I am excited about another iteration of capablilities with our new:
Intra-i-Fect Tissue Specific siRNA Kits.

These kits are designed to deliver siRNA in vivo via intravenous injections with high efficiency to specific tissue in rats and mice. The protocol involves these simple steps: prep, mix, dry, hydrate and inject.

They are developed using a proprietary platform that uses nano-particles as the delivery vehicle. This platform enables:

• Effective delivery (60%+ knockdown) with no toxicity.
• Scalable to high throughput siRNA based gene screening.
• Consistent and reproducible results

It was further confirmed  in Studies conducted by Dr. Philippe Serrat and his team at University of Sherbrooke.

Louis Doré-Savard, Geneviève Roussy, Marc-André Dansereau, Michael A Collingwood, Kim A Lennox, Scott D Rose, Nicolas Beaudet, Mark A Behlke and Philippe Sarret. Central Delivery of Dicer-substrate siRNA: A Direct Application for Pain Research. Molecular Therapy (2008); Jul;16(7):1331-9. Epub 2008 Jun 3 doi:10.1038/mt.2008.98.

Using ultra low dose of DsiRNAs complexed with Neuromics’  i-Fect , they were able to successfully reduce NTS2 gene expression by up to 86% in rat lumbar Dorsal Root Ganglia after only two intrathecal injections. This was confirmed by Western Blot and qPCR analysis.

We now have further confirmation of the capabilities of this delivery platform in a just released publication by Dr. Jeffrey Mogil and team:

Michael L. LaCroix-Fralish, Gary Mo, Shad B. Smith, Susana G. Sotocinal, Jennifer Ritchie, Jean-Sebastien Austin, Kara Melmed, Ara Schorscher-Petcu, Audrey C. Laferriere, Tae Hoon Lee, Dmitry Romanovsky, Guochun Liao, Mark A. Behlke, David J. Clark, Gary Peltz, Philippe Séguéla, Maxim Dobretsov and Jeffrey S. Mogil. The β3 subunit of the Na+,K+-ATPase mediates variable nociceptive sensitivity in the formalin test. doi:10.1016/j.pain.2009.04.028.

IT Delivery of siRNA in vivo supplement

I am pleased to report the parade of success with use our i-FectTM in vivo grows. 

Here’s the most recent study:

Christian Ndong, Amynah Pradhan, Carole Puma, Jean-Pierre Morello, Cyrla Hoffert, Thierry Groblewski , Dajan O’Donnell, Jennifer M.A. Laird. Role of rat sensory neuron-specific receptor (rSNSR1) in inflammatory pain: Contribution of TRPV1 to SNSR signaling in the pain pathway. PAIN 143 (2009) 130–137.
…For experiments in which siRNA was delivered by bolus injections, 10 ul of siRNA or vehicle was injected directly into the intrathecal catheter once daily for 4 days. In this case, siRNAs were prepared immediately prior to administration by mixing the RNA solution (200 uM in annealing buffer) with the transfection reagent i-FectTM (Neuromics) at a ratio of 1:4 (w:v) for a final siRNA/ lipid complex concentration of 2 ug/10 ul…

Related Data:

Images: in vivo characterization of knockdown produced by rSNSR1 siRNA. (A) A dose-dependent decrease in rSNSR1 mRNA levels measured in lumbar L3/L4/L5 DRGs was
observed when rSNSR1 siRNA (n = 7–14/group) or MM siRNA (n = 6/group) was delivered by four daily bolus injections. *p < 0.05; **p < 0.01; ***p < 0.001 as determined by oneway analysis of variance followed by sequential testing. (B) rSNSR1 immunoreactivity in dorsal horn of the spinal cord was visibly reduced in rSNSR1 siRNA-treated animals (5 lg/day, left panel). Immunoreactivity with neuron-specific isolectin B4 (IB4; right panel) did not change between treatment groups, showing the integrity of each dorsal horn analyzed (n = 6/group). (C) A semi-quantitative score of rSNSR1 immunoreactivity showed that siRNA treatment greatly decreased rSNSR1 protein levels compared to MM and control groups. A blinded observer scored 9–12 individual sections taken from a 1 cm segment of the spinal cord.