Animals were immunized with transmissible gastroenteritis virus conjugated with gold nanoparticles. The resultant antibodies had a higher titer than antibodies produced in response to native virus. Immunization with the antigen-colloidal gold complex led to a significant increase of the peritoneal macrophages respiratory activity and of plasma IFN-γ level in immunized animals.
Silymarin (Sil) was conjugated to selenium nanoparticles (SeNPs) to increase Sil bioavailability. The conjugates were monodisperse; the average diameter of the native SeNPs was ~ 20-50 ± 1.5 nm, whereas that of the conjugates was 30-50 ± 0.5 nm. The use of SeNPs to increase the bioavailability of Syl was examined with the MH-22a, EPNT-5, HeLa, Hep-2, and SPEV-2 cell lines. The EPNT-5 (glioblastoma) cells were the most sensitive to the conjugates compared to the conjugate-free control. The conjugates increased the activity of cellular dehydrogenases and promoted the penetration of Sil into the intracellular space. Possibly, SeNPs play the main part in Sil penetration of cells and Sil penetration is not associated with phagocytosis. Thus, SeNPs are promising for use as a Sil carrier and as protective antigens.
Background:
The liver disease problem prompts investigators to search for new methods of liver treatment.
Introduction:
Silymarin (Sil) protects the liver by reducing the concentration of free radicals and the extent of damage to
the cell membranes. A particularly interesting method to increase the bioavailability of Sil is to use synthesized gold
nanoparticles (AuNPs) as reagents. The study considered whether it was possible to use the silymarin-AuNP conjugate as a
potential liver-protecting drug.
Method:
AuNPs were conjugated to Sil and examine the liver-protecting activity of the conjugate. Experimental hepatitis
and hepatocyte cytolysis after carbon tetrachloride actionwere used as a model system, and the experiments were conducted
on laboratory animals.
Result:
For the first time, silymarin was conjugated to colloidal gold nanoparticles (AuNPs). Electron microscopy showed
that the resultant preparations were monodisperse and that the mean conjugate diameter was 18–30 nm ± 0.5 nm (mean
diameter of the native nanoparticles, 15 ± 0.5 nm). In experimental hepatitis in mice, conjugate administration interfered
with glutathione depletion in hepatocytes in response to carbon tetrachloride was conducive to an increase in energy
metabolism, and stimulated the monocyte–macrophage function of the liver. The results were confirmed by the high
respiratory activity of the hepatocytes in cell culture.
Conclusion:
We conclude that the silymarin-AuNP conjugate holds promise as a liver-protecting agent in acute liver disease
caused by carbon tetrachloride poisoning.
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