Abstract
Conversion of vitamin B12 (cobalamin, Cbl) into the cofactor forms methyl-Cbl (MeCbl) and adenosyl-Cbl (AdoCbl) is required for the function of two crucial enzymes, mitochondrial methylmalonyl-CoA mutase and cytosolic methionine synthase, respectively. The intracellular proteins MMACHC and MMADHC play important roles in processing and targeting the Cbl cofactor to its destination enzymes, and recent evidence suggests that they may interact while performing these essential trafficking functions. To better understand the molecular basis of this interaction, we have mapped the crucial protein regions required, indicate that Cbl is likely processed by MMACHC prior to interaction with MMADHC, and identify patient mutations on both proteins that interfere with complex formation, via different mechanisms. We further report the crystal structure of the MMADHC C-terminal region at 2.2 Å resolution, revealing a modified nitroreductase fold with surprising homology to MMACHC despite their poor sequence conservation. Because MMADHC demonstrates no known enzymatic activity, we propose it as the first protein known to repurpose the nitroreductase fold solely for protein-protein interaction. Using small angle x-ray scattering, we reveal the MMACHC-MMADHC complex as a 1:1 heterodimer and provide a structural model of this interaction, where the interaction region overlaps with the MMACHC-Cbl binding site. Together, our findings provide novel structural evidence and mechanistic insight into an essential biological process, whereby an intracellular "trafficking chaperone" highly specific for a trace element cofactor functions via protein-protein interaction, which is disrupted by inherited disease mutations.
Highlights
Two intracellular proteins, MMACHC and MMADHC, functionally interact for cobalamin trafficking
Using blue native-PAGE (BN-PAGE) (Fig. 1B), full-length MMACHC (HsMMACHCFL) alone migrated as two bands, consistent with its known monomeric and dimeric forms, whereas the dimeric band became more prominent in the presence of MeCbl and GSH
Complex formation, as judged by the appearance of an additional band in BN-PAGE as compared with single-protein controls, was observed when HsMMACHCFL preincubated with MeCbl and GSH was added to HsMMADHC⌬61 or HsMMADHC⌬123, or to a lesser extent, HsMMADHC⌬153
Summary
MMACHC and MMADHC, functionally interact for cobalamin trafficking. Vitamin B12 (referred hereafter as cobalamin, Cbl) is an essential cofactor for two human enzymes: cytosolic methionine synthase (MS, EC 2.1.1.13), which requires methyl-Cbl (MeCbl), and mitochondrial methylmalonyl-CoA mutase (MUT, EC 5.4.99.2), which requires adenosyl-Cbl (AdoCbl) [1]. Mutations in any of the seven genes, depending on its relative position within the pathway, can result in three broad disease phenotypes collectively referred to as “intracellular Cbl disorders” [2, 4] They include (i) homocystinuria (HC) associated with reduced MeCbl production and MS deficiency [1, 5], (ii) methylmalonic aciduria (MMA) associated with reduced AdoCbl production and MUT deficiency [6, 7], or (iii)
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