Abstract
We used multiple sets of simulations both at the atomistic and coarse-grained level of resolution to investigate interaction and binding of α-tochoperol transfer protein (α-TTP) to phosphatidylinositol phosphate lipids (PIPs). Our calculations indicate that enrichment of membranes with such lipids facilitate membrane anchoring. Atomistic models suggest that PIP can be incorporated into the binding cavity of α-TTP and therefore confirm that such protein can work as lipid exchanger between the endosome and the plasma membrane. Comparison of the atomistic models of the α-TTP-PIPs complex with membrane-bound α-TTP revealed different roles for the various basic residues composing the basic patch that is key for the protein/ligand interaction. Such residues are of critical importance as several point mutations at their position lead to severe forms of ataxia with vitamin E deficiency (AVED) phenotypes. Specifically, R221 is main residue responsible for the stabilization of the complex. R68 and R192 exchange strong interactions in the protein or in the membrane complex only, suggesting that the two residues alternate contact formation, thus facilitating lipid flipping from the membrane into the protein cavity during the lipid exchange process. Finally, R59 shows weaker interactions with PIPs anyway with a clear preference for specific phosphorylation positions, hinting a role in early membrane selectivity for the protein. Altogether, our simulations reveal significant aspects at the atomistic scale of interactions of α-TTP with the plasma membrane and with PIP, providing clarifications on the mechanism of intracellular vitamin E trafficking and helping establishing the role of key residue for the functionality of α-TTP.
Highlights
The dietary balance of all superior animals must include periodic assimilation of vitamin E, one of the most important antioxidants capable of quenching singlet oxygen, protecting from peroxidative damage, and of capturing other radical species (Tappel, 1962; Herrera and Barbas, 2001; Packer et al, 2001)
Starting from the crystallographic data, during a 250 ns-long molecular dynamics (MD) run, we observed penetration of the acyl chains of the lipid in the binding cavity (Figure 1A), and the mobile gate helix moved to a position in good qualitative agreement with closed-state structures previously determined for the native α-tochoperol transfer protein (α-TTP)-α-Tol complex (Figures 1B, 2A)
We studied the interaction of α-TTP with PIP2 molecules both when they are bound into the protein’s cavity or while they are embedded in the plasma membrane
Summary
The dietary balance of all superior animals must include periodic assimilation of vitamin E, one of the most important antioxidants capable of quenching singlet oxygen, protecting from peroxidative damage, and of capturing other radical species (Tappel, 1962; Herrera and Barbas, 2001; Packer et al, 2001). Of all the chemical species associated to the generic vitamin E name, superior animals typically retain only RRR-α-tocopherol (α-Tol hereafter) This process occurs in multiple steps: initially, all vitamin isoforms are absorbed in the small intestine, delivered to the lymph, Multi-scale simulations of α-TTP/membrane interactions and eventually incorporated into early endosomal compartments of epatocytes (Traber and Sies, 1996; Yap et al, 2001). Missense mutations in α-TTP disrupt such a crucial step required for α-Tol delivery into the body, leading to severe degenerative disease called Ataxia with Vitamin E Deficiency (AVED) (Donato et al, 2010) Despite such coarse picture is understood, the molecular details by which such processes occur are far from being elucidated. Influence of environmental variables onto the process (like decrease of pH during endosomal maturation, membrane curvature, or presence of lipid rafts) are at present not well understood
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