ABSTRACT
The oral route is the best way to administer a drug; however, fitting peptide drugs in this route is a major challenge. In insulin cases, less than 0.5% of the administered dose achieves systemic circulation. Oral delivery by nanoparticles can increase insulin permeability across the intestinal epithelium while maintaining its structure and activity until release in the gut. This system can be improved to increase permeability across intestinal cells through active delivery. This study aimed to improve a nanoparticle formulation by promoting functionalization of its surface with immunoglobulin G to increase its absorption by intestinal epithelium. The characterization of formulations showed an adequate size and a good entrapment efficiency. Functionalized nanoparticles led to a desirable increase in insulin release time. Differential scanning calorimetry, infrared spectroscopy and paper chromatography proved the interactions of nanoparticle components. With immunoglobulin G, the nanoparticle size was slightly increased, which did not show aggregate formation. The developed functionalized nanoparticle formulation proved to be adequate to carry insulin and potentially increase its internalization by epithelial gut cells, being a promising alternative to the existing formulations for orally administered low-absorption peptides.
Subject(s)
Insulin , Nanoparticles , Administration, Oral , Drug Carriers/chemistry , Immunoglobulin G , Nanoparticles/chemistry , Pharmaceutical Preparations , Polymers/chemistryABSTRACT
Estima-se que aproximadamente 25% das drogas prescritas em todo o mundo são oriundas de espécies vegetais. Dentre as plantas com alto potencial medicinal, se destaca o Hypericum perforatum L. (HP), planta herbácea perene, pertencente à família Hypericaceae. Extratos orgânicos e aquosos de HP têm sido utilizados na medicina popular e em testes pré-clínicos para o tratamento e prevenção de diversas doenças através de efeitos nefroprotetores, atividades antioxidante, antifúngica, ansiolítica, antiviral e cicatrizante. Estudos clínicos indicaram que esta espécie pode ser útil no tratamento de desordens originadas do sistema nervoso central, especialmente na depressão unipolar. HP contém, ao menos, dez classes de compostos biologicamente ativos, dentre eles antraquinonas/naftodiantronas, derivados de floroglucinol, flavonoides, biflavonas, xantonas, óleos voláteis, aminoácidos, vitamina C, cumarinas, taninos e carotenoides. Ao mesmo tempo em que os constituintes possuem relevantes efeitos farmacológicos, os mesmos podem prejudicar, por antagonismo farmacocinético (interação com algumas enzimas do citocromo), a eficácia de outros fármacos. Devido a relevante importância do HP como agente terapêutico, ressalta-se a importância do desenvolvimento de novos estudos com o intuito de elucidar questões ainda controversas acerca do extrato de HP, e.g., dose, melhor horário para colheita, padronização dos extratos, e possíveis efeitos tóxicos, podendo assim, definir claramente os riscos e benefícios da utilização desta planta.
It is estimated that approximately 25% of prescribed drugs are derived from plant species. Among the plants with high medicinal potential, it highlights the Hypericum perforatum L. (HP), perennial herbaceous plant belonging to the family Hypericaceae. Organic and aqueous extracts of HP have been used in folk medicine and in pre-clinical testing for the treatment and prevention of several diseases through effects nefroprotetores, antioxidant, antifungal, anxiolytic, wound healing and antiviral activities. Clinical studies indicated that this specie can be useful in the treatment of central nervous system disorders, especially to unipolar depression. HP contains at least ten classes of biologically active compounds, including anthraquinones/naftodiantronas, phloroglucinol derivatives, flavonoids, biflavones, xanthones, volatile oils, amino acids, vitamin C, coumarins, carotenoids and tannins. At the same time that the secondary metabolites have important pharmacological effects, they can impair the effectiveness of other drugs by pharmacokinetic antagonism.
