NU 2016-039
Inventors
Dane Chetkovich*
Ye Han
Short Description
Gene therapy for treating depression
Background
Major depressive disorder (MDD), also known as clinical depression, is a highly prevalent public health problem that affects approximately 3% of the world's population. Although there are many drugs available to treat these patients, nearly all of them target the same chemicals in the brain and have limited therapeutic efficacy.
Abstract
In order to better treat patients with MDD, Northwestern researchers have developed a gene therapy-based treatment for MDD that targets a distinct therapeutic mechanism. This therapy could be used to treat patients who are refractory to existing antidepressants or could be used in combination with pharmaceutical therapies. The researchers have developed two distinct gene therapies, each of which have demonstrated efficacious in mouse models for identifying antidepressants. The first therapy consists of over-expression of an auxiliary subunit of an ion channel in order to limit the trafficking of HCN channels. The second therapy over-expresses a gain-of-function mutant of an auxiliary subunit that promotes degradation of HCN channels and limits their trafficking. Both constructs promote an increase in antidepressant-like behavior and may have therapeutic benefit for patients suffering from MDD.
Applications
Advantages
Publications
Han Y, Heuermann R, Lyman K, Fisher D, Ismail Q and Chetkovich D (2016) HCN-channel dendritic targeting requires bipartite interaction with TRIP8b and regulates antidepressant-like behavioral effects. Molecular Psychiatry, doi: 10.1038/mp.2016.99.
IP Status
US Provisional Patent application has been filed.