Abstract
Delivery of nucleic acids into animal tissues by electroporation is an appealing approach for various types of gene therapy, but efficiency of existing methodsis not satisfactory. Here we present the validation of novel electroporation patch (ep-Patch) for efficient delivery of DNA and siRNA into mouse tissues. Using micromachining technology, closely spaced gold electrodes were made on the pliable parylene substrate to form a patch-like electroporation metrics. It enabled large coverage of the target tissues and close surface contact between the tissues and electrodes, thus providing a uniform electric field to deliver nucleic acids into tissues, even beneath intact skin. Using this ep-Patch for efficiently delivery of both DNA and siRNA, non-invasive electroporation of healthy mouse muscle tissue was successfully achieved. Delivery of these nucleic acids was performed to intact tumors with satisfactory results. Silencing of tumor genes using the ep-Patch was also demonstrated on mice. This pliable electroporation patch method constitutes a novel way of in vivo delivery of siRNA and DNA to certain tissues or organs to circumvent the disadvantages of existing methodologies for in vivo delivery of nucleic acid molecules.
Highlights
A Pliable Electroporation Patch for Efficient Delivery of Nucleic Acid Molecules into Animal Tissues with Irregular Surface Shapes
Silencing of tumor genes using the ep-Patch was demonstrated on mice. This pliable electroporation patch method constitutes a novel way of in vivo delivery of small interfering RNA (siRNA) and DNA to certain tissues or organs to circumvent the disadvantages of existing methodologies for in vivo delivery of nucleic acid molecules
Dulbecco’s Modified Eagle’s Medium (DMEM), Opti-MEM, L15, fetal bovine serum (FBS), penicillin-streptomycin, and trypsin were purchased from several subsidiary companies of Life Technologies, Inc. (Carlsbad, CA, USA)
Summary
A Pliable Electroporation Patch (ep-Patch) for Efficient Delivery of Nucleic Acid Molecules into Animal Tissues with Irregular Surface Shapes. Closely spaced gold electrodes were made on the pliable parylene substrate to form a patch-like electroporation metrics It enabled large coverage of the target tissues and close surface contact between the tissues and electrodes, providing a uniform electric field to deliver nucleic acids into tissues, even beneath intact skin. Using this ep-Patch for efficiently delivery of both DNA and siRNA, non-invasive electroporation of healthy mouse muscle tissue was successfully achieved. Noninvasive delivery of nucleic acid molecules to tissue beneath the skin by electroporation has not been successfully explored
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