Characterization of L-lysine transport across equine and porcine jejunal and colonic brush border membrane.

In nonruminant herbivores, microbially derived AA could contribute to whole-body AA homeostasis and thus decrease predicted AA requirements. However, postileal capacity of AA uptake is currently unknown. Therefore, to test the hypothesis that Lys is transported across the large colon mucosal apical membrane with capacity similar to that of the small intestinal mucosa in the pony and pig, we examined Lys transport in vitro using brush border membrane vesicles (BBMV). Mucosa was collected from the distal jejunum (DJ) and proximal large colon (PLC) of growing pigs (n = 3) and ponies (n = 4), flash frozen in liquid nitrogen, and stored at -80°C. Jejunal and colonic BBMV were manufactured by Mg(2+) precipitation and used to determine initial rates and kinetics [the maximal transport rate (V(max)) and the Michaelis constant (K(M))] of l-Lys transport into apical epithelia by rapid filtration technique in Na(+)-gradient incubation buffer. Initial rates of total l-Lys uptake did not differ between the PLC and DJ in either the pig or the pony, or between the pony and the pig, at each l-Lys concentration. In the pig, compared with the DJ, l-Lys transport V(max) in the PLC did not differ (121 ± 26 and 180 ± 26 pmol•mg of protein(-1)•s(-1), respectively; P = 0.14) and l-Lys K(M) in the PLC tended to be greater (0.23 ± 0.22 and 0.89 ± 0.22 mM, respectively; P = 0.09). In the pony, compared with the DJ, l-Lys transport V(max) in the PLC was greater (62 ± 25 and 149 ± 25 pmol•mg of protein(-1)•s(-1), respectively; P = 0.04) and l-Lys K(M) in the PLC was greater (0.08 ± 0.22 and 1.05 ± 0.22 mM, respectively; P = 0.02). l-Lysine diffusion was not different between segments; however, total intestinal diffusion was greater (P = 0.03) in the pony than in the pig (115 ± 10 and 73 ± 10 pmol·mg of protein(-1)•s(-1), respectively). These results demonstrate that the large colon is capable of l-Lys transport across the apical epithelial membrane with greater capacity and less affinity than the jejunum, indicating that the large colon may play a significant role in l-Lys absorption and homeostasis in hindgut fermenters.