Low doses of pharmaceutical formulations loaded with UFMG-V4N2 immunogen induce the production of IgG anti-cocaine antibodies and provide evidence of cerebral protection in the preclinical model
Bruna Rodrigues Dias Assis,
Paulo Sérgio de Almeida Augusto,
Raissa Lima Gonçalves Pereira,
Sordaini Maria Caligiorni,
Brian Sabato,
Larissa Pires do Espírito Santo,
Karine Dias dos Reis,
Leonardo da Silva Neto,
Simone Odília Antunes Fernandes,
Valbert Nascimento Cardoso,
Maila Castro Lourenço das Neves,
Ângelo de Fátima,
Frederico Duarte Garcia,
Gisele Assis Castro Goulart
Affiliations
Bruna Rodrigues Dias Assis
Department of Pharmaceutics, UFMG, Brazil
Paulo Sérgio de Almeida Augusto
Department of Mental Health, UFMG, Brazil; Pós-graduação em Medicina Molecular, UFMG, Brazil
Raissa Lima Gonçalves Pereira
Department of Mental Health, UFMG, Brazil; Pós-graduação em Medicina Molecular, UFMG, Brazil
Sordaini Maria Caligiorni
Department of Mental Health, UFMG, Brazil
Brian Sabato
Department of Mental Health, UFMG, Brazil; Pós-graduação em Neurociências, UFM, Brazil
Larissa Pires do Espírito Santo
Department of Mental Health, UFMG, Brazil; Pós-graduação em Neurociências, UFM, Brazil
Karine Dias dos Reis
Department of Mental Health, UFMG, Brazil
Leonardo da Silva Neto
Instituto Federal Farroupilha, Alegrete, Brazil; Department of Chemistry, UFMG, Brazil
Simone Odília Antunes Fernandes
Department of Clinical & Toxicological Analysis, UFMG, Brazil
Valbert Nascimento Cardoso
Department of Clinical & Toxicological Analysis, UFMG, Brazil
Maila Castro Lourenço das Neves
Department of Mental Health, UFMG, Brazil; Pós-graduação em Neurociências, UFM, Brazil
Ângelo de Fátima
Department of Chemistry, UFMG, Brazil
Frederico Duarte Garcia
Department of Mental Health, UFMG, Brazil; Pós-graduação em Medicina Molecular, UFMG, Brazil
Gisele Assis Castro Goulart
Department of Pharmaceutics, UFMG, Brazil; Corresponding author. Faculty of Pharmacy, Department of Pharmaceutics, UFMG, Campus Pampulha, Av Antônio Carlos, 6627, CEP 31270, Belo Horizonte, MG, Brazil.
Anti-cocaine vaccines are a promising therapeutic strategy for treating cocaine use disorders. Here we hypothesize that nanoemulsions (NE) or suspensions (SS) loaded with the calix [4]arene-based immunogen UFMG-V4N2 can induce the production of anti-cocaine antibodies and decrease the passage of radiolabeled cocaine analog [99mTc]Trodat-1 through of the brain barrier. UFMG-V4N2 was characterized (solubility, morphology, DSC, XRD) and loaded into NEs and SSs using excipients approved for human use. Immunogenic efficacy was assessed by quantifying the titers and determining the specificity of anti-cocaine IgG antibodies, and by assessing the inhibition of [99mTc]Trodat-1 trafficking across the mice brain-barrier. UFMG-V4N2 is an amorphous, thermally stable molecule with very low hydrophilicity. The immunogenicity of NE or SS was similar, but aluminum phosphate and the lower dose of UFMG-V4N2 induced higher anti-cocaine IgG antibody titers, minimizing [99mTc]Trodat-1 uptake in the brain. Therefore, the UFMG-V4N2 may represent an alternative for the treatment of cocaine use disorder.
