Partial restoration of the keratocyte phenotype to bovine keratocytes made fibroblastic by serum

PURPOSE: To determine whether keratocytes made fibroblastic in vitro by addition of fetal bovine serum to the medium regain the keratocyte phenotype after culture in serum-free medium. METHODS: Collagenase-isolated keratocytes from bovine corneas were plated in DMEM/F-12 containing 1% horse plasma, to allow cell attachment, and then cultured until day 4 in either DMEM/F-12 alone, to retain the keratocyte phenotype, or in DMEM containing 10% fetal bovine serum, to cause the keratocytes to become fibroblastic. Medium for the fibroblastic cells was replaced on day 4 with serum-free medium, and cells were cultured until day 12. Cell phenotypes were determined on days 4 to 5 and 11 to 12 of culture as follows: (1) by the morphologic appearance on phase-contrast microscopy; (2) by the levels of aldehyde dehydrogenase in the cells, determined by SDS-PAGE and Coomassie blue staining; (3) by the relative synthesis of collagen types I and V, determined by (14)C-proline radiolabeling; (4) by pepsin digestion and analysis of collagen types by SDS-PAGE autoradiography; (5) by relative synthesis of cornea-specific proteoglycan core proteins determined by analysis of chondroitinase- or endo-beta-galactosidase-generated radiolabeled core proteins by SDS-PAGE autoradiography; and (6) by the relative synthesis of keratan sulfate and chondroitin sulfate determined by (35)SO(4) radiolabeling and measuring the sensitivity to endo-beta-galactosidase and chondroitinase ABC. RESULTS: Keratocytes cultured in serum-free medium appeared dendritic and became fibroblastic in appearance when exposed to medium containing serum. Keratocytes and fibroblasts synthesized a similar proportion of collagen types I and V. However, compared with the keratocytes, the fibroblasts possessed no aldehyde dehydrogenase and synthesized significantly higher levels of decorin and significantly lower levels of prostaglandin D synthase (PGDS) and keratan sulfate. Subsequent culture of the fibroblasts in serum-free medium did not restore aldehyde dehydrogenase to keratocyte levels but did restore the cell morphology to a more dendritic appearance and returned the synthesis of decorin, PGDS, and keratan sulfate to keratocyte levels. CONCLUSIONS: The results of these studies indicate that primary cultures of keratocytes made fibroblastic by exposure to serum can return to their keratocyte phenotype in synthesizing extracellular matrix. These results also indicate that the differences in the organization of the collagenous matrix produced by keratocytes and fibroblasts may be related more to the different proteoglycan types than to the collagen types produced.     

Rabbit corneal endothelial cells modulated by polymorphonuclear leukocytes are fibroblasts. Comparison with keratocytes

The authors previously reported that polymorphonuclear leukocytes modulate rabbit corneal endothelial cells into fibroblasts, which acquire the characteristics of fibroblasts. The progeny of the fibroblastic corneal endothelial cells (FCEC) were further studied to compare the characteristics of the fibroblast with those of keratocytes as a function of culture age. During 11 days in culture, FCEC showed 32 population doublings, whereas keratocytes underwent 10 population doublings. When collagen phenotypes of both cultures were analyzed as a function of culture age, labeled collagens in both cultures were fractionated into types I, III, and V. The proportion of each collagen was relatively unchanged in keratocytes regardless of culture age: type I accounted for 92-96%, type III for 2-6% and type V for 2-5%. In contrast, the profiles were significantly changed in FCEC: at day 2, type I accounted for 57%, type III for 37.5%, and type V 5.5%. Over the following 2 days, type I increased to approximately 75%, whereas type III collagen decreased to approximately 20%. As FCEC multilayered, type I collagen synthesis reached a stationary level of 80%, with 12% of type III. When the stoichiometry of type I collagen was compared, the alpha 1/alpha 2 ratio was 6.2 in FCEC and the ratio was 3.5 in keratocytes at day 2. The ratio reached a normal value at day 7 in FCEC and at day 3 in keratocytes. The synthesis of type I trimer and transient alteration of type I/III and the rapid growth rate at early stages of growth, indicate that FCEC behave like cells seen in wound healing or other rapidly growing tissues, in contrast to the stabilized keratocytes.     

