Ascorbic acid (AA) and its derivatives participate in vitro in oxidative-reductive reactions both as antioxidants and as prooxidants. The physiological relevance of these prooxidant effects of AA and its derivatives remains unclear. There is little evidence that AA can initiate formation of reactive oxygen species (ROS) or lipid peroxidation in cells or tissue. In order to examine the effect of AA and its derivative palmitoyl ascorbate on in situ intracellular ROS production and lipid peroxidation, 2('),7(')-dichlorofluorescin diacetate (DCFH-DA) and cis-parinaric acid were used as fluorescent probes in cultural neonatal foreskin fibroblasts. The results demonstrated that the effect of AA depended on the in vitro growth conditions. AA induced augmentation of the intracellular ROS concentration in newly plated (24 hours) cells. However, in cells cultured for 72 hours, AA had a different effect: it moderately reduced intracellular ROS concentration but stimulated lipid peroxidation in the cytoplasmic membrane. Palmitoyl ascorbate demonstrated significant inhibition of intracellular DCFH-DA oxidation presumably caused by inhibition of reduced nicotinamide adenine dinucleotide phosphate (NADPH) oxidase.
The cactus flower is deemed to be helpful in benign prostatic hyperplasia (BPH) therapy, although there is no published information regarding its clinical effect in patients and on the mechanism of its biological activity. The present study evaluated the ability of cactus flower extracts to exert an effect on BPH through possible inhibition of such processes as lipid peroxidation, androgen aromatization and testosterone reduction. Cactus flower extracts indeed inhibited aromatase and 5alpha reductase activity in cultured foreskin fibroblasts, and also in human placental and prostatic homogenates. The inhibitory activity in both instances was associated with the dichloromethane or ethanol (methanol) extracts, while a marked antioxidative activity was associated with the aqueous extract. The finding that cactus flower extracts interfere concurrently in vitro with aromatase and reductase activity as well as with free radical processes suggests that these substances may prove beneficial in BPH treatment.
The effect of 6-O-palmitoyl ascorbate on procollagen mRNA levels, collagen synthesis, and collagen secretion was investigated and compared with the effect of L-ascorbate in human intestinal smooth muscle (HISM) cells in vitro. Collagen synthesis, determined by the incorporation of 3H-proline into pepsin-resistant, salt-precipitated collagen, increased in a concentration-dependent manner in response to palmitoyl ascorbate. There was a twofold increase in collagen synthesis at 2.5 and 5 microM. By contrast, L-ascorbate was required at 4-5 times the concentration for the same response. However, at 20 microM, both palmitoyl and L-ascorbate induced similar 2.7-fold increases in collagen synthesis. Palmitoyl ascorbate induced a 1.6- and 3.5-fold increase in steady-state levels of procollagen I and III mRNA levels respectively, whereas L-ascorbate had no effect. Palmitoyl ascorbate and L-ascorbate induced similar increases in the amounts of newly synthesized procollagen secreted into the medium and in the amounts of collagen types I, III and V accumulating in the cell layer. There was no effect of either palmitoyl ascorbate or L-ascorbate on the activity of a procollagen alpha2 (I) promoter construct transiently transfected into HISM cells. Palmitoyl ascorbate augments HISM cell procollagen synthesis and mRNA levels more efficiently than L-ascorbate. This property may be due to the greater resistance of the ascorbate ester to oxidation and suggests that palmitoyl ascorbate could be an important agent for studies of collagen synthesis in vitro.
The effect of 6-O-palmitoyl ascorbate on procollagen mRNA levels, collagen synthesis, and collagen secretion was investigated and compared with the effect of L-ascorbate in human intestinal smooth muscle (HISM) cells in vitro. Collagen synthesis, determined by the incorporation of 3H-proline into pepsin-resistant, salt-precipitated collagen, increased in a concentration-dependent manner in response to palmitoyl ascorbate. There was a twofold increase in collagen synthesis at 2.5 and 5 microM. By contrast, L-ascorbate was required at 4-5 times the concentration for the same response. However, at 20 microM, both palmitoyl and L-ascorbate induced similar 2.7-fold increases in collagen synthesis. Palmitoyl ascorbate induced a 1.6- and 3.5-fold increase in steady-state levels of procollagen I and III mRNA levels respectively, whereas L-ascorbate had no effect. Palmitoyl ascorbate and L-ascorbate induced similar increases in the amounts of newly synthesized procollagen secreted into the medium and in the amounts of collagen types I, III and V accumulating in the cell layer. There was no effect of either palmitoyl ascorbate or L-ascorbate on the activity of a procollagen alpha2 (I) promoter construct transiently transfected into HISM cells. Palmitoyl ascorbate augments HISM cell procollagen synthesis and mRNA levels more efficiently than L-ascorbate. This property may be due to the greater resistance of the ascorbate ester to oxidation and suggests that palmitoyl ascorbate could be an important agent for studies of collagen synthesis in vitro.
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