Intracellular Controlled Release of Molecular Beacon Prolongs the Time Period of mRNA Visualization.

The objective of this study is to prepare cationized gelatin nanospheres incorporating molecular beacon (MB) (cGNSMB) and a cationized gelatin-molecular beacon complex, and evaluate the time period of messenger RNA (mRNA) visualization. The cGNS with different degradabilities were prepared to incorporate MB. There was no difference in the apparent size and zeta potential between the cGNSMB and the complex, while the MB release from the complex was faster than that from the cGNSMB. When mouse mesenchymal stem cells were incubated with the complex and cGNSMB, the amount of MB internalized into cells and cytotoxicity of complex were higher compared with cGNSMB. However, in the amount range of noncytotoxicity, the amount of MB internalized was at a similar level among them. The intracellular fluorescence of cGNSMB was observed over 14 days, whereas that of complex disappeared within 5 days. Moreover, the time period of cGNSMB remaining in the cells prolonged with the increase of glutaraldehyde amount used in cGNSMB preparation. As the result, it is likely that the intracellular fluorescence was retained at a high level for longer time periods. It is concluded that the intracellular controlled release of MB is promising, to achieve long-term and continuous visualization of mRNA. Impact Statement Molecular beacon (MB) is a versatile activatable imaging probe to detect messenger RNA (mRNA). Cationized gelatin nanospheres incorporating MB (cGNSMB) with different degradabilities and a cationized gelatin-MB complex were prepared. The intracellular fluorescence of cGNSMB was observed over 14 days, whereas that of complex disappeared within 5 days. This is because the intracellular decrease of cGNSMB was slower than that of complex. It is concluded that the intracellular controlled release of MB is promising, to achieve long-term and continuous visualization of mRNA.