Myofibroblast differentiation of normal human keratocytes and hTERT,extended-life human corneal fibroblasts

PURPOSE: The purpose of this study was to determine whether TGFbeta induces myofibroblast differentiation in cultured human keratocytes and in telomerase (hTERT)-immortalized human corneal fibroblast cell lines. METHODS: Normal human corneal keratocytes were isolated from donor corneas of various ages and grown under serum-free (cultured keratocytes) or serum-added (corneal fibroblasts) conditions. Corneal fibroblasts were infected with the MPSV-hTERT retroviral vector, and selected clones were isolated and characterized by chromosomal karyotyping. The responses of normal cultured keratocytes and serum-starved corneal fibroblasts to TGFbeta in the presence or absence of Arg-Gly-Asp (RGD)-containing peptides and neutralizing antibodies to platelet-derived growth factor (PDGF) were characterized by immunocytochemistry, Western blot analysis, and real-time PCR, to identify assembly of actin filaments, formation of focal adhesions, and expression of alpha-smooth muscle actin (alpha-SMA). RESULTS: Treatment of cultured keratocytes with TGFbeta (1 ng/mL) induced cell spreading, assembly of actin filaments, formation of focal adhesions, and expression of alpha-SMA, which was blocked by the addition of RGD-containing peptides (100 microM). A similar response was identified in hTERT-expressing human corneal fibroblast cell lines, showing a 69-fold increase in alpha-SMA message. Furthermore, treatment of hTERT corneal fibroblasts with RGD or anti-PDGF inhibited myofibroblast differentiation. Karyotype analysis of hTERT corneal fibroblasts identified age-dependent chromosomal aberrations in cells of older donors but not in those of a 10-year-old donor. CONCLUSIONS: Induction of myofibroblast differentiation by TGFbeta in cultured human keratocytes and hTERT corneal fibroblasts occurs through a similar signal transduction pathway to that previously identified in the rabbit, which involves an autocrine PDGF feedback loop.     

羊膜上皮细胞培养液抑制角膜基质细胞凋亡的实验研究

目的 对羊膜上皮细胞培养液抑制由肿瘤坏死因子(TNF-α)诱发的角膜基质细胞凋亡进行研究。方法 体外培养兔角膜基质细胞(RCK),30ng/ml TNF-α诱发角膜基质细胞凋亡。实验分为对照组、羊膜上皮细胞培养液组(羊膜组)和阴性对照组。应用FITC-dUTP-TUNEL和DAPI染色检测RCK细胞凋亡发生率,分别测定经24h培养后各组细胞凋亡特异性DNA梯形降解。Western blot检测细胞凋亡保护性因子Bcl-2、促进因子Bax在经羊膜上皮细胞培养液处理后于细胞中表达强度及Bcl-2/Bax比值变化。结果 羊膜上皮细胞培养液明显抑制由TNF-α诱发的兔角膜基质细胞凋亡,DAPI染色显示24h对照组,羊膜培养液组和阴性对照组细胞凋亡发生率分别为:42.4％±4.3％,2.2％±0.3％和2.7％±0.4％。DNA降解实验显示羊膜上皮细胞培养液明显抑制TNF-α诱导的DNA片段降解。Western blot显示羊膜上皮细胞培养液明显刺激RCK细胞Bcl-2蛋白的表达和分泌。结论 羊膜培养液中可能释放的多种细胞因子对TNF-α诱发的角膜基质细胞调亡具有明显的抑制作用,其作用机制之一是刺激Bcl-2在RCK细胞的表达,并使Bcl-2/Bax比值上调。     

