Downregulation of PIK3CA via antibody-esiRNA-complexes suppresses human xenograft tumor growth.

Precision cancer therapy requires on the one hand detailed knowledge about a tumor's driver oncogenes and on the other hand an effective targeted therapy that specifically inhibits these oncogenes. While the determination of genomic landscape of a tumor has reached a very precise level, the respective therapy options are scarce. The application of small inhibitory (si) RNAs is a promising field of investigation.

Antibody-coupled siRNA as an efficient method for in vivo mRNA knockdown.

Knockdown of genes by RNA interference (RNAi) in vitro requires methods of transfection or transduction, both of which have limited impact in vivo. As a virus-free approach, we chemically coupled cell surface receptors internalizing antibodies to the short interfering RNA (siRNA) carrier peptide protamine using the bispecific cross-linker sulfo-SMCC (sulfosuccinimidyl 4-(N-maleimidomethyl)cyclohexane-1-carboxylate). First, protamine was conjugated amino-terminally to sulfo-SMCC, and then this conjugate was coupled via cysteine residues to the IgG backbone to carry siRNA.

Antibody-mediated delivery of anti-KRAS-siRNA in vivo overcomes therapy resistance in colon cancer.

Purpose: KRAS mutations are frequent driver mutations in multiple cancers. KRAS mutations also induce anti-EGFR antibody resistance in adenocarcinoma such as colon cancer. The aim of this study was to overcome anti-EGFR antibody resistance by coupling the antibody to KRAS-specific siRNA.