Hep B Blog

Tag Archives: ISIS-GSK3RX

ISIS/GSK and Tekmira Come Out with HBV Knockdown Plans

Harnessing the Power of RNAi Gene Silencing in Quest of a Cure for Chronic Hepatitis B, and the HBV KnockDown blog written by Dirk Haussecker, who believes it’s about time everyone got serious about a functional cure for hepatitis B. 

If you did not appreciate the value the pharmaceutical industry has come to place on the HBsAg knockdown concept for achieving a functional cure for chronic Hepatitis B (HBV) infection, the last two days will have woken you up.

Yesterday, ISIS Pharmaceuticals reported that it had received a $7M milestone payment related to the development of an antiviral RNaseH development candidate (ISIS-GSK3Rx, aka ISIS-HBVRx) which, although undisclosed for competitive reasons, has got to be for HBV.  And today, Tekmira publicly announced that they will file an IND for an HBV-RNAi candidate in 2014 while hinting at the partnering potential of such a treatment candidate.

Arrowhead Research is thus not alone in their efforts any more.  Coincidentally, Arrowhead reported today the completion of their enrollment of the phase I single-dose, healthy volunteer study with ARC520, their DPC-delivered candidate for chronic HBV.  Accordingly, the dose escalation was able to run through all the pre-planned 6 dose cohorts up to the top dose of 2.0mg/kg.

Apparently, there were no signs of significant dose-related toxicities.  The only finding of concern among the 36 volunteers, 24 of which received drug, was 2 cases of lightheadedness of uncertain clinical relevance.  As these occurred at the highest dose, it seems that the company suspects that it could have been drug-related although the study remains blinded for follow-up.

A dose of 2mg/kg without any serious adverse events or dose-limiting toxicities is a great start for DPC delivery technology.  This is especially the case when one considers that the single-molecule subQ version of DPC that I hope will form the basis for the upcoming pipeline candidates, except for the next one perhaps, will be much more potent than the two-molecule version of intravenously delivered ARC520 based on the non-human primate data presented at last year’s OTS meeting.

With 2mg/kg of ARC520, I further believe that HBsAg knockdowns of over 90% are likely.  The biggest challenge going forward with this program will be setting a knockdown goal and getting the dose and dose frequency right.