Volker Baumann scite author profile

Therapeutic gene silencing promises significant progress in pharmacotherapy, including considerable expansion of the druggable target space and the possibility for treating orphan diseases. Technological hurdles have complicated the efficient use of therapeutic oligonucleotides, and siRNA agents suffer particularly from insufficient pharmacokinetic properties and poor cellular uptake. Intense development and evolution of delivery systems have resulted in efficient uptake predominantly in liver tissue, in which practically all nanoparticulate and liposomal delivery systems show the highest accumulation. The most efficacious strategies include liposomes and bioconjugations with N-acetylgalactosamine. Both are in early clinical evaluation stages for treatment of liver-associated diseases. Approaches for achieving knockdown in other tissues and tumors have been proven to be more complicated. Selective targeting to tumors may be enabled through careful modulation of physical properties, such as particle size, or by taking advantage of specific targeting ligands. Significant barriers stand between sufficient accumulation in other organs, including endothelial barriers, cellular membranes, and the endosome. The brain, which is shielded by the blood-brain barrier, is of particular interest to facilitate efficient oligonucleotide therapy of neurological diseases. Transcytosis of the blood-brain barrier through receptor-specific docking is investigated to increase accumulation in the central nervous system. In this review, the current clinical status of siRNA therapeutics is summarized, as well as innovative and promising preclinical concepts employing tissue- and tumor-targeted ligands. The requirements and the respective advantages and drawbacks of bioconjugates and ligand-decorated lipid or polymeric particles are discussed.

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Mirna-Based Therapies: Strategies and Delivery Platforms for Oligonucleotide and Non-Oligonucleotide Agents

Baumann

2014

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The discovery of miRNAs as important regulatory agents for gene expression has expanded the therapeutic opportunities for oligonucleotides. In contrast to siRNA, miRNA-targeted therapy is able to influence not only a single gene, but entire cellular pathways or processes. It is possible to supplement downregulated or non-functional miRNAs by synthetic oligonucleotides, as well as alleviating effects caused by overexpression of malignant miRNAs through artificial antagonists, either oligonucleotides or small molecules. Chemical oligonucleotide modifications together with an efficient delivery system seem to be mandatory for successful therapeutic application. While miRNA-based therapy benefits from the decades of research spent on other therapeutic oligonucleotides, there are some specific challenges associated with miRNA therapy, mainly caused by the short target sequence. The current status and recent progress of miRNA-targeted therapeutics is described and future challenges and potential applications in treatment of cancer and viral infections are discussed.

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Chemically defined polyethylene glycol siRNA conjugates with enhanced gene silencing effect

Gaziova

Baumann

Winkler

et al. 2014

Bioorganic & Medicinal Chemistry

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RNAi-Mediated Knockdown of Protein Expression

Baumann

Lorenzer

Thell

et al. 2017

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RNA interference is an essential method for studying genomic functions of single genes by loss-of-function experiments. Short interfering siRNAs are efficiently transfected into cultured cells to enable RISC-mediated mRNA cleavage and inhibition of translation in a sequence-specific manner. RNAi enables knockdown of single genes and screening for specific cellular processes or outcomes. In this chapter, we describe a detailed universal protocol for lipoplex-mediated siRNA transfection for cell cultures and cell lysis for subsequent RNA or protein analysis. The experimental procedure is described for verification of knockdown and includes cell lysis for mRNA or protein quantification. Important aspects for specific gene silencing and potential pitfalls are discussed.

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Critical evaluation of quantification methods for oligonucleotides formulated in lipid nanoparticles

Blenke

Evers

Baumann

et al. 2018

International Journal of Pharmaceutics

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Volker Baumann

Going beyond the liver: Progress and challenges of targeted delivery of siRNA therapeutics

Mirna-Based Therapies: Strategies and Delivery Platforms for Oligonucleotide and Non-Oligonucleotide Agents

Chemically defined polyethylene glycol siRNA conjugates with enhanced gene silencing effect

RNAi-Mediated Knockdown of Protein Expression

Critical evaluation of quantification methods for oligonucleotides formulated in lipid nanoparticles

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