Optimization of In Vivo Electroporation Conditions and Delivery of DNA Vaccine Encoding SARS-CoV-2 RBD Using the Determined Protocol.
Denis Nikolaevich KisakovLyubov Alexandrovna KisakovaMaria Borisovna BorgoyakovaEkaterina Vladimirovna StarostinaOleg Svyatoslavovich TaranovElena Konstantinovna IvlevaOleg Viktorovich PyankovAnna Vladimirovna ZaykovskayaDmitry Nikolaevich ShcherbakovAndrey Pavlovich RudometovNadezda Borisovna RudometovaNatalia Vyacheslavovna VolkovaVadim Nikolaevich GureevAlexander Alexeyevich IlyichevLarisa Ivanovna KarpenkoPublished in: Pharmaceutics (2022)
Vaccination against SARS-CoV-2 and other viral infections requires safe, effective, and inexpensive vaccines that can be rapidly developed. DNA vaccines are candidates that meet these criteria, but one of their drawbacks is their relatively weak immunogenicity. Electroporation (EP) is an effective way to enhance the immunogenicity of DNA vaccines, but because of the different configurations of the devices that are used for EP, it is necessary to carefully select the conditions of the procedure, including characteristics such as voltage, current strength, number of pulses, etc. In this study, we determined the optimal parameters for delivery DNA vaccine by electroporation using the BEX CO device. BALB/c mice were used as a model. Plasmid DNA phMGFP was intramuscular (I/M) injected into the quadriceps muscle of the left hind leg of animals using insulin syringes, followed by EP. As a result of the experiments, the following EP parameters were determined: direct and reverse polarity rectangular DC current in three pulses, 12 V voltage for 30 ms and 950 ms intervals, with a current limit of 45 mA. The selected protocol induced a low level of injury and provided a high level of GFP expression. The chosen protocol was used to evaluate the immunogenicity of the DNA vaccine encoding the receptor-binding domain (RBD) of the SARS-CoV-2 protein (pVAXrbd) injected by EP. It was shown that the delivery of pVAXrbd via EP significantly enhanced both specific humoral and cellular immune responses compared to the intramuscular injection of the DNA vaccine.
Keyphrases
- sars cov
- circulating tumor
- cell free
- single molecule
- immune response
- randomized controlled trial
- nucleic acid
- mass spectrometry
- respiratory syndrome coronavirus
- escherichia coli
- multiple sclerosis
- dendritic cells
- minimally invasive
- ms ms
- crispr cas
- adipose tissue
- circulating tumor cells
- toll like receptor
- long non coding rna
- small molecule
- glycemic control
- high fat diet induced
- drug induced