Stimulation of collagen synthesis by insulin and proteoglycan accumulation by ascorbate in bovine keratocytes in vitro

PURPOSE: Ascorbate is required for the hydroxylation of collagen that is present in the corneal stroma. The keratan sulfate proteoglycans (KSPGs) lumican and keratocan are also present, and they interact with collagen and modulate its assembly into fibrils. In this study, ascorbate was added to a defined medium containing insulin, and its effects on the synthesis of collagen and KSPGs by keratocytes were determined. METHODS: Collagenase-isolated keratocytes were cultured with or without insulin with or without ascorbate. Collagen and glycosaminoglycan synthesis was determined by collagenase digestion of incorporated 3H-glycine and by chondroitinase ABC or endo-beta-galactosidase digestion of incorporated 35SO4. KSPGs were detected by Western blot. Collagen stability was determined by pepsin digestion. Ethyl-3,4-dihydroxybenzoate (EDB) was used to inhibit collagen hydroxylation. RESULTS: Insulin stimulated the synthesis of collagen but did not affect the accumulation of lumican and keratocan. Insulin plus ascorbate, however, stimulated the synthesis of collagen and increased the accumulation of these proteoglycans. The accumulation of PGDS, a KSPG that does not interact with collagen, was not affected by ascorbate. Only the collagen synthesized in the presence of ascorbate was pepsin resistant. EDB overrode the effects of ascorbate on pepsin resistance and proteoglycan accumulation. CONCLUSIONS: The results of this study indicate that the accumulation of lumican and keratocan depends in part on the level of collagen synthesis and its hydroxylation. The interaction of lumican and keratocan with the stably folded triple helix provided by hydroxylation may also serve to stabilize these proteoglycans.     

IGF-II is present in bovine corneal stroma and activates keratocytes to proliferate in vitro

Extracts of bovine corneal stroma have been shown to activate keratocytes in culture to proliferate. We fractionated stromal extract on a column of Sephacryl S-300 and tested the fractions for mitogenic activity using cell culture and for the presence of IGF-II and its binding protein IGFBP-2 by Western blot. We found that the mitogenic activity in the extract separated into major and minor peaks and that immunologically detectable IGF-II and IGFBP-2 co-eluted with the minor peak. We also compared the effects of 10 ng IGF-II/ml on keratocytes in culture to that of 2 ng TGF-beta/ml over a 7-day culture period. We found that IGF-II and TGF-beta, alone or combined, increased both (3)H-thymidine incorporation and DNA content of the cultures. The phenotype of the cells was determined by using antibodies to alpha-SM (smooth muscle) actin, fibronectin, SPARC, lumican and keratocan in Western blots of cell layers of media. Keratocytes cultured in IGF-II expressed no alpha-SM actin or fibronectin, low levels of SPARC and high levels of lumican and keratocan, indicating a native phenotype. Keratocytes in TGF-beta expressed alpha-SM actin, fibronectin, SPARC and lumican, and expressed no or low levels of keratocan, indicating a myofibroblast phenotype. Keratocytes cultured in IGF-II plus TGF-beta, however, expressed alpha-SM actin, fibronectin, SPARC, lumican, and keratocan by day 7 of culture. The results of this study show that IGF-II to be present in the corneal stroma, to stimulate keratocyte proliferation while maintaining native phenotype and to override the TGF-beta mediated down regulation of keratocan production. The IGF-II in the stroma may serve as a mechanism to immediately activate keratocytes upon wounding and to ameliorate the scarring effects of TGF-beta.     

