Hepatic steroid inactivating enzymes, hepatic portal blood flow and corpus luteum blood perfusion in cattle

Contents Production from the corpus luteum ( CL ) and/or hepatic steroid inactivation impacts peripheral concentrations of P4, which can alter reproductive performance. Our primary objective was to examine hepatic steroid inactivating enzymes, portal blood flow, and luteal blood perfusion at 10 days post‐insemination in pregnant versus non‐pregnant beef and dairy cows. Twenty early lactation Holstein cows and 20 lactating commercial beef cows were utilized for this study. At day 10 post‐insemination, hepatic portal blood flow and CL blood perfusion were measured via Doppler ultrasonography. Liver biopsies were collected and frozen for later determination of cytochrome P450 1A ( CYP 1A), 2C ( CYP 2C), 3A ( CYP 3A), uridine diphosphate‐glucuronosyltransferase ( UGT ) and aldo‐keto reductase 1C ( AKR 1C) activities. Pregnancy was determined at day 30 post‐insemination and treatment groups were retrospectively assigned as pregnant or non‐pregnant. Data were analyzed using the mixed procedure of SAS . Steroid metabolizing enzyme activity was not different ( p  >   .10) between pregnant versus non‐pregnant beef or dairy cows. Hepatic portal blood flow tended ( p  <   .10) to be increased in pregnant versus non‐pregnant dairy cows. Luteal blood perfusion was increased ( p  <   .05) in pregnant versus non‐pregnant dairy cows. Pregnant dairy cows appear to have an increased rate of hepatic clearance of P4 in combination with increased synthesis from the CL . This could account for the lack of difference in peripheral P4 concentrations between pregnant and non‐pregnant dairy cows. This study highlights the relevance of further investigation into steroid secretion and inactivation and their impact on the maintenance of pregnancy in cattle.