Effects of Cholesterol on Progesterone Production by Goat Luteal Cell Subpopulations at Two Different Stages of the Luteal Phase

ContentsThe aim of the present study was to evaluate the effects of cholesterol on progesterone production during long‐term culturing of luteal cell subpopulations at early and late luteal stages of the goat corpora lutea. Corpora lutea were collected from Angora goats on days 5 and 15 of the oestrous cycle. Luteal cells were isolated by collagenase digestion. The cells were separated into two distinct subpopulations by Percoll density‐gradient centrifugation. Both subpopulations of luteal cells staining positively for 3β‐HSD activities (5 × 104 cell/well) were cultured with or without 22(R)‐hydroxycholesterol (22R‐HC) in serum‐free culture medium for periods of up to 7 days. Cells were incubated with serum (10%) for the first 18 h of incubation followed by serum‐free medium. Cell treatment (10 and 20 μg/ml) was performed on days 1, 3 and 5. Treatment of cells with both concentrations of 22R‐HC resulted in significant (p < 0.01) and dose‐dependent stimulation (p > 0.05) on progesterone production in both fractions of cells throughout 7 days of incubation. Treatment of the cells with cholesterol resulted in 2.5‐ and 9.0‐fold increases in progesterone accumulation on day 3 of incubation. Steroid production was maintained throughout the incubations when cells are incubated in serum‐free media treated with cholesterol and ITS premix. Cells collected from higher density of percoll layers produced 2.82 and 2.32 times more progesterone, in comparison to the lover density percoll layer, on days 5 and 15 of the oestrous cycle in untreated cell groups, respectively. Progesterone accumulation was decreased as incubation time advanced in all groups of untreated cells. These results demonstrated that goat luteal cell subpopulations secrete substantial amounts of progesterone in response to cholesterol treatment at least for 7 days, and cholesterol is required as progesterone precursor for maintaining a high‐level steroidogenesis during long‐life culturing of both cell subpopulations.