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Silymarin-Albumin Nanoplex: Preparation and Its Potential Application As an Antioxidant in Nervous System in Vitro and in Vivo Publisher Pubmed



Sohrabi MJ1 ; Dehpour AR1 ; Attar F2 ; Hasan A3, 4 ; Mohammadsadeghi N5 ; Meratan AA5 ; Aziz FM6 ; Salihi A6, 7 ; Shekha MS6, 8 ; Akhtari K9 ; Shahpasand K10 ; Hojjati SMM11 ; Sharifi M12 ; Saboury AA13 Show All Authors
Authors
  1. Sohrabi MJ1
  2. Dehpour AR1
  3. Attar F2
  4. Hasan A3, 4
  5. Mohammadsadeghi N5
  6. Meratan AA5
  7. Aziz FM6
  8. Salihi A6, 7
  9. Shekha MS6, 8
  10. Akhtari K9
  11. Shahpasand K10
  12. Hojjati SMM11
  13. Sharifi M12
  14. Saboury AA13
  15. Rezayat SM1, 14
  16. Mousavi SE1
  17. Falahati M12

Source: International Journal of Pharmaceutics Published:2019


Abstract

In this study, we formulated silymarin-HSA nanoplex and assayed its ability to reduce LPS-induced toxicity in vitro and in vivo. Silymarin molecules were encapsulated into HSA nanoplex and the loading efficiency and characterization of fabricated nanoplex were performed by using HPLC, TEM, SEM, DLS, FTIR analysis, and theoretical studies. Afterwards, their protective effect against LPS (20 µg/ml) -induced toxicity in SH-SY5Y cells was investigated by MTT, ROS, and apoptosis assays. For in vivo experiments, rats were pre-treated with either silymarin or silymarin -HSA nanoplex (200 mg/kg) orally for 3 days and at third day received LPS by IP at a dose of 0.5 mg/kg, 150 min before scarification followed by SOD and CAT activity assay. The formulation of silymarin-HSA nanoplex showed a spherical shape with an average diameter between 50 nm and 150 nm, hydrodynamic radius of 188.3 nm, zeta potential of −26.6 mV, and a drug loading of 97.3%. In LPS-treated cells, pretreatments with silymarin-HSA noncomplex recovered the cell viability and decreased the ROS level and corresponding apoptosis more significantly than free silymarin. In rats, it was also depicted that, silymarin-HSA noncomplex can increase the SOD and CAT activity in brain tissue at LPS-triggered oxidative stress model more significantly than the free counterpart. Therefore, nanoformulation of silymarin improved its capability to reduce LPS-induced oxidative stress by restoring cell viability and elevation of SOD and CAT activity in vitro and in vivo, respectively. In conclusion, formulation of silymarin may hold a great promise in the development of antioxidant agents. © 2019 Elsevier B.V.
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