Despite the fact that E7 is a major transforming oncoprotein in papillomavirus, its structure and precise molecular mechanism of action remain puzzling to date. E7 proteins share sequence homology and proteasome targeting properties of tumor suppressors with adenovirus E1A and SV40 T antigen, two other paradigmatic oncoproteins from DNA tumor viruses. High-risk HPV16 E7, a nonglobular dimer with some properties of intrinsically disordered proteins, is capable of undergoing pH-dependent conformational transitions that expose hydrophobic surfaces to the solvent. We found that treatment with a chelating agent produced a protein that can readily assemble into homogeneous spherical particles with an average molecular mass of 790 kDa and a diameter of 50 nm, as determined from dynamic light scattering and electron microscopy. The protein undergoes a substantial conformational transition from coil to beta-sheet structure, with concomitant consolidation of tertiary structure as judged by circular dichroism and fluorescence. The assembly process is very slow, in agreement with a substantial energy barrier caused by structural rearrangements. The resulting particles are highly stable, cooperatively folded, and capable of binding both Congo Red and thioflavin T, reporters of repetitive beta-sheet structures similar to those found in amyloids, although no fibrillar or insoluble material was observed under our experimental conditions.
Objective: In order to gain further knowledge of the structure of zinc transporter 8 (ZnT8) epitopes, we studied the role of the amino acid at position 325 in the antigen and its dimeric conformation for autoantibodies to ZnT8 (ZnT8A) recognition. Methods: For this purpose, several ZnT8 C-terminal domain variants were designed: monomer carrying Arg325 or Trp325, homo-dimers ZnT8-Arg-Arg325 and ZnT8-Trp-Trp325, and hetero-dimer ZnT8-Arg-Trp325. Two groups of Argentinian diabetic patients were subjected to analysis using [ 35 S]-ZnT8 variants by radioligand binding assay (RBA): i) 100 new-onset, insulin-dependent, type 1 diabetic patients and ii) 282 slowly progressing to insulin requirement, non-obese adult-onset diabetic patients. In addition, 50 type 1 diabetic patients and 100 normal control sera provided by the American Diabetes Association (ADA) were evaluated in order to calculate the sensitivity and specificity of ZnT8A assays for each antigenic variant. Other routine b-cell autoantibodies were also tested by RBA. Results: Of the 100 Argentinian type 1 diabetic patients, 65 were ZnT8AC. Out of them, 8 patients recognized all recombinant forms of ZnT8 and most patients (56) reacted against the heterodimer. Additionally, out of 282 non-obese adultonset diabetic patients 46 were ZnT8AC, whereas 29 patients recognized only dimers. Besides, exclusive reactivity against ZnT8A was found in 9.0% for type 1 diabetes mellitus and 10.3% for non-obese adult-onset diabetic patients. Conclusions: Significantly higher signal values in RBA were obtained with the heterodimeric variant. An increased detection of humoral autoimmunity was found in both groups when ZnT8A was employed in combination with the other b-cell autoantibodies. The inclusion of homodimeric immunoreactive peptides revealed the existence of quaternary structuredefined epitopes probably resembling the actual state of the autoantigen in vivo. Finally, the differential profiles of ZnT8A exhibited by type 1 and non-obese adult-onset diabetic patients suggest the different nature of autoimmune processes underlying both pathologies.
Native proinsulin (PI) belongs to the class of the difficult-to-express proteins in Escherichia coli. Problems mainly arise due to its high proteolytic decay and troubles to reproduce the native disulphide pattern. In the present study, human PI was produced in E. coli as a fusion thioredoxin protein (Trx-PI). Such chimeric protein was obtained from the intracellular soluble fraction, and it was purified in one step by affinity chromatography on immobilized phenylarsine oxide. Trx-PI was also recovered from inclusion bodies and purified by anion exchange chromatography. The product identity and integrity were verified by mass analysis (22,173.5 Da) and mapping with Staphylococcus aureus V8 protease. Native PI folding was evaluated by biochemical and also by immunochemical analysis using specific sera from PI antibody-positive diabetic patients that recognise conformational discontinue epitopes. Dose-response curves showed identity between standard PI and Trx-PI. Moreover, surface plasmon resonance technique verified the correct conformation of the recombinant protein. The biochemical and immunochemical assays demonstrated the integrity of the chimera and the epitopes involved in the interaction with antibodies. In conclusion, it was possible to obtain with high-yield purified human PI as a fusion protein in E. coli and useful for analytical purposes.
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