Improvement of Storage Medium for Cultured Human Retinal Pigment Epithelial Cells Using Factorial Design.

Storage of human retinal pigment epithelium (hRPE) can contribute to the advancement of cell-based RPE replacement therapies. The present study aimed to improve the quality of stored hRPE cultures by identifying storage medium additives that, alone or in combination, contribute to enhancing cell viability while preserving morphology and phenotype. hRPE cells were cultured in the presence of the silk protein sericin until pigmentation. Cells were then stored for 10 days in storage medium plus sericin and either one of 46 different additives. Individual effects of each additive on cell viability were assessed using epifluorescence microscopy. Factorial design identified promising additive combinations by extrapolating their individual effects. Supplementing the storage medium with sericin combined with adenosine, L-ascorbic acid and allopurinol resulted in the highest cell viability (98.6 ± 0.5%) after storage for three days, as measured by epifluorescence microscopy. Flow cytometry validated the findings. Proteomics identified 61 upregulated and 65 downregulated proteins in this storage group compared to the unstored control. Transmission electron microscopy demonstrated the presence of melanosomes after storage in the optimized medium. We conclude that the combination of adenosine, L-ascorbic acid, allopurinol and sericin in minimal essential medium preserves RPE pigmentation while maintaining cell viability during storage.

Effect of soy protein foods on low-density lipoprotein oxidation and ex vivo sex hormone receptor activity--a controlled crossover trial.

Plant-derived estrogen analogs (phytoestrogens) may confer significant health advantages including cholesterol reduction, antioxidant activity, and possibly a reduced cancer risk. However, the concern has also been raised that phytoestrogens may be endocrine disrupters and major health hazards. We therefore assessed the effects of soy foods as a rich source of isoflavonoid phytoestrogens on LDL oxidation and sex hormone receptor activity. Thirty-one hyperlipidemic subjects underwent two 1-month low-fat metabolic diets in a randomized crossover study. The major differences between the test and control diets were an increase in soy protein foods (33 g/d soy protein) providing 86 mg isoflavones/2,000 kcal/d and a doubling of the soluble fiber intake. Fasting blood samples were obtained at the start and at weeks 2 and 4, with 24-hour urine collections at the end of each phase. Soy foods increased urinary isoflavone excretion on the test diet versus the control (3.8+/-0.7 v 0.0+/-0.0 mg/d, P < .001). The test diet decreased both oxidized LDL measured as conjugated dienes in the LDL fraction (56+/-3 v 63+/-3 micromol/L, P < .001) and the ratio of conjugated dienes to LDL cholesterol (15.0+/-1.0 v 15.7+/-0.9, P = .032), even in subjects already using vitamin E supplements (400 to 800 mg/d). No significant difference was detected in ex vivo sex hormone activity between urine samples from the test and control periods. In conclusion, consumption of high-isoflavone foods was associated with reduced levels of circulating oxidized LDL even in subjects taking vitamin E, with no evidence of increased urinary estrogenic activity. Soy consumption may reduce cardiovascular disease risk without increasing the risk for hormone-dependent cancers.

Sulfated polysaccharides are required for collagen-induced vascular tube formation.

We have previously shown that soluble type I collagen can induce vascular tube formation when it contacts the apical side of a confluent endothelial monolayer. In this study we have examined which soluble agent(s) are required for collagen-induced tube formation. Human neonatal foreskin microvascular endothelial cells, maintained in basal medium, were preincubated with each test agent for 2 h prior to the addition of solubilised type I collagen (100 micrograms/ml). After 6 h, tube formation was quantitated using image analysis and expressed as the mean area of tube formation (mm2) per microscopic field of view. Collagen-induced tube formation did not occur in the presence of endothelial cells growth supplement, basic fibroblast growth factor, or normal pooled human serum. In contrast, the addition of heparin at 5 or 50 micrograms/ml caused extensive tube formation (0.22 +/- 0.07 and 0.30 +/- 0.12 mm2, respectively) whereas at 500 micrograms/ml little tube formation occurred (0.03 +/- 0.02 mm2). Protamine sulfate, an antagonist of heparin, inhibited collagen-induced tube formation in a dose-dependent manner. Pentosan polysulfate, dextran sulfate, heparan sulfate, and chondroitin sulfate mimicked the action of heparin. Partially sulfated heparin (de-N-sulfated heparin) stimulated less tube formation compared to heparin (0.15 +/- 0.06 mm2 at 50 micrograms/ml). The nonsulfated polysaccharides, xylan and dextran, had no effect on tube formation. In summary, sulfated polysaccharides are required for collagen-induced vascular tube formation in vitro. The sulfation of these molecules appears to be vital for collagen-induced tube formation.