Ncy at the time of sacrifice. The B12-loaded animals showed a decrease in MMA level. Also, a small but significant increase in both tHCY and cysteine was seen. The plasma level of B12 increased to more than 100 nM in B12loaded animals, and the plasma level of B12 analogues was high in Cbi-loaded animals, reaching levels of more than 600 nM, while the level of B12 showed a slight but significant decrease in these mice (Table 2).Capacity for delivery of compounds through the B12 transport systemIn mice, half the amount of circulating transcobalamin is unsaturated with B12 (Table 2). Thus, if TC was the only limiting factor for uptake of the vitamin, one would expect that tissue Cbi/ B12 would amount to around twice the B12 level observed in control animals. While B12 accumulation in liver and salivary glands of B12-treated mice approached a factor of 2 and 1.5,Continuous delivery of Cbi or B12 alters tissue B12 levelsWe observed significant alterations in the tissue content of B12 in mice treated with Cbi or B12. In Cbi-treated animals, kidney B12 concentrations were reduced to approximately 33 of that in control animals, while concentrations in the liver and salivary glands were approximately 50 of the controls. We detectedOverload of the B12 Transport System in Miceand salivary glands, where the sum of B12 and Cbi far exceeds a factor of 2 as compared to the level of B12 in control mice. The accumulation of Cbi may in part be caused by passive uptake in the cells. Another possibility is that the export of Cbi from the cells is slower than is the export of B12. The kidney displayed another pattern. B12 was markedly depleted, and accumulation of Cbi was relatively low (Table 2). This observation may suggest that Cbi is liberated from the kidney in parallel 18055761 to liberation of B12 for the rescue of B12 depletion in other tissues of the body.High-dose Cbi depletes tissue B12 but does not influence markers of B12 15755315 metabolismThe plasma level of B12 decreased approximately 30 after treatment with Cbi, but within the study period, we did not observe any clinical changes comparable to those seen in humans lacking B12. In addition the red blood cell counts were unchanged and so were the levels of the two metabolic markers of vitamin B12 deficiency tHCY and MMA (Table 2). However, little is known about the sensitivity of these biomarkers in mice; notably, they have previously been shown to MedChemExpress Rubusoside remain stable in knock-out mice with reduced tissue B12 levels [19]. In both treated groups, the white blood cell count was increased and to the highest level in the B12 treated mice. A similar response has been observed in excessive B12 load of healthy humans [20]. In that study, it was explained that B12 acts as cellular modulator in the immune response system. We have no specific LY-2409021 explanation to offer for this observation and it significance remains to be established. In Cbi-loaded mice, Cbi was internalised into the tissues at the expense of B12, as B12 levels decreased in the kidney (3-fold), liver (2-fold), and salivary glands (2-fold). In addition, the Cbi-treated mice excreted more B12 in the urine than did control animals. Together, we take these results to indicate an active transport of Cbi into the cells in competition with endogenous B12. Cbi treatment did not affect gene transcription for any of the genes studied. We interpret these results to support the notion that the mice do not develop major changes in their B12 metabolism even after a reduction.Ncy at the time of sacrifice. The B12-loaded animals showed a decrease in MMA level. Also, a small but significant increase in both tHCY and cysteine was seen. The plasma level of B12 increased to more than 100 nM in B12loaded animals, and the plasma level of B12 analogues was high in Cbi-loaded animals, reaching levels of more than 600 nM, while the level of B12 showed a slight but significant decrease in these mice (Table 2).Capacity for delivery of compounds through the B12 transport systemIn mice, half the amount of circulating transcobalamin is unsaturated with B12 (Table 2). Thus, if TC was the only limiting factor for uptake of the vitamin, one would expect that tissue Cbi/ B12 would amount to around twice the B12 level observed in control animals. While B12 accumulation in liver and salivary glands of B12-treated mice approached a factor of 2 and 1.5,Continuous delivery of Cbi or B12 alters tissue B12 levelsWe observed significant alterations in the tissue content of B12 in mice treated with Cbi or B12. In Cbi-treated animals, kidney B12 concentrations were reduced to approximately 33 of that in control animals, while concentrations in the liver and salivary glands were approximately 50 of the controls. We detectedOverload of the B12 Transport System in Miceand salivary glands, where the sum of B12 and Cbi far exceeds a factor of 2 as compared to the level of B12 in control mice. The accumulation of Cbi may in part be caused by passive uptake in the cells. Another possibility is that the export of Cbi from the cells is slower than is the export of B12. The kidney displayed another pattern. B12 was markedly depleted, and accumulation of Cbi was relatively low (Table 2). This observation may suggest that Cbi is liberated from the kidney in parallel 18055761 to liberation of B12 for the rescue of B12 depletion in other tissues of the body.High-dose Cbi depletes tissue B12 but does not influence markers of B12 15755315 metabolismThe plasma level of B12 decreased approximately 30 after treatment with Cbi, but within the study period, we did not observe any clinical changes comparable to those seen in humans lacking B12. In addition the red blood cell counts were unchanged and so were the levels of the two metabolic markers of vitamin B12 deficiency tHCY and MMA (Table 2). However, little is known about the sensitivity of these biomarkers in mice; notably, they have previously been shown to remain stable in knock-out mice with reduced tissue B12 levels [19]. In both treated groups, the white blood cell count was increased and to the highest level in the B12 treated mice. A similar response has been observed in excessive B12 load of healthy humans [20]. In that study, it was explained that B12 acts as cellular modulator in the immune response system. We have no specific explanation to offer for this observation and it significance remains to be established. In Cbi-loaded mice, Cbi was internalised into the tissues at the expense of B12, as B12 levels decreased in the kidney (3-fold), liver (2-fold), and salivary glands (2-fold). In addition, the Cbi-treated mice excreted more B12 in the urine than did control animals. Together, we take these results to indicate an active transport of Cbi into the cells in competition with endogenous B12. Cbi treatment did not affect gene transcription for any of the genes studied. We interpret these results to support the notion that the mice do not develop major changes in their B12 metabolism even after a reduction.
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