Your search keyword '"Maria Plesa"' showing total 3 results

1. Structural features of recombinant MMADHC isoforms and their interactions with MMACHC, proteins of mammalian vitamin B12 metabolism

Author

Wayne Mah, Isabelle R. Miousse, David S. Rosenblatt, Justin C. Deme, Jaeseung C. Kim, James W. Coulton, Mark A. Hancock, and Maria Plesa

Subjects

Models, Molecular, Gene isoform, Endocrinology, Diabetes and Metabolism, Molecular Sequence Data, Gene Expression, Mitochondrial Membrane Transport Proteins, Biochemistry, Protein Structure, Secondary, Cell Line, Protein–protein interaction, law.invention, 03 medical and health sciences, Maltose-binding protein, 0302 clinical medicine, Endocrinology, law, Escherichia coli, Genetics, Humans, Protein Isoforms, Amino Acid Sequence, Methionine synthase, Molecular Biology, Gene, 030304 developmental biology, 0303 health sciences, Binding Sites, biology, Chemistry, Circular Dichroism, Intracellular Signaling Peptides and Proteins, MMACHC, Recombinant Proteins, Native Polyacrylamide Gel Electrophoresis, Vitamin B 12, Mutation, biology.protein, Recombinant DNA, Carrier Proteins, Cell Surface Display Techniques, Oxidoreductases, 030217 neurology & neurosurgery, Function (biology), Protein Binding

Abstract

The genes MMACHC and MMADHC encode critical proteins involved in the intracellular metabolism of cobalamin. Two clinical features, homocystinuria and methylmalonic aciduria, define inborn errors of these genes. Based on disease phenotypes, MMADHC acts at a branch point for cobalamin delivery, apparently exerting its function through interaction with MMACHC that demonstrates dealkylase and decyanase activities. Here we present biophysical analyses of MMADHC to identify structural features and to further characterize its interaction with MMACHC. Two recombinant tag-less isoforms of MMADHC (MMADHCΔ1-12 and MMADHCΔ1-61) were expressed and purified. Full length MMACHC and full length MMADHC were detected in whole cell lysates of human cells; by Western blotting, their molecular masses corresponded to purified recombinant proteins. By clear-native PAGE and by dynamic light scattering, recombinant MMADHCs were stable and monodisperse. Both species were monomeric, adopting extended conformations in solution. Circular dichroism and secondary structure predictions correlated with significant regions of disorder within the N-terminal domain of MMADHC. We found no evidence that MMADHC binds cobalamin. Phage panning against MMADHC predicted four binding regions on MMACHC, two of which overlap with predicted sites on MMACHC at which it may self-associate. Specific, concentration-dependent responses were observed for MMACHC binding to itself and to both MMADHC constructs. As estimated in the sub-micromolar range, the binding of MMACHC to itself was weaker compared to its interaction with either of the MMADHC isoforms. We propose that the function of MMADHC is exerted through its structured C-terminal domain via interactions with MMACHC.

Published

2012

2. Interaction between MMACHC and MMADHC, two human proteins participating in intracellular vitamin B12 metabolism

Author

Bernard F. Gibbs, Jaeseung C. Kim, Mark A. Hancock, Hubert Gagnon, James W. Coulton, Maria Plesa, Christopher Ng-Thow-Hing, David S. Rosenblatt, and Stéphane G. Paquette

Subjects

Phage display, biology, Membrane transport protein, Endocrinology, Diabetes and Metabolism, Plasma protein binding, Biochemistry, MMACHC, Adenosylcobalamin, Endocrinology, Methylcobalamin, Genetics, medicine, biology.protein, Cyanocobalamin, Binding site, Molecular Biology, medicine.drug

Abstract

The identification of eight genes involved in inherited cobalamin (Cbl) disorders has provided insight into the complexity of the vitamin B₁₂ trafficking pathway. Detailed knowledge about the structure, interaction, and physiological functions for many of the gene products, including the MMACHC and MMADHC proteins, is lacking. Having cloned, expressed, and purified MMACHC in Escherichia coli, we demonstrated its monodispersity by dynamic light scattering and measured its hydrodynamic radius, either alone or in complex with each of four vitamin B₁₂ derivatives. Using solution-phase intrinsic fluorescence and label-free, real-time surface plasmon resonance (SPR), MMACHC bound cyanocobalamin and hydroxycobalamin with similar low micromolar affinities (K(D) 6.4 and 9.8 μM, respectively); adenosylcobalamin and methylcobalamin also shared similar binding affinities for MMACHC (K(D) 1.7 and 1.4 μM, respectively). To predict specific regions of interaction between MMACHC and the proposed partner protein MMADHC, MMACHC was subjected to phage display. Five putative MMACHC-binding sites were identified. Finally, MMADHC was confirmed as a binding partner for MMACHC both in vitro (SPR) and in vivo (bacterial two-hybrid system).

Published

2011

3. Interaction between MMACHC and MMADHC, two human proteins participating in intracellular vitamin B₁₂ metabolism

Author

Maria, Plesa, Jaeseung, Kim, Stéphane G, Paquette, Hubert, Gagnon, Christopher, Ng-Thow-Hing, Bernard F, Gibbs, Mark A, Hancock, David S, Rosenblatt, and James W, Coulton

Subjects

Mitochondrial Proteins, Vitamin B 12, Binding Sites, Recombinant Fusion Proteins, Intracellular Signaling Peptides and Proteins, Intracellular Space, Humans, Membrane Transport Proteins, Amino Acid Sequence, Carrier Proteins, Oxidoreductases, Mitochondrial Membrane Transport Proteins, Protein Binding

Abstract

The identification of eight genes involved in inherited cobalamin (Cbl) disorders has provided insight into the complexity of the vitamin B₁₂ trafficking pathway. Detailed knowledge about the structure, interaction, and physiological functions for many of the gene products, including the MMACHC and MMADHC proteins, is lacking. Having cloned, expressed, and purified MMACHC in Escherichia coli, we demonstrated its monodispersity by dynamic light scattering and measured its hydrodynamic radius, either alone or in complex with each of four vitamin B₁₂ derivatives. Using solution-phase intrinsic fluorescence and label-free, real-time surface plasmon resonance (SPR), MMACHC bound cyanocobalamin and hydroxycobalamin with similar low micromolar affinities (K(D) 6.4 and 9.8 μM, respectively); adenosylcobalamin and methylcobalamin also shared similar binding affinities for MMACHC (K(D) 1.7 and 1.4 μM, respectively). To predict specific regions of interaction between MMACHC and the proposed partner protein MMADHC, MMACHC was subjected to phage display. Five putative MMACHC-binding sites were identified. Finally, MMADHC was confirmed as a binding partner for MMACHC both in vitro (SPR) and in vivo (bacterial two-hybrid system).

Published

2010