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Thursday, May 13, 2010

mdRNA and RXi Coming Out with their RNAi Triggers (Part II)

In the second part of my review of mdRNA’s and RXi Pharmaceutical’s new trigger designs (part I: specificity of mdRNA's usiRNAs), I will try and somewhat de-mystify RXi’s ‘self-delivering rxRNAs’, the industry’s best-kept secret. First insights into the structure and chemistry of sd-rxRNAs were recently provided at the ARVO meeting in Florida and the publication of a related patent application (International Publication number WO 2010/033247 A2).

Shown above is a typical example of an sd-rxRNA. Sd-rxRNAs are based on a so-called ‘asymmetric siRNA’ structure in which the double-stranded region of the RNAi trigger is relatively small (less than 15bp) whereas the length of the guide strand is maintained around 19-23 nucleotides to maintain silencing efficacy. Although on average these RNAi trigger designs are significantly less potent than traditional Tuschl-type siRNAs, extensive screening in some cases allows for quite potent asymmetric siRNAs to be found with picomolar activities.

The double-stranded region is kept short because it is thought that structurally rigid double-stranded nucleic acids don’t wiggle well through the plasma membrane. Single-strand nucleic acids, however, as practiced in the antisense field can enter the cells more readily possibly because of the increased flexibility and an exposed nucleobase that is relatively less charged.Another benefit of keeping the dsRNA region below 15bp is that it avoids conflicting with competing IP estate such as Alnylam's Kreutzer-Limmer series, although in this case the scientific rationale, as just pointed out, should be strong enough to stand on its own feet. Having said that, I can remember conference presentations by a Korean group that reported on similar asymmetric siRNAs, and there was also a publication on 'asymmetric siRNAs' in Nature Biotech2 years ago, although in that case the dsRNA region was more centrally placed, whereas in the case of RXi’s sd-rxRNAs the shorter passenger strand base pairs with the 5’ end of the guide strand.

The guide strand carries a synthetic 5’ phosphate group. This is probably intended to address the less efficient phosphorylation of highly modified, conjugated siRNAs of unusual structure compared to traditional RNAi triggers that undergo rapid phosphorylation following introduction into the cell, a step that is necessary for activating the silencing potential of an siRNA.

In addition to asymmetric structure, there are a number of chemical bells and whistles that render the RNAi trigger more lipophilic (‘fat-loving’) and therefore membrane permeable. One important strategy here is to replace a number of the phophodiester bonds in the RNA backbone with phosphorothioate linkages, especially in the long 3’ overhang of the guide strand. Phosphorothioate backbones are well known in the oligonucleotide therapeutics field and e.g. widely applied to RNAseH-type antisense molecules and have the property of being 'sticky' and contributing to favorable pharmacologies. It is possible that these phosphorothioylated 3' overhangs may not only enhance the membrane permeability of the molecules, but harness specific oligonucleotide uptake receptors thought to play a role in RNaseH antisense delivery.

Based on my understanding of the effect of phosphorothioylation on RNAi performance, and also evident from a number of datasets in the patent application, such modifications should not be used too extensively as this often will compromise knockdown efficacy (best limited to the 3' overhang). Phosphorothioylation, like the extensive 2’-O-methyl and 2’-F modifications of the nucleotides, has the added benefit of stabilizing sd-rxRNAs which in many applications will be directly exposed to body fluids (note: such modifications may also be used to prevent innate immune stimulation and to enhance guide-strand specificity).

In addition to phosphorothioylation, the conjugation of a lipophilic group such as a cholesterol to the 3’ end of the passenger strand is intended to also enhance membrane permeability and cellular uptake. This, of course, is very similar to the cholesterol-conjugated siRNA delivery approach taken by Alnylam and first published 5 years ago (Soutschek et al., 2005). For the same reason, lipophilic groups may also be added to within the RNAi trigger structure itself.

