RNAi In Vivo: Biodistribution

Biodistribution

Introduction of synthetic siRNA via transfection exhibits a transient alteration in gene expression for a specific gene of interest.  By synthesizing a siRNA mimic to each gene, RNAi may be utilized in a systematic approach to silence every gene in a cell, one gene at a time.  For this reason, large scale screens can aid in mechanism of action determination, pathway analysis, anti-proliferation studies, etc. by exploitation of the RNAi pathway.  Highly efficient animal siRNA delivery kits are typically nanoparticle– and liposome-based siRNA in vivo Transfection Reagents.

In a typical animal study, post-treatment tissue samples are collected from the animal for RNA isolation and gene quantitation (e.g. qRT-PCR or western blot).  Resection of multiple tissues enables the researcher to grasp a view of the efficacy and global biodistribution of their therapeutic compound.   qRT-PCR assays designed to detect the delivered siRNA or miRNA show delivery of the active pharmaceutical ingredient (API) to tissues throughout the body of the animal.  However, keep in mind that delivery to a tissue does not necessarily mean the delivered cargo is active; therefore, changes in target gene expression should be monitored as well.

Biomarker discovery is the use of protein, mRNA or miRNA samples to determine differential expression of disease versus normal cells, or perhaps a treated versus non-treated sample.  With the advent of high throughput sequencing and other quantitative tools, pharmaceutical companies are using these new technologies to find new druggable targets, as well as determining ways to increase efficacy of current and orphan drugs.  The discovery of biomarkers is another service laboratories are offering assistance with.

Available CRO pre-clinical research services include IC50 determination, toxicity testing, cell line derived xenograft animal studies (CDX mouse models), RNAi services, siRNA and protein liposome encapsulation, in vivo siRNA delivery and tissue-targeting, generation of stable cell lines in 28 days, inducible RNAi cell line development, cell banking and cryopreservation and biodistribution research studies in a GLP-compliant lab.