Modulation of cultured corneal keratocyte phenotype by growth factors/cytokines control in vitro contractility and extracellular matrix contraction

The purpose of this study was to evaluate specific keratocyte phenotypes (keratocyte, fibroblast, myofibroblast) for cell contractility and ability to contract extracellular matrix. Rabbit keratocyte phenotype was modulated by exposure to optimal proliferative doses of IGF-I, IL-1alpha, FGF2, PDGF-AB, and TGFbeta(1). Cells were then evaluated by immunocytochemistry, western blot, collagen gel contraction and LPA stimulation to measure: (1) focal adhesion (FA), fibronectin (FN) and f-actin assembly; (2) expression of alpha-smooth muscle actin (alpha-SMA); (3) ability to contract extracellular matrix and (4) determine contractile ability, respectively. Untreated keratocytes showed no ability to contract collagen matrix. IGF-I and IL-1alpha increased cell proliferation (70.2 and 74.3%, respectively) but did not alter keratocyte phenotype or ability to contract matrix. FGF2 and PDGF induced fibroblast differentiation with FA and FN assembly and significant (p<0.05) extracellular matrix contraction. TGFbeta(1) induced myofibroblast differentiation with prominent FA and FN assembly, expression of alpha-SMA and significantly greater (p<0.05) matrix contraction. Addition of LPA induced actin filament assembly in growth factor starved fibroblasts and myofibroblasts but had no effect on the cultured keratocyte phenotype. We report for the first time that the keratocyte phenotype is non-contractile and that cell quiescence is not a defining characteristic. We further establish that changes in environmental conditions modulate the keratocyte phenotype resulting in physiologically functional differences regarding cell contractility and capacity to contract extracellular matrix.     

Ultrastructure of cultured and cryopreserved human corneal keratocytes.

PURPOSE: To describe the ultrastructural features of cultured and cryopreserved keratocytes. METHODS: Isolated human keratocytes were cultured with 10% fetal calf serum and 10 ng/ml acidic fibroblast growth factor. The 10% Me2SO and 10% human albumin were used as cryoprotective agents. Cells were cooled at 2 degrees C/min, then thawed at 37 degrees C, and subsequently recultured. They were studied by means of transmission electron microscopy (TEM). RESULTS: TEM of cultured keratocytes before cryopreservation showed a network of intact connecting cells. The average cell thickness was 2.4 microm in cross sections and 5.8 microm in frontal sections. The average nuclear thickness was 1.6 microm in cross sections and 3.7 microm in frontal sections. Nuclei appeared regular and oval in cross sections and indented in frontal sections. Organelles were found in greater amounts in frontal sections than in cross sections. Gap junctions, fenestrations along the cell surface, omega-shaped structures, fibrils, and filamentous networks also were found. Most of the just-thawed, suspended cells were elongated and condensed but had intact plasma membranes. These cells were surrounded by a granular material, corresponding to the albumin-containing thawing medium. Scattered isolated round cells displayed nuclear damage, cell edema, loss of organelles, and cell-membrane disruption. By the end of reculture after cryopreservation, cultured keratocytes displayed the same ultrastructural features as before cryopreservation. CONCLUSION: Cultured human keratocytes display many ultrastructural features of in situ keratocytes. These features are still present after reculture after cryopreservation. Cryopreservation induces necrosis in a small percentage of cells, which seems to be related to a relative lack of cell-membrane protection by the cryoprotectants used.     

Tropoelastin biosynthesis by corneal cells. Epithelial inhibition of keratocyte tropoelastin biosynthesis

The vertebrate cornea is an avascular tissue and does not contain elastic fibers. We tested the capacity of corneal epithelial cells and stromal keratocytes to synthesize tropoelastin. Explant cultures and cell cultures were obtained from these two cell types in standard culture conditions. Their elastin-synthetic activity was compared to skin explant cultures and to dermal fibroblast cell cultures. Both corneal cell types synthesized tropoelastin as shown by the incorporation of a radioactive precursor followed by immunoprecipitation of tropoelastin. When serial cultures of keratocytes were tested, tropoelastin biosynthesis strongly increased after the 3rd passage and was at the 9th passage more than the double of that of the first passage. When cocultures were studied with or without cell contact, epithelial cells partially inhibited tropoelastin biosynthesis by keratocytes. This inhibition was somewhat stronger (-36%, p < 0.005) with cell-to-cell contact than keeping separate epithelial cells and keratocytes bathing in the same medium (-18%, p < 0.005). When human skin fibroblasts were substituted for keratocytes with cell-to-cell contact, their tropoelastin biosynthesis was also inhibited by corneal epithelial cells (-42%, p < 0.005), to the same extent as for keratocytes. In Transwell culture, this inhibition was again somewhat lower (-36%, p < 0.005). Some diffusible factor produced by epithelial cells is apparently involved. The epithelial inhibition of tropoelastin biosynthesis by stromal keratocytes might represent one of the mechanisms keeping corneal stroma exempt of elastin fibers.     

