Ionizable Drugs Enable Intracellular Delivery of Co-Formulated siRNA.
Kai V SlaughterEric N DondersMichael S JonesSami G SabbahMitchell J ElliottBrian K ShoichetDavid W CesconMolly S ShoichetPublished in: Advanced materials (Deerfield Beach, Fla.) (2024)
Targeting complementary pathways in diseases such as cancer can be achieved with co-delivery of small interfering ribonucleic acid (siRNA) and small molecule drugs; however, current formulation strategies are typically limited to one, but not both. Here, ionizable small molecule drugs and siRNA are co-formulated in drug-rich nanoparticles. Ionizable analogs of the selective estrogen receptor degrader fulvestrant self-assemble into colloidal drug aggregates and cause endosomal disruption, allowing co-delivery of siRNA against a non-druggable target. siRNA is encapsulated in lipid-stabilized, drug-rich colloidal nanoparticles where the ionizable lipid used in conventional lipid nanoparticles is replaced with an ionizable fulvestrant analog. The selection of an appropriate phospholipid and formulation buffer enables endocytosis and potent reporter gene knockdown in cancer cells. Importantly, siRNA targeting cyclin E1 is effectively delivered to drug-resistant breast cancer cells, demonstrating the utility of this approach. This strategy opens the possibility of using ionizable drugs to co-deliver RNA and ultimately improve therapeutic outcomes.
Keyphrases
- cancer therapy
- small molecule
- drug resistant
- drug delivery
- estrogen receptor
- drug induced
- fatty acid
- hyaluronic acid
- multidrug resistant
- breast cancer cells
- papillary thyroid
- gene expression
- protein protein
- dna methylation
- genome wide
- copy number
- metabolic syndrome
- crispr cas
- cystic fibrosis
- cell cycle
- skeletal muscle
- emergency department
- anti inflammatory
- cell proliferation
- metastatic breast cancer
- electronic health record
- molecular dynamics simulations