The non-structural 1 (NS1) protein plays an important role in dengue diagnosis because it has been detected as a soluble serum antigen in both primary and secondary infections. The NS1 protein was expressed in Escherichia coli cells, and the efficiency of four different refolding protocols was tested. All of the protocols generated dimeric NS1 in a conformation similar to that of the protein expressed by eukaryotic cells. A polyclonal antibody produced from the properly folded E. coli recombinant NS1 (rNS1) protein proved to be a useful tool for the diagnosis of Dengue virus because it detected 100% of the Dengue virus 2 (DENV2) in infected patients' sera and 60% of the DENV IgM-positive sera not detected by commercial NS1-based diagnostic kits. These data suggest a high-efficiency method for correctly folding rNS1 that maintains its structural and immunogenic properties. In addition, a detection method using the polyclonal antibody against correctly folded rNS1 seemed to be more sensitive and efficient for NS1 detection in serum, highlighting its usefulness for developing a high-sensitivity diagnostic kit.
Abstract. Amylin is a pancreatic hormone that plays important roles in overall metabolism and in glucose homeostasis. The therapeutic restoration of postprandial and basal amylin levels is highly desirable for patients with diabetes who need to avoid glucose excursions. Protein conjugation with polyethylene glycol (PEG) has long been known to be a convenient approach for extending the biological effects of biopharmaceuticals. We have investigated the reactivity of amylin with methoxy polyethylene glycol succinimidyl carbonate and methoxy polyethylene glycol succinimidyl propionate, which have an average molecular weight of 5 kDa. The reaction, which was conducted in both aqueous and organic (dimethyl sulfoxide) solvents, occurred within a few minutes and resulted in at least four detectable products with distinct kinetic phases. These results suggest a kinetic selectivity for PEGylation by succinimidyl derivatives; these derivatives exhibit enhanced reactivity with primary amine groups, as indicated by an evaluation of the remaining amino groups using fluorescamine. The analysis of tryptic fragments from mono-and diPEGylated amylin revealed that conjugation occurred within the 1-11 amino acid region, most likely at the two amine groups of Lys 1 . The reaction products were efficiently separated by C-18 reversed phase chromatography. Binding assays confirmed the ability of mono-and diPEGylated amylin to interact with the amylin co-receptor receptor activity-modifying protein 2. Subcutaneous administration in mice revealed the effectiveness of monoPEG-amylin and diPEG-amylin in reducing glycemia; both compounds exhibited prolonged action compared to unmodified amylin. These features suggest the potential use of PEGylated amylin to restore basal amylin levels.
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