兔角膜内皮、上皮及基质细胞体外培养扩增的研究

目的 建立角膜上皮、基质及内皮细胞体外培养扩增的简单稳定的方法，为组织工程化角膜的构建提供种子细胞。方法 内皮细胞与后弹力层在培养基中孵育后消化法获原代细胞，胰酶消化去除表层上皮后取角膜缘，组织块法培养角膜缘上皮细胞，基质细胞应用胶原酶消化法获原代培养，各细胞融合后胰酶消化依次传代培养。结果 原代内皮细胞4—5d融合成单层细胞，可连续传6—7代。上皮细胞1周左右生长融合，连续传3—4代后细胞形态改变。基质细胞接种6—7d后近融合，传代后增殖明显，可连续传10代。结论依据角膜组织特征选择合适的方法体外分离、培养角膜3种细胞成分，可获连续传代扩增的角膜细胞。     

Aquaporin-1-facilitated keratocyte migration in cell culture and in vivo corneal wound healing models

Aquaporin-1 (AQP1) water channels are expressed in corneal keratocytes, which become activated and migrate following corneal wounding. The purpose of this study was to investigate the role of AQP1 in keratocyte migration. Keratocyte primary cell cultures from wildtype and AQP1-null mice were compared, as well as keratocyte cultures from pig cornea in which AQP1 expression was modulated by RNAi knockdown and adenovirus-mediated overexpression. AQP1 expression was found in a plasma membrane pattern in corneal stromal and cultured keratocytes. Osmotic water permeability, as measured by calcein fluorescence quenching, was AQP1-dependent in cultured keratocytes, as was keratocyte migration following a scratch wound. Keratocyte migration in vivo was compared in wildtype and AQP1 knockout mice by histology and immunofluorescence of corneal sections at different times after partial-thickness corneal stromal debridement. AQP1 expression in keratocytes was increased by 24 h after corneal debridement. Wound healing and keratocyte appearance near the wound margin were significantly reduced in AQP1 knockout mice, and the number of neutrophils was increased. These results implicate AQP1 water permeability as a new determinant of keratocyte migration in cornea.     

Induction of cellular toxicity in cultured porcine corneal keratocytes by endothelin-1.

The effect of endothelin-1 (ET-1) on corneal cells is not well understood. We investigated the biochemical changes of cultured porcine corneal keratocytes under exposure to ET-1. The results indicate that ET-1 has remarkable effects to inhibit corneal keratocytes on 3H-thymidine, 3H-leucine, 3H-uridine uptakes and cellular migration. It is in a dose-dependent manner at concentrations ranging from 10(-7) M to 10(-9) M. The 50% inhibitory dose (ID50) for ET-1, as measured by 3H-thymidine uptake, 3H-uridine uptake and 3H-leucine uptake, were 10(-7) M, 10(-0.52) M and 10(-11.8) M, respectively. The dead and living cells were estimated with MTT (3-[4,5-dimethylthiazol-2-yl]-2,5-diphenyl tetrazolium bromide) assay that was converted tetrazolium dye of living cells only into insoluble purple formazan crystals within mitochondria. In the presence of ET-1, the cellular MTT values were also decreased. The ID50 for ET-1 with cell migration assay and MTT assay were measured at 10(-7.86) M and 10(-5.1) M. Endothelin-1 (10(-6) M) promptly changed cellular morphology and attenuated adhesion observed with laser scanning cytometer. Endothelin-1-induced characteristic apoptosis cells were observed using a TUNEL assay that detected fragmented DNA of apoptosis. Western blot assay revealed that endothelin-1 induced proteolysis and decreased in fibronectin protein. These findings indicate that endothelin-1 may lead keratocytes to death resulting from induction of apoptosis and functional loss.     

