219 Effects of maternal nutrient restriction and rumen-protected arginine supplementation on post-ruminal digestive enzyme activities of lamb offspring

Abstract

Abstract To determine the effects of maternal nutrient restriction and rumen-protected arginine supplementation on post-ruminal digestive enzymes in lambs, 31 multiparous, Rambouillet ewes were allocated to one of three dietary treatments at 54 d of gestation. Dietary treatments were 100% of nutrient requirements (control, CON; n=11), 60% of control (restricted, RES; n=10), or RES plus a rumen-protected arginine supplement dosed at 180 mg/kg BW once daily (RES-ARG; n=10). At parturition, lambs were immediately removed from dams and reared independently. Milk-replacer and alfalfa hay + creep feed was offered for ad libitum intake. At day 54 of age, lambs were slaughtered and the pancreas and small intestine were collected. Pancreatic (α-amylase, trypsin) and small intestinal (maltase, glucoamylase, sucrase, isomaltase, lactase) digestive enzyme activities were assayed. Data were analyzed using the GLM procedure of SAS with treatment and fetal sex included in the model statement. Contrast statements were used to determine differences between means for effects of restriction (CON vs. RES and RES-ARG) and rumen-protected arginine supplementation (RES vs. RES-ARG). There was no influence (P≥0.32) of maternal nutrient restriction or rumen-protected arginine supplementation on pancreatic or small intestinal protein concentrations. No treatment effects were observed (P≥0.14) for enzymes involved in starch digestion including pancreatic α-amylase and small intestinal maltase, glucoamylase, and isomaltase. Sucrase activity was undetected in the small intestine of lambs across all treatments. Maternal nutrient restriction tended to increase (P=0.09) pancreatic trypsin specific activity in lambs. Lactase specific activity in the small intestine of lambs tended to decrease (P=0.08) with maternal nutrient restriction. Rumen-protected arginine supplementation to gestating ewes did not influence (P≥0.19) digestive enzyme activities of lamb offspring. These data suggest that maternal nutrient restriction may result in increased pancreatic trypsin activity of lambs to potentially compensate for inadequate pre-natal nutrient supply.