54 Impact of Ileal Indigestible Protein on Nitrogen Excretion and Fecal Microbiota may be Greater Compared with Total Protein Concentration of Diets in Growing Pigs

Abstract

Abstract The effect of changes in dietary ileal indigestible protein concentration may be more influential in the amount of nitrogen flowing to the large intestine compared with changes in total dietary protein concentration. For this reason, we hypothesized that an increase in dietary ileal indigestible protein concentration induces an increase in hindgut nitrogen utilization and nitrogen excretion and a shift in fecal microbiota in growing pigs, when compared with pigs given a high total protein diet. Three diets were prepared: 1) standard protein diet based on corn and soybean meal, 2) high-indigestible protein diet in which autoclaved soybean meal replaced normal soybean meal in the first diet, and 3) high protein diet where the inclusion rate of soybean meal was greater than that of the other diets. T-cannulated barrows (n = 18; initial BW = 63.4 ± 8.0 kg) were allotted to the 3 diets in a randomized complete block design with BW as a blocking factor. Pigs were individually housed in pens and the experiment lasted for 23 days. On d 7 and 21, fecal samples were collected by rectal massage for microbiota analysis. Grab samples of feces were collected on d 20 and 21, and ileal digesta were collected on d 22 and 23 for the determination of energy and nitrogen utilization. Energy and nitrogen utilization data were analyzed using the MIXED procedure of SAS using a pig as the experimental unit and a model that included diet as a fixed variable and block as a random variable. For microbiome analysis, R was used. Alpha and beta diversity metrics were analyzed and the difference in abundance of the genus was determined using the DESeq2 function. The high-indigestible protein diet achieved decreased apparent ileal digestibility of nitrogen and resulted in greater ileal indigestible nitrogen concentration (P < 0.05). Apparent total tract digestibility of nitrogen was less (P < 0.05), and correspondingly fecal nitrogen concentration and daily fecal nitrogen output were greater (P < 0.05) in the high-indigestible protein diet. Apparent post-ileal digestibility and hindgut disappearance of nitrogen and gross energy were the greatest (P < 0.05) in the high protein diet. Beta diversity metrics of feces in the high-indigestible protein diet on d 21 were different (q < 0.05) from those in the other two diets, which indicates a shift in fecal microbiota. According to the DESeq2 results, the direction of the microbiota shift induced by the high-indigestible protein diet may have reduced hindgut fiber utilization. In conclusion, an increase in dietary ileal indigestible protein increased nitrogen excretion and shifted fecal microbial communities but did not increase hindgut nitrogen utilization.