Increased stromal extracellular matrix synthesis and assembly by insulin activated bovine keratocytes cultured under agarose

Previously, pharmacological levels of insulin have been shown to stimulate the synthesis of normal corneal stromal collagen and proteoglycans by bovine keratocytes in culture. Here we compared insulin to physiological levels of IGF-I and found that IGF-I also stimulated the synthesis of these extracellular matrix components, but less than that of insulin. Keratocytes in monolayer culture secreted most of the collagen synthesized into the media in the form of procollagen, a precursor of collagen. We found that an overlay of 3% agarose on the keratocytes in culture enhanced the conversion of procollagen to collagen and increased the deposition of collagen and proteoglycans into the cell layer. The extracellular matrix associated with the keratocytes cultured under agarose exhibited a corneal stromal-like architecture. These results suggest that enhancing the conversion of procollagen to collagen is a key step in the formation of extracellular matrix by keratocytes in vitro. Agarose overlay of insulin activated keratocytes in culture is a useful model for studying corneal stromal extracellular matrix assembly in vitro.     

Growth factors and corneal endothelial cells: I. Stimulation of bovine corneal endothelial cell DNA synthesis by defined growth factors.

Peptide growth factors and other physiological growth modifiers were evaluated for their ability to stimulate DNA synthesis in early passage cultures of bovine corneal endothelial cells (BCEC). Increasing concentrations of newborn bovine serum (0.5-10%) causes a progressive increase in DNA synthesis, which approached a plateau at 10% serum. Supplementing medium with 10% serum from different lots of newborn bovine serum or fetal bovine serum stimulated significantly different levels of DNA synthesis by BCEC. Addition of epidermal growth factor (EGF) (2 nM) to medium containing 10% newborn or fetal bovine serum further increased DNA synthesis. Dose-response curves for EGF, transforming growth factor-alpha, basic fibroblast growth factor (bFGF), and insulin-like growth factor I showed that each significantly stimulated high levels of DNA synthesis (200-700% increase) compared with BCEC cultured in serum-free medium. Vaccinia growth factor, insulin, and transforming growth factor-beta each significantly stimulated lower levels of DNA synthesis (30-200% increase), whereas nerve growth factor, multiplication stimulating activity, and platelet-derived growth factor all failed to significantly stimulate DNA synthesis above the level of serum-free medium. Other physiological growth modifiers were tested for their effects on DNA synthesis of BCEC. Transferrin and low levels of 3',5'-cyclic monophosphate (cAMP) stimulated very low levels of DNA synthesis (50% increase) whereas linoleic acid, high levels of selenium, or cAMP each inhibited DNA synthesis 25-75% below the level of BCEC cultured in serum-free medium. A series of eight formulations containing various combinations of EGF, FGF, insulin, transferrin, selenium, linoleic acid, retinoic acid, cAMP, heparin, and endothelial cell growth factor were tested for their mitogenic action on BCEC cultures. A formulation containing EGF, insulin, transferrin, selenium, and linoleic acid (EGF + ITSL) stimulated the highest level of DNA synthesis of BCEC, which was approximately 25% higher than the increase stimulated by addition of 10% newborn bovine serum. The formulation consisting of EGF + ITSL was also evaluated as a supplement to corneal storage media. Addition of EGF + ITSL to three corneal storage media (McCarey-Kaufman, K-Sol, CSM) significantly stimulated increases in cell numbers of approximately 50% above the unsupplemented corneal storage media. These results demonstrate that BCEC respond selectively to different defined peptide growth factors and physiological growth modifiers, and suggest that supplementation of corneal storage media with a defined formulation (EGF + ITSL) may enhance corneal endothelial cell density.     

