in the centre of the healthy cornea. The purpose of this study was to investigate and phenotype the inflammatory cell populations, particularly with reference to T cell subpopulations and macrophages, and to localise dendritic cells (DC) and other MHC class II positive cells in three groups of grafted corneas: rejected non-inflamed, rejected inflamed grafts, and control dystrophic explants. METHODS: 15 corneal buttons removed during keratoplasty from non-inflamed "quiet" previously grafted corneas, five inflamed corneas requiring urgent regrafting for "graft melting" (in "high risk" corneas), and 10 control dystrophic opaque corneas explanted during their first graft procedure were examined. Cryosections of corneas were immunostained with a panel of monoclonal antibodies (mAb) against CD3, CD4, CD8, CD14, CD25, CD68, HLA-DP, and HLA-DR molecules using the StreptABC method. DC were detected by dual immunostaining as CD1a+ and MHC class II+ and CD19-. Cell densities in immunostained tissue sections were evaluated using a scale from 0 to +4. RESULTS: Immunostaining in control dystrophic corneas was negative for all antibodies. A moderate to high density of CD8+, CD14+, and CD68+ cells was observed in the majority of rejected non-inflamed as well as in rejected inflamed corneal buttons. Strong positivity for HLA-DP and HLA-DR molecules in the epithelium, stroma, and endothelium was also demonstrated. Weak positivity for CD4 and CD25 was observed in six of 15 and 11 of 15 rejected corneas, respectively. The presence of dendritic cells in the basal layer of the epithelium and in the stroma was observed in 50% of the grafts. CONCLUSIONS: A high frequency of macrophages, the presence of DC in the explants, and strong expression of HLA-DP and HLA-DR molecules on resident cells are characteristics of rejected corneal allografts, whether actively inflamed or not. The presence of DC in the stroma of the grafted cornea suggests that they may be mainly responsible for T cell activation and graft rejection since DC are known to be a 100-fold more potent than macrophages as APC.     

Characterization of antigen-presenting cells in fresh and cultured human corneas using novel dendritic cell markers

PURPOSE: Adult healthy human corneas bear a distinctive number of antigen-presenting cells (APCs) important for the fate of a graft. The purpose of this study was to differentiate between Langerhans cells (LCs) and other dendritic cells (DCs) and between mature and immature APCs in fresh and cultured human corneas using specific markers. METHODS: Immunofluorescence double staining was performed for Langerin/CD207, CD1a, DC-SIGN/CD209, DC-LAMP/CD208, CD45, CD11c, CD11b and HLA-DR. RESULTS: Langerin(+)/CD1a(+)/HLA-DR(+) LCs (approximately 100 cells/mm(2) in fresh corneas) were found in the limbal and peripheral regions of corneal epithelium and the anterior stroma up to 83 days of culture. All these cells coexpressed CD45 and CD11c. DC-SIGN(+)/CD45(+) DCs (approximately 150 cells/mm(2) in fresh corneas) were detected mainly peripherally and in the anterior stroma, even in long-term cultured corneas. Most of these cells were HLA-DR(-). Few mature DCs (DC-LAMP(+)/HLA-DR(+)) were found in fresh and cultured corneas. Macrophages (CD11c(-)/CD11b(+)) were seen in the peripheral, paracentral, and even central regions of the posterior stroma. CONCLUSIONS: This is the first demonstration that human corneas harbor populations of Langerin(+)/CD1a(+)/HLA-DR(+) LCs and DC-SIGN(+) DCs in a distribution pattern similar to that in the skin. Few APCs are in a mature state (DC-LAMP(+)). Given the reduced but not complete depletion of APCs during organ culture, these grafts still bear a potential risk for rejection.     

