Intestinal Synthesis and Absorption of Vitamin B-12 in Channel Catfish

Abstract

A feeding experiment conducted in a controlled environment and using a vitamin B₁₂-deficient, but otherwise nutritionally complete, purified diet revealed that intestinal microorganisms in channel catfish synthesized approximately 1.4 ng of vitamin B₁₂ per gram of bodyweight per day. Removal of cobalt from the diet or supplementation with an antibiotic (succinylsulfathiazole) significantly reduced the rate of intestinal synthesis and liver stores of vitamin B₁₂. Radiolabeled vitamin B₁₂ in the blood, liver, kidneys, and spleen of fish fed ⁶⁰Co in the diet indicated that the intestinally synthesized vitamin was absorbed by the fish. The primary route of absorption was directly from the digestive tract into the blood because coprophagy was prevented in the rearing aquariums and the amount of vitamin B₁₂ dissolved in the aquarium water was too low for gill absorption. Dietary supplementation of vitamin B₁₂ was not necessary for normal growth and erythrocyte formation in channel catfish in a 24-week feeding period. A longer period, however, may have caused a vitamin deficiency since liver-stored vitamin B₁₂ decreased between the 2nd and 24th weeks.