Increased stromal extracellular matrix synthesis and assembly by insulin activated bovine keratocytes cultured under agarose

Previously, pharmacological levels of insulin have been shown to stimulate the synthesis of normal corneal stromal collagen and proteoglycans by bovine keratocytes in culture. Here we compared insulin to physiological levels of IGF-I and found that IGF-I also stimulated the synthesis of these extracellular matrix components, but less than that of insulin. Keratocytes in monolayer culture secreted most of the collagen synthesized into the media in the form of procollagen, a precursor of collagen. We found that an overlay of 3% agarose on the keratocytes in culture enhanced the conversion of procollagen to collagen and increased the deposition of collagen and proteoglycans into the cell layer. The extracellular matrix associated with the keratocytes cultured under agarose exhibited a corneal stromal-like architecture. These results suggest that enhancing the conversion of procollagen to collagen is a key step in the formation of extracellular matrix by keratocytes in vitro. Agarose overlay of insulin activated keratocytes in culture is a useful model for studying corneal stromal extracellular matrix assembly in vitro.     

正常角膜基质细胞密度和角膜厚度的研究

目的观察Confoscan 2.0共焦显微镜下正常活体角膜影像表现,测量基质细胞密度与各层厚度.方法检查34例(48眼)正常人.记录图像,并计算基质细胞密度和各层厚度.结果基质细胞密度从前到后逐渐降低,前基质比后基质细胞密度明显增高(t=-9.016,P=0.000),Bowman膜下密度最高,为(1113.2±227)个/mm2.全基质细胞密度为(806.5±57)个/mm2.角膜中央厚度为(568.3±53.8)μm,基质层为(465.5±60.2)μm,上皮层为(58.5±20.4)μm.各层厚度均与全基质细胞密度无显著相关性(P＞0.05).结论Confoscan 2.0共焦显微镜能检测角膜基质细胞密度和各层厚度.     

Toxic effects of mitomycin-C on cultured corneal keratocytes and endothelial cells.

Improper use of mitomycin-C in ocular medication may result in damage to corneal cells. In this study, the toxic effects of mitomycin-C on cultured porcine keratocytes and endothelial cells were estimated by MTT, 3H-thymidine uptake and cellular counting assay methods. It was found that mitomycin-C caused a dose-dependent toxic effect to keratocytes and endothelial cells. Both cells were treated with mitomycin-C at the concentration ranging from 100, 10, 1, 0.1 to 0.01 microg/ml for 3 min, 5 min or 100 min. The 50% inhibitory dose (ID50) of mitomycin-C to keratocytes and endothelial cells as measured by MTT assay was 0.40, 0.18, 0.16 mg/ml and 0.27, 0.15, 0.14 mg/ml, respectively, after 3, 5 and 100 minutes drug treatment. The ID50 for keratocytes and endothelial cells as measured by 3H-thymidine uptake immediately, 1 day and 7 days after 100 minutes mitomycin-C treatment was 0.3, 0.0002, 143.2 microg/ml and 45.1, 101.1, 450.2 microg/ml, respectively. The ID50 for keratocytes and endothelial cells as measured by cellular counting 1 day and 7 days after mitomycin-C treatment was 232.5, 109.7 microg/ml and 239.9, 367.5 microg/ml, respectively. It is concluded that mitomycin-C is more toxic to cellular proliferation in cultured corneal keratocytes than in endothelial cells.     

Microscopical and histochemical study of keratocytes in culture

The culture of keratocytes shows that their fundamental characteristic is the presence of keratosulfate-containing granules and of lipid-containing vacuoles. After the synthesis of mucopolysaccharides and reticulin, these substances are stored in different granules. The morphological and histochemical characteristics of active keratocytes, as well as the different intracellular elements, have been studied.