Effect of administration of CTLA4-Ig as protein or cDNA on corneal allograft survival

PURPOSE: To examine the role of the CD28-CD80-CD86 pathway of T-lymphocyte costimulation in corneal allograft rejection and the effect of blockade of that pathway on graft survival. METHODS: Kinetics of CD80 and CD86 expression in the cornea and draining lymph nodes were examined by RT-PCR and immunohistochemistry in untreated allograft recipients in a high-responder rat model. The effect of blockade of CD28-mediated costimulation was first examined by ex vivo incubation of excised Brown Norway rat donor cornea with the inhibitory protein CTLA4-Ig or an adenovirus vector (AdCTLA) expressing CTLA4-Ig, before grafting into Lewis rat recipients. A second group of graft recipients received systemic posttransplantation treatment with either CTLA4-Ig or AdCTLA. RESULTS: Expression of CD80 mRNA was increased in both donor and recipient cornea 16 hours after transplantation, whereas CD86 was detected constitutively, with no significant early increase. Immunohistochemistry on day 5 after transplantation demonstrated major histocompatibility complex (MHC) class II expression, no CD80, and only a trace of CD86 in corneal allografts. In lymph nodes strong MHC class II, weak CD80, and moderate CD86 expression was noted. Both donor cornea and recipient treatment with CTLA4-Ig resulted in prolonged allograft survival. AdCTLA was found to induce sustained secretion of bioactive CTLA4-Ig from corneas infected ex vivo. Survival of corneal allografts incubated with AdCTLA was marginally prolonged, and systemic treatment with AdCTLA significantly prolonged survival. CONCLUSIONS: Protein- or gene-based administration of CTLA4-Ig prolongs allograft survival by treatment of either the recipient or the donor tissue ex vivo before grafting.     

Identification of a novel macrophage population in the normal mouse corneal stroma

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.     

Cytokine modulation of costimulatory molecules on human fetal retinal pigment epithelial cells

PURPOSE: Experiments were performed to evaluate the effect of various pro- and anti-inflammatory cytokines on the human fetal retinal pigment epithelium's (HFRPE) expression of major histocompatibility complex (MHC) and costimulatory molecules. METHODS: Pure cultures of HFRPE cells were isolated. HFRPE cells were incubated in the presence of Interferon-gamma (IFN-gamma), IFN-beta, Tumor Necrosis Factor-alpha (TNF-alpha), Interleukin-1beta (IL-1beta), Tumor Growth Factor-beta (TGF-beta), and a combination of IFN-gamma and TGF-beta (pre-incubation and simultaneously incubated). The expression of MHC class I and class II, Intercellular cell adhesion molecule (ICAM-1), B7-1 (CD80), and B7-2 (CD86) molecules was quantitatively analyzed by flow cytometry. RESULTS: The cultured HFRPE cells expressed high levels of MHC class I and low levels of MHC class II and ICAM-1 molecules. After culture with the above mentioned cytokines, IFN-gamma up-regulated the HFRPE's expression of MHC class II and ICAM-1. IFN-beta and IL-beta1 only up-regulated the expression of ICAM-1. TGF-beta was unable to suppress the up-regulatory effect of IFN-gamma in HFRPE cells (pre-incubated and simultaneously incubated). The other cytokines did not have any significant effect on HFRPE's expression of MHC I and II or the selected costimulatory molecules. CONCLUSIONS: Our findings indicate that TGF-beta cannot suppress up-regulating effects of IFNgamma- on HFRPE's expression of MHC and costimulatory molecules. Overall, the weak or lack of expression of costimulatory molecules after stimulation with various cytokines further confirms that HFRPE cells are weak antigen presenting cells.     

Phenotypic Changes and Inflammatory Cell Distribution in the Cornea During Development of Experimental Immune-mediated Blepharoconjunctivitis

Purpose To investigate the morphological changes in the cornea during the development of experimental immune-mediated blepharoconjunctivitis (EC).Methods EC was induced in Brown Norway (BN) rats by active immunization with ovalbumin (OVA) emulsified in complete Freunds adjuvant and a subsequent challenge by OVA eyedrops. The corneas were analyzed immunohistochemically.Results Before the induction of EC, cells stained with OX6 (rat MHC class 2, RT1B), ED1 (tissue macrophages), ED2 (resident macrophages), CD4, or major basic protein were present in the peripheral corneal stroma. ED1- and OX6-stained cells were also observed in the central corneal stroma, and their number increased after the antigen challenge. Infiltration of cells stained with ED1, ED2, OX62 (dendritic cells), CD4, or CD3 (T cells) from the limbus to the peripheral corneal stroma started 6h after the antigen challenge. Expression of MHC class 2 molecules was induced on the corneal epithelium by the antigen challenge.Conclusions The present study demonstrates for the first time the phenotypic changes and distribution of inflammatory cells in the cornea during the development of EC. Jpn J Ophthalmol 2004;48:333–339 © Japanese Ophthalmological Society 2004