Ultrastructural changes of erythrocytes in whole blood after exposure to prospective in silico-designed anticancer agents: a qualitative case study

BACKGROUND: Novel, in silico-designed anticancer compounds were synthesized in our laboratory namely, 2-ethyl-3-O-sulphamoyl-estra-1,3,5(10),15-tetraen-17-ol (ESE-15-ol) and 2-ethyl-3-O-sulphamoyl-estra-1,3,5(10)16-tetraene (ESE-16). These compounds were designed to have improved bioavailability when compared to their source compound, 2-methoxyestradiol. This theoretically would be due to their increased binding affinity to carbonic anhydrase II, present in erythrocytes. Since the novel compounds under investigation are proposed to be transported within erythrocytes bound to carbonic anhydrase II, the morphological effect which they may exert on whole blood and erythrocytes is of great significance. A secondary outcome included revision of previously reported procedures for the handling of the whole blood sample. The purpose of this study was twofold. Firstly, the ultrastructural morphology of a healthy female's erythrocytes was examined via scanning electron microscopy (SEM) after exposure to the newly in silico-designed compounds. Morphology of erythrocytes following exposure to ESE-15-ol and ESE-16 for 3 minutes and 24 hours at 22°C were described with the use of SEM. The haemolytic activity of the compounds after 24 hours exposure were also determined with the ex vivo haemolysis assay. Secondly, storage conditions of the whole blood sample were investigated by determining morphological changes after a 24 hour storage period at 22°C and 37°C. RESULTS: No significant morphological changes were observed in the erythrocyte morphology after exposure to the novel anticancer compounds. Storage of the whole blood samples at 37°C for 24 hours resulted in visible morphological stress in the erythrocytes. Erythrocytes incubated at 22°C for 24 hours showed no structural deformity or distress. CONCLUSIONS: From this research the optimal temperature for ex vivo exposure of whole blood samples to ESE-15-ol and ESE-16 for 24 hours was determined to be 22°C. Data from this study revealed the potential of these compounds to be applied to ex vivo study techniques, since no damage occurred to erythrocytes ultrastructure under these conditions. As no structural changes were observed in erythrocytes exposed to ESE-15-ol and ESE-16, further ex vivo experiments will be conducted into the potential effects of these compounds on whole blood. Optimal incubation conditions up to 24 hours for whole blood were established as a secondary outcome.

Mecanismos de la secreción del humor acuoso y su modulación por drogas / Aqueous humor secretion mechanisms and it modulation by drugs

Recordemos que el epitelio ciliar consta de dos cepas de células, pigmentadas y no pigmentadas; nuestro concepto es que existe un Sincitium funcional (recordemos que el Sincitium se define como citoplasma con varios núcleos sin límites celulares definidos), esto se refiere a que la membrana basal lateral de las células pigmentadas tiene todos los transportadores que necesita para llevar hacia arriba el cloruro de sodio y luego en consecuencia el agua. Esta membrana tiene el importante intercambio de Na + - K + y obviamente tiene un canal de cloruro y también una etapa de salida de bicarbonato. Nosotros pensamos que esta etapa de salida también puede ser modulada por los inhibidores de la anhidrasa carbónica. Recientemente se mostró en imágenes de video que este concepto es verdadero en el epitelio completo donde ambas cepas de células están juntas; se demostró que los electrolitos son llevados hacia arriba, al interior de la célula, desde las pigmentadas hacia las no pigmentadas y en ellas a la etapa de salida. Por lo tanto hemos visto como el mecanismo del humor acuoso es muy complejo, su secreción comprende apareamiento de transportadores y canales entre células pigmentadas y no pigmentadas y las dos capas de células son funcionalmente una, un Sincitium. Es importante el flujo constante del humor acuoso a través de las cámaras del ojo para una función visual normal. Es necesario un globo ocular formado por una presión intraocular adecuada para mantener la eficacia óptica. Además, el humor acuoso aporta los sustratos necesarios para la función metabólica normal de los tejidos oculares avasculares a los cuales bañan particularmente cristalino, córnea y red trabecular; este flujo de humor acuoso se encarga además de remover los desperdicios metabólicos. Es también un medio para que el iris responda a la luz...