Roche and Isis Pharmaceuticals Form Alliance for Huntington's Disease
News Apr 10, 2013
In addition, Isis and Roche will be collaborating to combine Isis' ASOs and Roche's proprietary "brain shuttle" program with the objective of increasing the brain penetration of ASOs with systemic administration.
Huntington's disease is an inherited genetic brain disorder that results in the progressive loss of both mental faculties and physical control. Symptoms usually appear between the ages of 30 to 50, and worsen over a 10 to 25 year period. Ultimately, the weakened individual succumbs to pneumonia, heart failure or other complications. Presently, there is no effective treatment or cure for the disease, and current treatments focus on reducing the severity of some disease symptoms.
Initially, research will focus on Isis' lead drug candidate that blocks production of all forms of the huntingtin (HTT) protein, the protein responsible for HD and thus has the potential to treat all HD patients. Isis is also conducting research into treatments that specifically block production of the disease-causing forms of the HTT protein which has the potential to treat subsets of HD patients. In parallel, Roche will combine its proprietary brain shuttle technology with Isis ASO technology that, if successful, will also allow systemic administration of antisense drugs to treat asymptomatic patients.
Under the terms of the agreement, Roche will make an upfront payment of $30 million to Isis, with total payments related to license fee and pre- and post-licensing milestone payments reaching potentially $362 million, including up to $80 million in potential commercial milestone payments. In addition, Isis will receive tiered royalties on sales of the drugs. Roche has the option to license the drugs from Isis through the completion of the first Phase 1 trial. Prior to option exercise, Isis is responsible for the discovery and development of an antisense drug targeting HTT protein. Roche and Isis will work collaboratively on the discovery of an antisense drug utilizing Roche's "brain shuttle" program. If Roche exercises its option, it will be responsible for global development, regulatory and commercialization activities for all drugs arising out of the collaboration.
Commenting on the deal, Luca Santarelli, Head of Neuroscience and Small Molecules Research at Roche, said: "Huntington's is a severely debilitating neurodegenerative disease and a large unmet medical need. Patients experience gradually worsening motor function and psychological disturbances, with a significant shortening of life expectancy after the disease is diagnosed. Treatments are urgently needed, and we believe that the Isis approach in combination with Roche's brain shuttle represent one of the most advanced programs targeting the cause of HD with the aim of slowing down or halting the progression of this disease."
Shafique Virani, Global Head Neuroscience, Cardiovascular & Metabolism at Roche Partnering, added: "Central to the partnership is Roche's brain shuttle program, which we see as highly complementary to Isis' drug development work. This dual track development program ensures whichever candidate compound proves to be most promising -- Isis' lead target or Roche's brain shuttle version -- can be taken forward to pivotal clinical trials."
"We are pleased to be working with Roche, a global leader in drug development with significant experience in developing and commercializing drugs to treat neurological diseases. We believe that Roche's expertise in developing CNS drugs, along with their clinical development experience, will greatly enhance our development efforts for this program and allow us to move forward more rapidly. In addition, by utilizing Roche's brain shuttle technology with our antisense drug discovery capabilities, we have the potential to significantly improve the therapeutic potential for this program," said B. Lynne Parshall, Chief Operating Officer of Isis. "By partnering our more complex and nuanced research and development programs earlier in development, like our Huntington's disease CNS program, we add value and resources with partners that bring unique benefits."
"We are excited to be working with Roche," said Frank Bennett, Senior Vice President of Research at Isis. "We believe our mature antisense drug discovery platform is a perfect fit for Roche's neuroscience franchise, and we anticipate a fruitful collaboration to advance our pre-clinical compounds."
CHDI Foundation, a non-profit foundation exclusively dedicated to the development of therapies that slow the progression of HD, provided financial and scientific support to Isis' HD drug discovery program through a development collaboration with Isis. CHDI's support has enabled Isis to make significant progress in discovering a drug to treat HD. Together Isis and CHDI demonstrated that antisense compounds can be used to inhibit the production of HTT protein in both brain and peripheral tissues, and that the inhibition of normal HTT protein was well tolerated. Over time, CHDI will be reimbursed for its support of Isis' program out of the milestone payments received by Isis. CHDI will receive $1.5 million associated with the signing of the Roche agreement. CHDI will continue to provide advice to Isis and Roche on the development of antisense drugs to treat patients with HD.
Isis also recognizes the tremendous benefit provided to its HD program by its academic collaborators, Drs. Don Cleveland at the Ludwig Institute, University of California San Diego and David Corey at University of Texas Southwestern. These collaborators have been instrumental in Isis' early preclinical work demonstrating that antisense drugs can inhibit the HTT protein and produce activity in animal models of disease.
Researchers Uncover Muscle Growth Inhibitor Activation Mechanism Aiding ALS Treatment EffortsNews
Researchers at the University of Cincinnati (UC) College of Medicine are part of an international team that has identified how the inactive or latent form of GDF8, a signaling protein also known as myostatin responsible for limiting muscle, is activated.READ MORE
New Research Could Significantly Accelerate Drug DiscoveryNews
Scientists have developed a suite of computer programs that cull through data on structure and genomic sequencing to identify the features that distinguish one enzyme from similar enzymes. This research has the potential to significantly accelerate drug discovery, allowing scientists to develop more effective drugs, more quickly.READ MORE