Human ATP:Cob(I)alamin Adenosyltransferase and Its Interaction with Methionine Synthase Reductase

The final step in the conversion of vitamin B 12 into coenzyme B 12 (adenosylcobalamin, AdoCbl) is catalyzed by ATP:cob(I)alamin adenosyltransferase (ATR). Prior studies identified the human ATR and showed that defects in its encoding gene underlie cblB methylmalonic aciduria. Here two common polymo...

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Bibliographic Details
Published in:The Journal of biological chemistry 2004-11, Vol.279 (46), p.47536-47542
Main Authors: Leal, Nicole A, Olteanu, Horatiu, Banerjee, Ruma, Bobik, Thomas A
Format: Article
Language:English
Subjects:
Adenosine Triphosphate - metabolism
Alkyl and Aryl Transferases - genetics
Alkyl and Aryl Transferases - isolation & purification
Alkyl and Aryl Transferases - metabolism
Cobamides - metabolism
Enzyme Activation
Ferredoxin-NADP Reductase - genetics
Ferredoxin-NADP Reductase - metabolism
Humans
Oxidation-Reduction
Polymorphism, Genetic
Recombinant Proteins - genetics
Recombinant Proteins - metabolism
Vitamin B 12 - analogs & derivatives
Vitamin B 12 - metabolism
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Summary:The final step in the conversion of vitamin B 12 into coenzyme B 12 (adenosylcobalamin, AdoCbl) is catalyzed by ATP:cob(I)alamin adenosyltransferase (ATR). Prior studies identified the human ATR and showed that defects in its encoding gene underlie cblB methylmalonic aciduria. Here two common polymorphic variants of the ATR that are found in normal individuals are expressed in Escherichia coli , purified, and partially characterized. The specific activities of ATR variants 239K and 239M were 220 and 190 nmol min –1 mg –1 , and their K m values were 6.3 and 6.9 μ m for ATP and 1.2 and 1.6 μ m for cob(I)alamin, respectively. These values are similar to those obtained for previously studied bacterial ATRs indicating that both human variants have sufficient activity to mediate AdoCbl synthesis in vivo . Investigations also showed that purified recombinant human methionine synthase reductase (MSR) in combination with purified ATR can convert cob(II)alamin to AdoCbl in vitro . In this system, MSR reduced cob(II)alamin to cob(I)alamin that was adenosylated to AdoCbl by ATR. The optimal stoichiometry for this reaction was ∼4 MSR/ATR and results indicated that MSR and ATR physically interacted in such a way that the highly reactive reaction intermediate [cob(I)alamin] was sequestered. The finding that MSR reduced cob(II)alamin to cob(I)alamin for AdoCbl synthesis (in conjunction with the prior finding that MSR reduced cob(II)alamin for the activation of methionine synthase) indicates a dual physiological role for MSR.
ISSN:0021-9258
1083-351X
DOI:10.1074/jbc.M405449200