Optimized effective charge density and size of polyglycerol amines leads to strong knockdown efficacy in vivo.

RNA interference (RNAi)-based therapy extends the range of "druggable" targets beyond existing pharmacological drugs and enables the development of new treatment strategies for various diseases. A prerequisite are non-viral polyvalent gene delivery vectors capable for safe and effective siRNA delivery to cells in vivo allowing a broad clinical application. We synthesized hyperbranched polyglycerol amines (hPG amines) which varied in their charge density, multiplicity (absolute frequency of amine groups) and core size to successfully develop potent and safe siRNA transfer vectors.

Antigen delivery to CD11c+CD8- dendritic cells induces protective immune responses against experimental melanoma in mice in vivo.

Dendritic cells (DCs) are central modulators of immune responses and, therefore, interesting target cells for the induction of antitumor immune responses. Ag delivery to select DC subpopulations via targeting Abs to DC inhibitory receptor 2 (DCIR2, clone 33D1) or to DEC205 was shown to direct Ags specifically to CD11c(+)CD8(-) or CD11c(+)CD8(+) DCs, respectively, in vivo. In contrast to the increasing knowledge about the induction of immune responses by efficiently cross-presenting CD11c(+)CD8(+) DCs, little is known about the functional role of Ag-presenting CD11c(+)CD8(-) DCs with regard to the initiation of protective immune responses.

Polyglycerol-based amphiphilic dendrons as potential siRNA carriers for in vivo applications.

The development of nonviral synthetic vectors for clinical application of gene therapy using siRNA transfection technology is of particular importance for treatment of human diseases, which is yet an unsolved challenge. By employing a rational design approach, we have synthesized a set of well-defined, low-molecular-weight dendritic polyglycerol-based amphiphiles, which are decorated peripherally with the DAPMA (N,N-di-(3-aminopropyl)-N-(methyl)amine) moiety. The main differences that were introduced in the structural motif relate to dendron generation and the type of linker between the hydrophilic and hydrophobic segment.

Glycine-terminated dendritic amphiphiles for nonviral gene delivery.

Development of nonviral vectors for the successful application of gene therapy through siRNA/DNA transfection of cells is still a great challenge in current research. (1, 2) In the present study, we have developed multivalent polyglycerol dendron based amphiphiles with well-defined molecular structures that express controlled glycine arrays on their surfaces. The structure-activity relationships with respect to the siRNA complexation, toxicity, and transfection profiles were studied with synthesized amphiphilic polycations.