Noralvis Fleitas scite author profile

Based on the hypothesis that interactions between virions and serum components may influence the outcome of dengue virus (DENV) infections, we decided to use affinity chromatography with domain III from the envelope (E) protein of DENV2 (DIIIE2) as a ligand to isolate virus-binding proteins from human plasma. This approach yielded serum amyloid P (SAP) and a 2 -macroglobulin (a 2 M) as novel viral interactors. After confirming the specific binding of both SAP and a 2 M to DIIIE2 by ELISA, the latter interaction was examined in greater detail. We obtain evidence suggesting that the binding species was actually the receptor-activated form of a 2 M (a 2 M*), that a 2 M* could bind monovalently to recombinant domain III from all four DENV serotypes with affinities in the micromolar range ranking as DENV4.DENV1~DENV2.DENV3 and that this interaction exhibited a strong avidity effect when multivalent binding was favoured (K D 8¾10"8 M for DIIIE2). We also showed that a 2 M* bound to DENV virions of the four serotypes, protecting the virus from temperature-induced inactivation in the absence of serum and enhancing infectivity. The latter effect exhibited an ED 50 of 2.9¾10 "8 M, also suggesting an avidity effect due to multivalent binding. These results will further contribute to the characterization of the virus-host factor interaction network during human DENV infection.

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Novel interactions of domain III from the envelope glycoprotein of dengue 2 virus with human plasma proteins

Huerta

Ramos

Yero

et al. 2016

Journal of Proteomics

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Development of drug delivery polymeric nanosystems for the improvement of protein formulations

Guevara¹,

Pedroso‐Santana²,

Fleitas³

et al. 2020

Preprint

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Development of drug delivery polymeric nanosystems for the improvement of protein formulations

Guevara¹,

Pedroso‐Santana²,

Fleitas³

et al. 2020

Preprint

View full text Add to dashboard Cite

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