Reference
- Schultz RO, Peters MA, Sobocinski K, Nassif K, Schultz KJ. Diabetic keratopathy as a manifestation of periph-eral neuropathy. Am J Ophthalmol. 1983;96:368–71.
- Ishida N, Rao GN, del Cerro M, Aquavella JV. Corneal nerve alterations in diabetes mellitus. Arch Ophthalmol. 1984;102:1380–4.
- Kinoshita JH, Fukushi S, Kador P, Merola LO. Aldose reductase in diabetic complications of the eye. Metabo-lism. 1979;28:462–9.
- Datiles MB, Kador PF, Fukui HN, Hu TS, Kinoshita JH. Corneal re-epithelialization in galactosemic rats. Invest Ophthalmol Vis Sci. 1983;24:563–9.
- Ohashi Y, Matsuda M, Hosotani H, et al. Aldose reduc-tase inhibitor (CT-112) eyedrops for diabetic corneal epitheliopathy. Am J Ophthalmol. 1988;105:233–8.
- Taylor HR, Kimsey RA. Corneal epithelial basement membrane changes in diabetes. Invest Ophthalmol Vis Sci. 1981;20:548–53.
- Azar DT, Spurr-Michaud SJ, Tisdale AS, Gipson IK. Decreased penetration of anchoring fibrils into the dia-betic stroma. A morphometric analysis. Arch Ophthalmol. 1989;107:1520–3.
- Chan KY. Release of plasminogen activator by cultured corneal epithelial cells during differentiation and wound closure. Exp Eye Res. 1986;42:417–31.
- Morimoto K, Mishima H, Nishida T, Otori T. Role of urokinase type plasminogen activator (u-PA) in corneal epithelial migration. Thromb Haemost. 1993;69: 387–91.
- Matsubara M, Zieske JD, Fini ME. Mechanism of base-ment membrane dissolution preceding corneal ulceration. Invest Ophthalmol Vis Sci. 1991;32:3221–37.
- Fini ME, Girard MT, Matsubara M, Bartlett JD. Unique regulation of the matrix metalloproteinase, gelatinase B. Invest Ophthalmol Vis Sci. 1995;36:622–33.
- Azar DT, Hahn TW, Jain S, Yeh YC, Stetler-Stevensen WG. Matrix metalloproteinases are expressed during wound healing after excimer laser keratectomy. Cornea. 1996;15:18–24.
- Ye HQ, Azar DT. Expression of gelatinases A and B, and TIMPs 1 and 2 during corneal wound healing. In-vest Ophthalmol Vis Sci. 1998;39:913–21.
- Woessner JF, Jr. Matrix metalloproteinases and their inhibitors in connective tissue remodeling. Faseb J. 1991;5:2145–54.
- Nakamura T, Fukui M, Ebihara I, Osada S, Tomino Y, Koide H. Abnormal gene expression of matrix metallo-proteinases and their inhibitor in glomeruli from diabetic rats. Ren Physiol Biochem. 1994;17:316–25.
- Del Prete D, Anglani F, Forino M, et al. Down-regula-tion of glomerular matrix metalloproteinase-2 gene in human NIDDM. Diabetologia. 1997;40:1449–54.
- McLennan SV, Yue DK, Turtle JR. Effect of glucose on matrix metalloproteinase activity in mesangial cells. Nephron. 1998;79:293–8.
- Golub LM, Schneir M, Ramamurthy NS. Enhanced col-lagenase activity in diabetic rat gingiva: in vitro and in vivo evidence. J Dent Res. 1978;57:520–5.
- Ryan ME, Ramamurthy NS, Sorsa T, Golub LM. MMP-mediated events in diabetes. Ann N Y Acad Sci. 1999; 878:311–34.
- McDermott AM, Kern TS, Murphy CJ. The effect of elevated extracellular glucose on migration, adhesion and proliferation of 5V40 transformed human corneal epi-thelial cells. Curr Eye Res. 1998;17: 924–32.
- Araki-Sasaki K, Ohashi Y, Sasabe T, et al. An 5V40-immortalized human corneal epithelial cell line and its characterization. Invest Ophthalmol Vis Sci. 1995 ;36: 614–21.
- Jumblatt MM, Neufeld AH. A tissue culture assay of corneal epithelial wound closure. Invest Ophthalmol Vis Sci. 1986;27:8–13.
- Panjwani N, Zhao Z, Ahmad S, Yang Z, Jungalwala F, Baum J. Neolactoglycosphingolipids, potential mediators of corneal epithelial cell migration. J Biol Chem. 1995; 270:14015–23.
- Thomas PS, Farquhar MN. Specific measurement of DNA in nuclei and nucleic acids using diaminobenzoic acid. Anal Biochem. 1978;89:35–44.
- Horodyski J, Powell RJ. Effect of aprotinin on smooth muscle cell proliferation, migration, and extracellular matrix synthesis. J Surg Res. 1996;66:115–8.
