Objective: The authors evaluated the effects of dietary long-chain polyunsaturated fatty acids on D-glucose absorption in weaning rats.
Methods: Pups were born from control mothers fed a diet containing (per kg of total fatty acids) 280 g of saturated fatty acids, 496 g of monounsaturated fatty acids and 222 g of polyunsaturated fatty acids or from mothers fed a diet containing a high proportion of saturated fatty acids (920 g/kg) and a low proportion of unsaturated fatty acids (low-unsaturated fatty acid, 80 g/kg), initiated 2 weeks before mating and continued throughout pregnancy. When pups from low-unsaturated fatty acid mothers were 15 days old, they were subdivided into two groups: one control (low-unsaturated fatty acid-C) and one fed a long-chain polyunsaturated fatty acid supplement rich in arachidonic acid and docosahexaenoic acid (low-unsaturated fatty acid-S) until weaning. At day 21, the kinetics of D-glucose absorption was studied in brush-border membrane vesicles from the jejunoileal segment.
Results: The maximal transport rate (V(max)) of glucose in the low-unsaturated fatty acid-C and low-unsaturated fatty acid-S groups was higher than in control rats: 160 and 130 versus 98 pmol/(mg protein.s), respectively (P < 0.05). Rats fed the low-unsaturated fatty acid diet had a lower diffusion constant (K(d)) than control rats did: 21.6 and 29.2 nL/(mg protein.s), respectively (P < 0.05). However, rats receiving the long-chain polyunsaturated fatty acid supplement and control rats had similar Kd values.
Conclusion: These results indicate that dietary long-chain polyunsaturated fatty acid supplementation can restore, in part, the kinetic characteristics of intestinal D-glucose absorption in pups from mothers maintained on a low-unsaturated fatty acid diet.