PURPOSE: Vitamin A deficiency alters the transparency of the cornea due to epithelial cell keratinization and increases the susceptibility of the cornea to ulceration. The purpose of this study was to determine the effect of vitamin A deficiency on rat corneal matrix metalloproteinases and serine proteinases. METHODS: Four dietary groups of male WAG/RijMCW rats were prepared: (1) Vitamin A deficient rats were raised on a casein-based retinoid deficient diet; (2) Retinol repleted rats were raised on the retinoid deficient diet. On the eighty-sixth day on this diet, the rats were fed retinyl palmitate and then given free access to the retinyl palmitate-supplemented control diet; (3) The weight-matched, pair-fed rats were restricted in their intake of the retinyl palmitate-supplemented diet so that their weight gain matched that of the A-rats; (4) The non-restricted rats were given free access to the retinyl palmitate-supplemented diet. The animals were killed at the late plateau stage for weight of the deficiency (102-106 days). Zymography was used to study proteinases in the corneal extracts. RESULTS: Vitamin A deficient and control rat corneas contain multiple matrix metalloproteinases and serine proteinases. The matrix metalloproteinases at 90/92 kDa (gelatinase B) and 66/63/57 kDa (gelatinase A) were significantly decreased in the corneas of the vitamin A deficient rats relative to the control corneas. Corneas from the four groups of rats contained 76, 45, 38, 28 and 22 kDa proteinases that cleaved casein. Only the vitamin A deficient corneas contained a 50 kDa casein cleaving enzyme. The 76, 45, 38 and 28 kDa serine proteinases were significantly lower in the vitamin A deficient corneas. The major 22 kDa enzyme was not altered by the deficiency. All casein cleaving proteinases were inhibited by phenylmethylsulfonyl fluoride and chymostatin except for a minor 76 kDa band. The activity of this band was not altered by inhibitors for the other classes of proteinases, ethylenediaminetetraacetic acid, E-64 or pepstatin. The concentrations of the 61, 52 and 40 kDa plasminogen activators were not altered by the deficiency. CONCLUSIONS: Alterations in corneal proteinases under vitamin A deficiency conditions may be involved in the characteristic changes observed in the cornea under vitamin A deficiency conditions: decreased exfoliation of epithelial cells, increased levels of keratofibrils in the corneal keratocytes, increased stromal keratocyte degradation and increased susceptibility towards ulceration.
PURPOSE: Vitamin A deficiency alters the transparency of the cornea due to epithelial cell keratinization and increases the susceptibility of the cornea to ulceration. The purpose of this study was to determine the effect of vitamin A deficiency on rat corneal matrix metalloproteinases and serine proteinases. METHODS: Four dietary groups of male WAG/RijMCW rats were prepared: (1) Vitamin A deficient rats were raised on a casein-based retinoid deficient diet; (2) Retinol repleted rats were raised on the retinoid deficient diet. On the eighty-sixth day on this diet, the rats were fed retinyl palmitate and then given free access to the retinyl palmitate-supplemented control diet; (3) The weight-matched, pair-fed rats were restricted in their intake of the retinyl palmitate-supplemented diet so that their weight gain matched that of the A-rats; (4) The non-restricted rats were given free access to the retinyl palmitate-supplemented diet. The animals were killed at the late plateau stage for weight of the deficiency (102-106 days). Zymography was used to study proteinases in the corneal extracts. RESULTS:Vitamin A deficient and control rat corneas contain multiple matrix metalloproteinases and serine proteinases. The matrix metalloproteinases at 90/92 kDa (gelatinase B) and 66/63/57 kDa (gelatinase A) were significantly decreased in the corneas of the vitamin A deficient rats relative to the control corneas. Corneas from the four groups of rats contained 76, 45, 38, 28 and 22 kDa proteinases that cleaved casein. Only the vitamin Adeficient corneas contained a 50 kDa casein cleaving enzyme. The 76, 45, 38 and 28 kDa serine proteinases were significantly lower in the vitamin Adeficient corneas. The major 22 kDa enzyme was not altered by the deficiency. All casein cleaving proteinases were inhibited by phenylmethylsulfonyl fluoride and chymostatin except for a minor 76 kDa band. The activity of this band was not altered by inhibitors for the other classes of proteinases, ethylenediaminetetraacetic acid, E-64 or pepstatin. The concentrations of the 61, 52 and 40 kDa plasminogen activators were not altered by the deficiency. CONCLUSIONS: Alterations in corneal proteinases under vitamin A deficiency conditions may be involved in the characteristic changes observed in the cornea under vitamin A deficiency conditions: decreased exfoliation of epithelial cells, increased levels of keratofibrils in the corneal keratocytes, increased stromal keratocyte degradation and increased susceptibility towards ulceration.
Authors: Stephen C Pflugfelder; William Farley; Lihui Luo; Lucy Zhuo Chen; Cintia S de Paiva; Lisa C Olmos; De-Quan Li; M Elizabeth Fini Journal: Am J Pathol Date: 2005-01 Impact factor: 4.307