Methionine and 2-hydroxy-4-methylthiobutanoic acid are partially converted to nonabsorbed compounds during passage through the small intestine and heat exposure does not affect small intestinal absorption of methionine sources in broiler chicks.

Broiler chicks were fed diets supplemented with DL-methionine or DL-2-hydroxy-4-methyl-thiobutanoic acid. At 4 wk of age the chicks were subdivided into thermoneutral (22 degrees C) and heat-exposed (32 degrees C) groups and maintained under these conditions for 48 h. Highly purified 3H-L-methionine (3H-L-Met) and 3H-L-2-hydroxy-4-methyl-thiobutanoic acid (3H-L-HMB) were used to evaluate treatment effects on the small intestinal passage of sources of supplemental methionine and on the transport of methionine sources across purified small intestinal brush border vesicles. 3H-L-Met was efficiently absorbed in the upper regions of the small intestine; however, 2.5-3.5% of dietary 3H from birds fed 3H-L-Met remained unabsorbed in the distal small intestine. Dietary 3H (15%) initially associated with 3H-L-HMB was not absorbed during passage down the length of the gut. The HPLC analysis indicated that only 10% of the radiolabeled material remaining in the terminal ileum eluted at the time expected for HMB. Partial breakdown of HMB to nonabsorbed, nonmethionine products during passage down the small intestine may contribute to the difference in biopotency of the two sources of supplemental dietary methionine. Heat exposure did not affect in vivo small intestinal passage or in vitro transport of 3H-L-Met and 3H-L-HMB across small intestinal brush border membrane vesicles.