Quantitative and qualitative analysis of neuroinflammation by beta amyloid1-42 toxin after treatment with resveratrol-loaded nanoparticles / Análise quantitativa e qualitativa da neuroinflamação pela toxina beta amilóide1-42 após tratamento com nanopartículas de resveratrol

Background: This study evaluated the effects of zein nanoparticles with resveratrol on neuroinflammation caused by Alzheimer's disease. Method: The sample consisted of 30 animals divided into control (C), positive control (CP), white nanoparticles (NB), resveratrol nanoparticles (NR) and resveratrol (R) groups. The animals received 10 mg/kg of resveratrol or nanoparticles according to the group, daily, for 15 days, oral administration. Afterward, they were submitted to immunohistochemical (IHC) analyses. Results: the IHC showed that there was no change in the morphological brain composition in the NR and C groups. Conversely, in the CP, NB, and R groups, changes in the deposition of Anti Tau were observed. The NR group showed a normal projection of taurine in the axon, which was not presented in the same way in the other groups. The CD68 marker showed no microglial activation in the R and C groups. Quantitative analyses of Anti Beta-Amyloid in the NR group showed a statistical difference com-pared to the CP, NB, and R groups, whereas the Anti Tau analysis showed a significant difference between the CP and NR groups. The CD68 marker showed a significant difference between the C and NR groups. The analysis of cy-tokines showed a significant difference in TNF-α between the C and CP groups, C and NB groups, CP and NR groups, and NB and NR groups. IL-6 and InF-δ showed no significant difference between all groups. IL-10 showed significant differences between the C and NR groups, C and R groups, and CP and NR groups. Conclusion: NR prevented the evolution of neuroinflammation(AU).

Introdução: Este estudo avaliou os efeitos das nanopartículas de zeína com resveratrol na neuroinflamação causada pela doença de Alzheimer. Método: A amostra consistiu em 30 animais divididos em grupos de controle (C), controle positivo (CP), nanopartículas brancas (NB), nanopartículas de resveratrol (NR) e resveratrol (R). Os animais receberam 10 mg/kg de resveratrol ou nanopartículas de acordo com o grupo, diariamente, por 15 dias, por via oral. Em seguida, foram submetidos a análises imuno-histoquímicas (IHC). Resultados: A IHC mostrou que não houve alteração na composição morfológica do cérebro nos grupos NR e C. Por outro lado, nos grupos CP, NB e R, foram observadas alterações na deposição de Anti Tau. O grupo NR mostrou uma projeção normal de taurina no axônio, que não se apresentou da mesma forma nos outros grupos. O marcador CD68 não mostrou ativação microglial nos grupos R e C. As análises quantitativas do antibeta-amiloide no grupo NR mostraram uma diferença estatística quando comparadas aos grupos CP, NB e R, enquanto a análise do antitau mostrou uma diferença significativa entre os grupos CP e NR. O marcador CD68 mostrou uma diferença significativa entre os grupos C e NR. A análise das citocinas mostrou uma diferença significativa no TNF-α entre os grupos C e CP, C e NB, CP e NR, e NB e NR. IL-6 e InF-δ não apresentaram diferença significativa entre todos os grupos. A IL-10 apresentou diferenças significativas entre os grupos C e NR, C e R, e CP e NR. Conclusão: A NR impediu a evolução da neuroinflamação (AU).

Optimized Chitosan-Coated Gliadin Nanoparticles Improved the Hesperidin Cytotoxicity over Tumor Cells

Abstract Hesperidin is a natural compound which is found in citric fruits and presents antitumor and antimicrobial activities. However, the in vivo efficacy of Hesperidin is reduced due to its low oral bioavailability. Protein-based nanoparticles have been applied to improve biological parameters of drugs and natural compounds. Gliadin is a monomeric protein present in wheat. In this study, gliadin-based nanoparticles containing hesperidin were obtained by desolvation technique and a Taguchi orthogonal array design was employed to optimize the formulation. The independent variables were set as concentration of CaCl2 (0.5; 1 or 2%) and stabilizing agent (Pluronic F68, Tween 80 or sodium caseinate). The dependent variables consisted of mean diameter, polydispersity index, zeta potential, and encapsulation efficiency. The results showed significant effects on the dependent variables when 1% CaCl2 and Pluronic F68 were used. The optimized formulation was coated with chitosan to increase the physical stability of the nanoparticles. The final nanoparticles presented a mean diameter of 321 nm and polydispersity index of 0.217, and spherical shape. After coating, the Zeta potential was +21 mV, and the encapsulation efficiency was 73 %. The in vitro release assay showed that about 98% of the drug was released from the nanoparticles after 48 h. Moreover, the nanoparticles reduced hesperidin cytotoxicity on healthy cells (Vero cells) and improved the cytotoxicity on tumor cells (HeLa, PC-3 and Caco-2 cells). Results showed that the chitosan-coated gliadin nanoparticles are potential carriers for hesperidin delivery for cancer treatment.