- Knight CG, Willenbrock F, Murphy G. A novel coumarin-labelled peptide for sensitive continuous assays of the matrix metalloproteinases. FEBS Lett. 1992;296:263–6.
- Nagase H, Fields CG, Fields GB. Design and character-ization of a fluorogenic substrate selectively hydrolyzed by stromelysin 1 (matrix metalloproteinase-3). J Biol Chem. 1994;269: 20952–7.
- Narvaez JA, Jimenez E, Reyes A, Garcia-Sanchez F, Morell M. [A new spectrofluorimetric method for renal renin activity: a comparative study with other methods]. Rev Esp Fisiol. 1982;38:143–8.
- Scharpe S, De Meester I, Vanhoof G, et al. Assay of dipeptidyl peptidase IV in serum by fluorometry of 4-methoxy-2- naphthylamine. Clin Chem. 1988;34: 2299–301.
- Gurtu V, Kain SR, Zhang G. Fluorometric and colo-rimetric detection of caspase activity associated with apoptosis. Anal Biochem. 1997;251:98–102.
- Nakamura M, Sato N, Chikama TI, Hasegawa Y, Ni-shida T. Hyaluronan facilitates corneal epithelial wound healing in diabetic rats. Exp Eye Res. 1997;64:1043–50.
- Nakamura M, Sato N, Chikama T, Hasegawa Y, Nishida T. Fibronectin facilitates corneal epithelial wound healing in diabetic rats. Exp Eye Res. 1997;64:355–9.
- Twining SS, Schulte DP, Zhou X, Wilson PM, Fish BL, Moulder JE. Changes in rat corneal matrix metalloproteinases and serine proteinases under vita-min A deficiency. Curr Eye Res. 1997;16:158–65.
- Guo L, Hussain AA, Limb GA, Marshall J. Age-de-pendent variation in metalloproteinase activity of iso-lated human Bruch's membrane and choroid. Invest Ophthalmol Vis Sci. 1999;40:2676–82.
- Mathupala SP, Rempel A, Pedersen PL. Aberrant gly-colytic metabolism of cancer cells: a remarkable co-ordination of genetic, transcriptional, post-translational, and mutational events that lead to a critical role for type II hexokinase. J Bioenerg Biomembr. 1997;29: 339–43.
- Bargagna-Mohan P, Strissel KJ, Fini ME. Regulation of gelatinase B production in corneal cells is indepen- dent of autocrine IL-lalpha. Invest Ophthalmol Vis Sci. 1999;40:784–9.
- Derubertis FR, Craven PA. Activation of protein ki-nase C in glomerular cells in diabetes. Mechanisms and potential links to the pathogenesis of diabetic glome-rulopathy. Diabetes. 1994;43:i–8.
- Park JY, Ha SW, King GL. The role of protein kinase C activation in the pathogenesis of diabetic vascular complications. Pent Dial Int. 1999;19:S222–7.
- Das A, McGuire PG, Eriqat C, et al. Human diabetic neovascular membranes contain high levels of uroki-nase and metalloproteinase enzymes. Invest Ophthalmol Vis Sci. 1999;40:809–13.
- Shimazaki J, Tsubota K, Yoshida A, Tornheim K, Laing RA. Changes of corneal redox state in diabetic animal models. Cornea. 1995;14:196–201.
- Tyagi SC, Kumar S, Borders S. Reduction-oxidation (redox) state regulation of extracellular matrix metallo-proteinases and tissue inhibitors in cardiac normal and transformed fibroblast cells. J Cell Biochem. 1996;61: 139–51.
- Murakami J, Nishida T, Otori T. Coordinated appear-ance of beta 1 integrins and fibronectin during corneal wound healing. J Lab Clin Med. 1992;120: 86–93.
- Fini ME, Parks WC, Rinehart WB, et al. Role of matrix metalloproteinases in failure to re-epithelialize after corneal injury. Am J Pathol. 1996;149:1287–302.
- Hatchell DL, Magolan JJ, Jr., Besson MJ, Goldman Al, Pederson HJ, Schultz KJ. Damage to the epithe-lial basement membrane in the corneas of diabetic rab-bits. Arch Ophthalmol. 1983;101:469–71.
- Ljubimov AV, Huang ZS, Huang GH, et al. Human corneal epithelial basement membrane and integrin alterations in diabetes and diabetic retinopathy. J Histo-chem Cytochem. 1998;46:1033–41.
- Garrana RM, Zieske JD, Assouline M, Gipson IK. Ma-trix metalloproteinases in epithelia from human recur-rent corneal erosion. Invest Ophthalmol Vis Sci. 1999; 40:1266–70.
- Matsubara M, Girard MT, Kublin CL, Cintron C, Fini ME. Differential roles for two gelatinolytic enzymes of the matrix metalloproteinase family in the remod-elling cornea. Dev Biol. 1991;147:425–39.
- Lu PC, Ye H, Maeda M, Azar DT. Immunolocalization and gene expression of matrilysin during corneal wound healing. Invest Ophthalmol Vis Sci. 1999;40:20–7.