A thermostable messenger RNA based vaccine against rabies.

Although effective rabies virus vaccines have been existing for decades, each year, rabies virus infections still cause around 50.000 fatalities worldwide. Most of these cases occur in developing countries, where these vaccines are not available. The reasons for this are the prohibitive high costs of cell culture or egg grown rabies virus vaccines and the lack of a functional cold chain in many regions in which rabies virus is endemic. Here, we describe the excellent temperature resistance of a non-replicating mRNA based rabies virus vaccine encoding the rabies virus glycoprotein (RABV-G). Prolonged storage of the vaccine from -80°C to up to +70°C for several months did not impact the protective capacity of the mRNA vaccine. Efficacy after storage was demonstrated by the induction of rabies specific virus neutralizing antibodies and protection in mice against lethal rabies infection. Moreover, storing the vaccine at oscillating temperatures between +4° and +56°C for 20 cycles in order to simulate interruptions of the cold chain during vaccine transport, did not affect the vaccine's immunogenicity and protective characteristics, indicating that maintenance of a cold chain is not essential for this vaccine.

Co-transfection of messenger RNA and siRNA as a method to study the efficiency of siRNA.

The definition of an optimal siRNA results from the in vitro testing of several siRNA designed to specifically target a gene. Usually, such in vitro tests consist in the transfection of the several siRNA duplexes in a cell expressing stably the gene of interest. When a siRNA specific for a mRNA coding toxic proteins (certain transcription factors, transporters, toxins, cell cycle controlling proteins, etc.) must be tested, the generation of a target cell is difficult. Here we report a quick method to test the efficiency of a siRNA through its co-transfection with the targeted mRNA. This technique can be used as a fast method to test siRNA even when they target genes that cannot be stably expressed in the cells of interest.