The real question, of course, is how all this translates to silencing in vivo. Unfortunately, the presentations contained only very little in vivo efficacy data. The abundance of tissue culture experiments, however, indicate that compared to lipid-mediated transfection, much higher amounts of sd-rxRNAs are required to achieve similar silencing (50-1000 fold higher). There is, however, one dataset that shows that ~50mg/kg sd-rxRNAs can knock down a gene expressed in a mouse liver (compare this to the 1000-fold lower dosages required to the latest SNALP liposomes), but further improvements in potencies are required before sd-rxRNAs, without further formulation become therapeutically relevant.

Compared to the 2005 Nature study by Alnylam, I agree that sd-rxRNAs may be a little bit more potent on average. Consequently, the patent application is littered with references about the superiority of sd-rxRNA over Alnylam’s siRNA-cholesterol conjugate technology. This, however, is a little bit unfair in my opinion given that it appears to be Alnylam that was really the innovator in this field and that its conjugate technology should have progressed since the initial publication.

Maybe a little bit more surprising, or then again maybe not, were also regular references about the technical superiority compared to Dharmacon’s Accell self-delivering siRNAs. To be clear, references of technical superiority per se are nothing unusual in the patent literature. It becomes noticeable, however, when such references are quite frequent and apparently politically motivated. As discussed on this blog before, I have speculated that Accell is likely to use lipophilic chemistries, too, not least because there are patent applications by Dharmacon covering lipophilic siRNA conjugates. (e.g. WO/2008/036825). I don’t want to speculate any further here, but RXi Pharmaceutical would probably do well to take potential conflicts of interests serious and take the necessary steps to address them before yet another IP drama erupts.

In summary, sd-rxRNAs are an example of how one would aim to render siRNAs more membrane-permeable without sacrificing too much silencing efficacy. The concept and the means employed may not be that revolutionary, but credit has to be given for extensively testing which structures and chemistries could work. For now, sd-rxRNAs are probably most promising in direct RNAi applications such as for the skin (see recently announced TransDerm collaboration), eye, and lung (by inhalation) where the ability to administer large amounts of unformulated siRNAs to the target organ may outweigh the potency disadvantages compared to traditional siRNAs formulated in polyconjugate or nanoparticle formulations.

8 comments:

Anonymous said...

Hi Dirk,
sd-rxRNA's "configuration" was also presented at the TIDES meeting at the end of April.
Guy.

Anonymous said...

Not with as much detail as on your figure I think though. Guy.

Dirk Haussecker said...

Fair enough. I'm curious, but do you have some insights into the nature of Dharmacon's Accell siRNAs beyond what I could find?

Anonymous said...

What do you think of the recent Mass General Hospital study showing that miR-33a and -33b – microRNAs embedded in the genes of the SREBP family of cholesterol/lipid-regulators – work together with their host genes to control cellular cholesterol levels?

ranak said...

Hi Dirk,

I have been following your blog for 2 years now. Thanks for all your opinions and comments.

Have you looked into work by Divita. They use peptides to complex the siRNA. An interesting finding from their work is the non endosomal entry of siRNA into cells, thus avoiding potential for immune responses. http://nar.oxfordjournals.org/cgi/reprint/37/14/4559

-Ranak

Anonymous said...

Hi Dirk and all visitors to this terrific blog.I very recently found you by accident but I am now visiting regularly. I am never dissapointed with all the excellent information and insight I find here. I hold some shares in MDRNA and enjoyed your new "Triggers - Part II" post very much. Thank you for your excellent work. One question is "why did you not include MDRNA in your RNAi portfolio?" Warm regards from joe in NYC.

Dirk Haussecker said...

The miR-33-HDL link is intriguing indeed. I will cover it in one of my next blogs.

mdRNA in the RNAi portfolio: I had sold mdRNA on one of their news spikes and will review the portfolio from time to time. Before adding any mdRNA, however, I would further like to observe a 'cooling off period' at least after the closing of their merger with Cequent.

Anonymous said...

Hi Dirk,
About Dharmacon's... not that I know of. Guy.

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