Effect of conjugated linoleic acid on bovine mammary cell growth, apoptosis and stearoyl Co-A desaturase gene expression.

The effects of the primary biologically active conjugated linoleic acid (CLA) isomers (cis-9, trans-11 and trans-10, cis-12; 15-150microM) on growth and survival of the bovine mammary cell-line, Mac-T, were evaluated using cell enumeration and TUNEL assay. Previous studies have shown that high concentrations of CLA induced severe milk fat depression and have had negative effects on milk yield and composition whereas the impact of lower doses has been a modest depression in milk fat percent. In this study, we show that increasing concentrations of both CLA isomers had negative impacts on cell growth, including reduced cell number at concentrations of 35microM and above (P<0.05) and a two-fold increase in induction of apoptosis in the mammary cells. Changes in cell morphology occurred with large vacuole-like structures in the cytoplasm, nuclear shrinkage and changes of nuclear shape to kidney shape. Insulin did not significantly affect apoptosis in CLA-treated cells. In addition, the effect of increased doses of CLA and the interaction of CLA and insulin on the bovine stearoyl Co-A desaturase (Scd) gene promoter was also analyzed. While a significant difference in the Scd promoter transcriptional activity was not observed in cells treated with different concentrations of CLA, insulin significantly enhanced Scd promoter activity in CLA-treated cells. Our in vitro data support the hypothesis that high levels of CLA may induce in vivo apoptosis in the mammary gland.