Jorge F Correia-Pinto scite author profile

Jorge F Correia-Pinto

3Publications

85Citation Statements Received

232Citation Statements Given

How they've been cited

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213

218

Affiliations

Center for Research in Molecular Medicine and Chronic Diseases, University of Santiago de Compostela

Publications

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Natural and cross-inducible anti-SIV antibodies in Mauritian cynomolgus macaques

Nykoluk

Lin

et al. 2017

PLoS ONE

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Cynomolgus macaques are an increasingly important nonhuman primate model for HIV vaccine research. SIV-free animals without pre-existing anti-SIV immune responses are generally needed to evaluate the effect of vaccine-induced immune responses against the vaccine epitopes. Here, in order to select such animals for vaccine studies, we screened 108 naïve female Mauritian cynomolgus macaques for natural (baseline) antibodies to SIV antigens using a Bio-Plex multiplex system. The antigens included twelve 20mer peptides overlapping the twelve SIV protease cleavage sites (-10/+10), respectively (PCS peptides), and three non-PCS Gag or Env peptides. Natural antibodies to SIV antigens were detected in subsets of monkeys. The antibody reactivity to SIV was further confirmed by Western blot using purified recombinant SIV Gag and Env proteins. As expected, the immunization of monkeys with PCS antigens elicited anti-PCS antibodies. However, unexpectedly, antibodies to non-PCS peptides were also induced, as shown by both Bio-Plex and Western blot analyses, while the non-PCS peptides do not share sequence homology with PCS peptides. The presence of natural and vaccine cross-inducible SIV antibodies in Mauritian cynomolgus macaques should be considered in animal selection, experimental design and result interpretation, for their best use in HIV vaccine research.

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Vaccine targeting SIVmac251 protease cleavage sites protects macaques against vaginal infection

Omange

Liang

et al. 2020

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Authorship note: HL, RWO, and BL contributed equally to this work. FAP is deceased. Conflict of interest: ML is the inventor of patents owned by Her Majesty The Queen In Right of Canada as represented by The Minister of Health: Canada patent no. 2,833,425, "Protease cleavage site peptides as an HIV vaccine"; US patent no. 10,285,942, "Methods of inducing an immune response against HIV by administering immunogenic peptides obtained from protease cleavage sites"; and European patent no. 2,694,654, "Protease cleavage site peptides as an HIV vaccine."

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Chitosan-Poly (I:C)-PADRE Based Nanoparticles as Delivery Vehicles for Synthetic Peptide Vaccines

et al. 2015

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The safety and precision of peptide antigens has prompted the search for adjuvants capable of increasing the immune response against these intrinsically poorly immunogenic antigens. The integration of both immunostimulants and peptide antigens within nanometric delivery systems for their co-delivery to immune cells is a promising vaccination strategy. With this in mind, the potential synergistic effect of the immunostimulant poly (I:C) (pIC) and a T-Helper peptide (PADRE), integrated into a chitosan (CS) based nanostructure, was explored. The value of this nanostructured combination of materials was assessed for a peptide antigen (1338aa) derived from the HPV-16 L2 protein. These nanoparticles, produced by ionic gelation technique, exhibited a nanometric size (<300 nm), a high positive surface charge (>40 mV) and high pIC association efficiency (>96%). They also showed capacity for the association of both the 1338aa and PADRE peptides. The influence of the presence of pIC and PADRE in the nanocomposition, as well as that of the peptide presentation form (encapsulated versus surface adsorbed) on the antibody induction was evaluated in a preliminary in vivo study. The data obtained highlights the possibility to engineer nanoparticles through the rational combination of a number of adjuvant molecules together with the antigen.

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