Foods contain natural vitamin B12 forms, such as hydroxo⁻B12 (HO⁻B12), whereas vitamin pills contain the synthetic cyano⁻B12 (CN⁻B12). Recent studies in rats showed different tissue distributions of CN⁻B12 and HO⁻B12 24 h after oral administration. Here, we investigate whether these differences are sustained or leveled out with time in both B12-deplete and -replete rats, thereby assessing if the two forms are equally good at maintaining a normal B12 status. Male Wistar rats were fed diets with low (n = 16) or high (n = 12) B12 content for 17 days. At day 10, the rats received a single oral dose of [57Co]-labeled CN⁻B12 or HO⁻B12 (n = 6 and n = 8, respectively, in each diet group). The rats were sacrificed on day 17 and endogenous B12 and [57Co]⁻B12 were measured in liver, kidney, and plasma. We found that the low-B12 diet introduced a B12-deplete state as judged from medians of endogenous B12 compared to rats on a (high-B12 diet): Plasma (565 (1410) pmol/L), liver (28.2 (33.2) pmol/g), and kidneys (123 (1300) pmol/g). One week after oral administration, the labeled B12 was distributed as follows: HO⁻B12 > CN⁻B12 (liver) and CN⁻B12 > HO⁻B12 (kidneys, plasma). The tissue/plasma ratios showed different equilibriums for labeled CN⁻B12 and HO⁻B12 in the B12-deplete and -replete groups. The equilibrium of endogenous B12 resembled [57Co]CN⁻B12 in replete rats but differed from both [57Co]CN⁻B12 and [57Co]HO⁻B12 in deplete rats. The data suggest long-term differences in tissue utilization of the two B12 forms and warrant further studies concerning the possible benefits of consuming HO⁻B12 instead of CN⁻B12 in oral B12 replacement.
Keywords: cobalamin; cyano–B12; hydroxo–B12; rats; tissue distribution; vitamin B12.