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

Q3 Materials Science JCIS open Pub Date : 2023-04-01 DOI:10.1016/j.jciso.2023.100078

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

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引用次数: 1

Abstract

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.

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低剂量加载UFMG-V4N2免疫原的药物制剂可诱导抗可卡因抗体IgG的产生，并在临床前模型中提供脑保护证据

抗可卡因疫苗是治疗可卡因使用障碍的一种很有前途的治疗策略。在这里，我们假设负载杯[4]芳香免疫原UFMG-V4N2的纳米乳(NE)或悬浮液(SS)可以诱导抗可卡因抗体的产生，并减少放射性标记的可卡因类似物[99mTc]Trodat-1通过脑屏障。对UFMG-V4N2进行了表征(溶解度、形貌、DSC、XRD)，并使用人用辅料将其装载到NEs和ss中。通过定量测定抗可卡因IgG抗体的滴度和特异性，以及评估对[99mTc]Trodat-1穿越小鼠脑屏障的抑制作用，来评估免疫原性效果。UFMG-V4N2是一种无定形、热稳定的分子，亲水性很低。NE或SS的免疫原性相似，但磷酸铝和较低剂量的UFMG-V4N2诱导抗可卡因IgG抗体滴度升高，使脑内[99mTc]Trodat-1摄取最小化。因此，UFMG-V4N2可能是治疗可卡因使用障碍的另一种选择。

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