Abstract
Pyridoxal-5′-phosphate (PLP), a phosphorylated form of vitamin B6, acts as a coenzyme for numerous reactions, including those changed in cancer and/or associated with the disease prognosis. Since highly reactive PLP may modify cellular proteins, it is hypothesized to be directly transferred from its donors to acceptors. Our goal is to validate the hypothesis by finding common motif(s) in a multitude of the PLP-dependent enzymes for binding the limited number of the PLP donors, namely pyridoxal kinase (PdxK), pyridox(am)in-5′-phosphate oxidase (PNPO) and the PLP-binding protein (PLPBP). Experimentally confirmed interactions between the PLP donors and acceptors reveal that PdxK and PNPO interact with the PLP acceptors of folds I and II, while PLPBP - with those of folds III and V. Aligning the sequences and 3D structures of the identified interactors of PdxK and PNPO, we have found a common motif in the PLP-dependent enzymes of folds I and II. The motif extends from the enzyme surface to the neighborhood of the PLP binding site, represented by an exposed alfa-helix, a partially buried beta-strand and residual loops. Pathogenicity of mutations in human PLP-dependent enzymes within or in the vicinity of the motif, but outside of the active sites, supports functional significance of the motif that may provide an interface for the direct transfer of PLP from the sites of its synthesis to those of the coenzyme binding. The enzyme-specific amino acid residues of the common motif may be used to develop selective inhibitors blocking PLP delivery to the PLP-dependent enzymes critical for proliferation of malignant cells.
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