Diabetic retinopathy is manifested by excessive angiogenesis and high level of vascular endothelial growth factor (VEGF) in the eye. Human (MIO-M1) and rat (rMC-1) Müller cells were treated with 0, 5. Show more
Diabetic retinopathy is manifested by excessive angiogenesis and high level of vascular endothelial growth factor (VEGF) in the eye. Human (MIO-M1) and rat (rMC-1) Müller cells were treated with 0, 5.5, or 30mM glucose for 24 hours. Viable cell counts were obtained by Trypan Blue Dye Exclusion Method. ELISA was used to determine VEGF levels in cell medium. Compared to 24 hour treatment by 5.5mM glucose, MIO-M1 and rMC-1 in 30mM glucose increased in viable cell number by 38% and 24% respectively. In contrast, viable cells in 0mM glucose decreased by 28% and 50% respectively. Compared to 5.5mM, MIO-M1 and rMC-1 in 30mM glucose had increased levels of VEGF in cell medium (pg/ml by 24% and 20%) and also VEGF concentration in cells held in 0mM increased by 47% and 10% respectively. In both MIO-M1 and rMC-1, the amount of VEGF secreted per cell increased by about 100% when glucose was changed from 5.5 to 0mM but decreased slightly (17% in MIO-M1 and 11% in rMC-1) when glucose was increased from 5.5 to 30mM. Our results show that MIO-M1 and rMC-1 are highly responsive to changes in glucose concentrations. 30mM compared to 5.5mM significantly increased cell viability but induced a significant change in VEGF secretion per cell in rMC-1 only. At 0, 5.5, and 30mM glucose, MIO-M1 secreted about 5-7-fold higher level of VEGF (pg/cell) than rMC-1. The mechanism of glucose-induced changes in rMC-1 and MIO-M1 cell viability and VEGF secretion remains to be elucidated. Show less
Interphotoreceptor retinoid-binding protein's (IRBP) role in facilitating the exchange of retinoids between rod and cone photoreceptors, RPE, and Müller cells in the visual cycle remains a mystery. In Show more
Interphotoreceptor retinoid-binding protein's (IRBP) role in facilitating the exchange of retinoids between rod and cone photoreceptors, RPE, and Müller cells in the visual cycle remains a mystery. Interphotoreceptor retinoid-binding protein's ability to bind the pericellular matrix of the cone outer segment and Müller cell villi suggests a function in all-trans and 11-cis retinol targeted trafficking in the cone visual cycle. We hypothesize that IRBP facilitates delivery and uptake of all-trans retinol to and release of 11-cis retinol from rat Müller cells (rMC-1). Rat Müller cells were incubated with all-trans retinol and BSA or bovine IRBP (bIRBP). Retinoids in the cell homogenates and conditioned media were analyzed by high performance liquid chromatography (HPLC). Cells incubated with 10 μM retinol and BSA had 2100 pmol of all-trans retinol per milligram homogenate protein compared with 3450 pmol when retinol was delivered by bIRBP; these cells also had 450 pmol all-trans retinyl ester per milligram when retinol was delivered by BSA compared with 270 pmol when retinol was delivered by bIRBP. Conditioned media from cells incubated with retinol delivered by BSA did not contain11-cis retinol. However, cells with retinol delivered by bIRBP released 130 pmol/mL of 11-cis retinol into the cell media. Incubation with 5.0 mM deferoxamine (an iron chelator) reduced IRBP-dependent 11-cis retinol retrieval by 60%. Promoting Müller cell uptake of all-trans retinol and release of 11-cis retinol is a previously unrecognized function of IRBP that may be critical to cone function and integrity. Show less