PURPOSE: A decline in the chaperone-like activity of eye lens alpha-crystallin in diabetic conditions has been reported. In this study, we investigated whether curcumin, a dietary antioxidant, can manipulate the chaperone-like activity of alpha-crystallin in diabetic rat lens. METHODS: A group of rats received ip injection of streptozotocin (STZ; 35 mg/kg body weight in buffer) to induce hyperglycemia, while another group of rats received only buffer as vehicle and served as control. STZ-treated rats were assigned to 3 groups and fed either no curcumin or 0.002% or 0.01% curcumin, respectively. Cataract progression due to hyperglycemia was monitored with a slit lamp biomicroscope. At the end of 8 weeks animals were sacrificed and lenses were collected. alphaH- and alphaL-crystallins from a set of pooled lenses in each group were isolated by gel filtration. Chaperone activity, hydrophobicity, and secondary and tertiary structure of alphaH- and alphaL-crystallins were assessed by light scattering/spectroscopic methods. RESULTS: A decrease in chaperone-like activity of alphaH- and alphaL-crystallins was observed in STZ-treated diabetic rats. The declined chaperone-like activity due to hyperglycemia was associated with reduced hydrophobicity and altered secondary and tertiary structure of alphaH- and alphaL-crystallins. Interestingly, alphaH- and alphaL-crystallins isolated from curcumin fed diabetic rat lenses had shown improved chaperone-like activity as compared to alphaH- and alphaL-crystallins from untreated diabetic rat lens. Feeding of curcumin prevented the alterations in hydrophobicity and structural changes due to STZ-induced hyperglycemia. Modulation of functional and structural properties by curcumin was found to be greater with the alphaL-crystallin than alphaH-crystallin. Loss of chaperone activity of alpha-crystallin, particularly alphaL-crystallin, in diabetic rat lens could be attributed at least partly to increased oxidative stress. Being an antioxidant, curcumin feeding has prevented the loss of alpha-crystallin chaperone activity and delayed the progression and maturation of diabetic cataract. CONCLUSIONS: We demonstrate that curcumin, at the levels close to dietary consumption, prevented the loss of chaperone-like activity of alpha-crystallin vis-a-vis cataractogenesis due to diabetes in rat lens.
PURPOSE: A decline in the chaperone-like activity of eye lens alpha-crystallin in diabetic conditions has been reported. In this study, we investigated whether curcumin, a dietary antioxidant, can manipulate the chaperone-like activity of alpha-crystallin in diabeticrat lens. METHODS: A group of rats received ip injection of streptozotocin (STZ; 35 mg/kg body weight in buffer) to induce hyperglycemia, while another group of rats received only buffer as vehicle and served as control. STZ-treated rats were assigned to 3 groups and fed either no curcumin or 0.002% or 0.01% curcumin, respectively. Cataract progression due to hyperglycemia was monitored with a slit lamp biomicroscope. At the end of 8 weeks animals were sacrificed and lenses were collected. alphaH- and alphaL-crystallins from a set of pooled lenses in each group were isolated by gel filtration. Chaperone activity, hydrophobicity, and secondary and tertiary structure of alphaH- and alphaL-crystallins were assessed by light scattering/spectroscopic methods. RESULTS: A decrease in chaperone-like activity of alphaH- and alphaL-crystallins was observed in STZ-treated diabeticrats. The declined chaperone-like activity due to hyperglycemia was associated with reduced hydrophobicity and altered secondary and tertiary structure of alphaH- and alphaL-crystallins. Interestingly, alphaH- and alphaL-crystallins isolated from curcumin fed diabeticrat lenses had shown improved chaperone-like activity as compared to alphaH- and alphaL-crystallins from untreated diabeticrat lens. Feeding of curcumin prevented the alterations in hydrophobicity and structural changes due to STZ-induced hyperglycemia. Modulation of functional and structural properties by curcumin was found to be greater with the alphaL-crystallin than alphaH-crystallin. Loss of chaperone activity of alpha-crystallin, particularly alphaL-crystallin, in diabeticrat lens could be attributed at least partly to increased oxidative stress. Being an antioxidant, curcumin feeding has prevented the loss of alpha-crystallin chaperone activity and delayed the progression and maturation of diabetic cataract. CONCLUSIONS: We demonstrate that curcumin, at the levels close to dietary consumption, prevented the loss of chaperone-like activity of alpha-crystallin vis-a-vis cataractogenesis due to diabetes in rat lens.
Authors: Randy Strong; Richard A Miller; Clinton M Astle; Joseph A Baur; Rafael de Cabo; Elizabeth Fernandez; Wen Guo; Martin Javors; James L Kirkland; James F Nelson; David A Sinclair; Bruce Teter; David Williams; Nurulain Zaveri; Nancy L Nadon; David E Harrison Journal: J Gerontol A Biol Sci Med Sci Date: 2012-03-26 Impact factor: 6.053
Authors: Ling Chen; Gary N Holland; Fei Yu; Ralph D Levinson; Kirsten J Lampi; Joseph Horwitz; Lynn K Gordon Journal: Invest Ophthalmol Vis Sci Date: 2008-06-06 Impact factor: 4.799