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1. The amyloidogenic SEVI precursor, PAP248-286, is highly unfolded in solution despite an underlying helical tendency

Author

Jeffrey R. Brender, Ayyalusamy Ramamoorthy, Ravi Prakash Reddy Nanga, Nataliya Popovych, Ronald Soong, and Peter M. Macdonald

Subjects

Models, Molecular, Amyloid, Magnetic Resonance Spectroscopy, Molecular Sequence Data, Static Electricity, Biophysics, Peptide, Micelle, Biochemistry, Protein Structure, Secondary, Article, Viral envelope, Humans, Natively disordered, Amino Acid Sequence, Micelles, Protein Unfolding, chemistry.chemical_classification, Aqueous solution, Chemistry, Bilayer, Sodium Dodecyl Sulfate, Water, Structure, Cell Biology, Trifluoroethanol, Peptide Fragments, NMR, Solutions, Crystallography, Membrane, SEVI, Protein Tyrosine Phosphatases, Pulsed field gradient, Two-dimensional nuclear magnetic resonance spectroscopy, Hydrophobic and Hydrophilic Interactions

Abstract

Amyloid fibers in human semen known as SEVI (semen-derived enhancer of viral infection) dramatically increase the infectivity of HIV and other enveloped viruses, which appears to be linked to the promotion of bridging interactions and the neutralization of electrostatic repulsion between the host and the viral cell membranes. The SEVI precursor PAP(248-286) is mostly disordered when bound to detergent micelles, in contrast to the highly α-helical structures found for most amyloid proteins. To determine the origin of this difference, the structures of PAP(248-286) were solved in aqueous solution and with 30% and 50% trifluoroethanol. In solution, pulsed field gradient (PFG)-NMR and (1)H-(1)H NOESY experiments indicate that PAP(248-286) is unfolded to an unusual degree for an amyloidogenic peptide but adopts significantly helical structures in TFE solutions. The clear differences between the structures of PAP(248-286) in TFE and SDS indicate electrostatic interactions play a large role in the folding of the peptide, consistent with the slight degree of penetration of PAP(248-286) into the hydrophobic core of the micelle. This is another noticeable difference between PAP(248-286) and other amyloid peptides, which generally show penetration into at least the headgroup region of the bilayer, and may explain some of the unusual properties of SEVI.