A routine method for cloning, expressing and purifying Aβ(1–42) for structural NMR studies

Nuclear magnetic resonance (NMR) is a key technology in the biophysicist's toolbox for gaining atomic-level insight into structure and dynamics of biomolecules. Investigation of the amyloid-β peptide (Aβ) of Alzheimer's disease is one area where NMR has proven useful, and holds even more potential. A barrier to realizing this potential, however, is the expense of the isotopically enriched peptide required for most NMR work. Whereas most biomolecular NMR studies employ biosynthetic methods as a very cost-effective means to obtain isotopically enriched biomolecules, this approach has proven less than straightforward for Aβ. Furthermore, the notorious propensity of Aβ to aggregate during purification and handling reduces yields and increases the already relatively high costs of solid phase synthesis methods. Here we report our biosynthetic and purification developments that yield pure, uniformly enriched ¹⁵N and ¹³C¹⁵N Aβ(1-42), in excess of 10 mg/L of culture media. The final HPLC-purified product was stable for long periods, which we characterize by solution-state NMR, thioflavin T assays, circular dichroism, electrospray mass spectrometry, and dynamic light scattering. These developments should facilitate further investigations into Alzheimer's disease, and perhaps misfolding diseases in general

Viroporin Activity of the Foot-and-Mouth Disease Virus Non-Structural 2B Protein

Viroporins are a family of low-molecular-weight hydrophobic transmembrane proteins that are encoded by various animal viruses. Viroporins form transmembrane pores in host cells via oligomerization, thereby destroying cellular homeostasis and inducing cytopathy for virus replication and virion release. Among the Picornaviridae family of viruses, the 2B protein encoded by enteroviruses is well understood, whereas the viroporin activity of the 2B protein encoded by the foot-and-mouth disease virus (FMDV) has not yet been described. An analysis of the FMDV 2B protein domains by computer-aided programs conducted in this study revealed that this protein may contain two transmembrane regions. Further biochemical, biophysical and functional studies revealed that the protein possesses a number of features typical of a viroporin when it is overexpressed in bacterial and mammalian cells as well as in FMDV-infected cells. The protein was found to be mainly localized in the endoplasmic reticulum (ER), with both the N- and C-terminal domains stretched into the cytosol. It exhibited cytotoxicity in Escherichia coli, which attenuated 2B protein expression. The release of virions from cells infected with FMDV was inhibited by amantadine, a viroporin inhibitor. The 2B protein monomers interacted with each other to form both intracellular and extracellular oligomers. The Ca(2+) concentration in the cells increased, and the integrity of the cytoplasmic membrane was disrupted in cells that expressed the 2B protein. Moreover, the 2B protein induced intense autophagy in host cells. All of the results of this study demonstrate that the FMDV 2B protein has properties that are also found in other viroporins and may be involved in the infection mechanism of FMDV