Organelle targeting using a fluorescent probe that selectively penetrates the zona pellucida

A variety of physicochemical properties, including the probe's hydrophobicity (contact angle and surface tension), surfactant activity, and charge, are critical factors for the drug's internalization of the oocyte after penetrated the ZP. After considering the characteristics of the fluorescent probe that is internalized in oocytes, targeting to specific organs within oocytes enhances treatment efficiency. The characteristics of oocytes, which are female germ cells, have not been studied using optical materials. The structural layers (zona pellucida, ZP) around oocytes make it difficult to deliver drugs aimed at treating infertility. Here, we investigated whether the fluorescent probes sulforhodamine, fluorescein 5(6)-isothiocyanate, tetramethylrhodamine isothiocyanate, cyanine 3 carboxylic acid, and cyanine 5 carboxylic acid penetrate oocytes. By targeting the ZP layer of the oocyte, the characteristics of the model drug, a fluorescent probe, were analyzed, and the position of the probe in the oocyte was confirmed for differences in the characteristics. Penetration of the ZP and delivery into the cytoplasm differed between the fluorescent probes. This was due to their different physiochemical properties, including hydrophobicity (contact angle and surface tension), surfactant activity, and electrical charge. Among the fluorescent probes delivered to cytoplasm, unlike TRITC, Cy3 and Cy5 perturbed oocyte development. These results suggest that in oocytes with high physical barriers (cell membrane, zona pellucida), the delivery efficiency can be estimated by considering the properties (molecular weight and structure, solubility and functional structure, etc.) of the drug. In addition, it suggests that an encapsulated or bound carrier of a drug with properties similar to that of a fluorescent probe can be efficiently delivered into oocytes.