INVESTIGADORES
GLISONI Romina Julieta
artículos
Título:
Self-aggregation behaviour of novel thiosemicarbazone drug candidates with potential antiviral activity
Autor/es:
GLISONI R.J.; CHIAPPETTA D.A.; FINKIELSZTEIN L.M.; MOGLIONI A.; SOSNIK A.
Revista:
NEW JOURNAL OF CHEMISTRY
Editorial:
ROYAL SOC CHEMISTRY
Referencias:
Año: 2010 vol. 34 p. 2047 - 2058
ISSN:
1144-0546
Resumen:
The present work aimed to gain further insight into the mechanisms governing the aggregation process of 1-indanone thiosemicarbazone drug candidates. Regardless of the relatively low lipophilicity predicted by theoretical calculations, these compounds were very insoluble in water. This performance was especially notorious for methoxylated (and non-N-allylated) derivatives. Thermal analysis revealed that the introduction of one and two CH3O? moieties into the aromatic ring increases the Tm pronouncedly from 185 °C to 229 °C and 258 °C, respectively. The formation of nano-aggregates in water was suggested by the appearance of a new strong absorption peak at 233?239 nm in the UV spectra. DLS analysis showed the early formation nanoscopic particles (120?300 nm) that undergo a gradual size growth to generate larger submicron structures; these particles remained invisible to the naked eye. The negatively-charged character of the surface was established by zeta potential measurements. These results suggest the generation of an inner hydrophobic ?core? due to the interaction of highly hydrophobic aromatic rings that is surface-decorated by C[double bond, length as m-dash]S groups available in a thiolato anionic form. This aggregation mechanism is supported by the fact that methoxylation of the aromatic ring dramatically strengthens the solute?solute affinity, as expressed by the sharp increase in Tm and makes these derivatives much more water-insoluble. Finally, overall findings indicate that for these compounds, solubility predictions based on lipophilicity calculations are not reliable and a more thorough characterization is required.