Cognosetta, Inc receives funding from NIH to test a novel therapeutic for treating tinnitus (BMS-191011)

Cognosetta, Inc receives funding to test whether treatment with BMS-191011, a calcium-activated potassium (BK) channel opener, can reduce behavioral and neurophysiological manifestations of chronic tinnitus. The project started on December 15, 2019 and is expected to continue until June 30, 2020.

Project Description

Project Number: 1R43DC018487-01
Contact PI / Project Leader: SCOTT, LUISA L

Abstract Text:

Project Summary
Tinnitus or “ringing in the ears” is a hearing disorder that disproportionately impacts those who are or have served in the military. There is currently no effective cure for tinnitus. Patients with tinnitus exhibit broad changes in brain activity in the auditory system and elsewhere. One of the fundamental characteristics of tinnitus is a dysregulation in the excitatory/inhibitory balance in the central auditory system (CAS) leading to neuronal hyperexcitability and synchrony. The large conductance calcium-activated potassium (BK) channel is implicated in other neuronal excitability disorders like temporal lobe epilepsy, tonic-clonic seizures and alcohol withdrawal seizures. Gated by both voltage and intracellular calcium, and expressed throughout the peripheral and central auditory system, the BK channel is able to modulate auditory neuronal signaling across a wide variety of conditions. Recently, Lobarinas et al. found that two BK channel openers, Maxipost and its enantiomer, reduced behavioral evidence of salicylate-induced tinnitus in rats. Though Maxipost was originally developed as a BK channel opener, in fact it is a more potent KCNQ channel opener. Nonetheless, these findings provided the impetus for our preliminary studies showing that BMS-191011, a more specific BK channel opener, reduces behavioral manifestations of tinnitus in two mouse models. Consistent with a mechanistic aim of counteracting hyperactivity in the CAS, our preliminary data and other’s shows that BK channel openers reduce neuronal activity in the auditory midbrain. The overall aim of the proposed studies is to test whether treatment with a class of BK channel openers, exemplified by BMS-191011, can reduce behavioral and neurophysiological manifestations of chronic tinnitus. Behavioral assays will probe whether treatment with the BK channel opener modifies responses that can be linked to CAS function. Both invasive and non-invasive neurophysiological recordings in vivo will characterize treatment effects on neural correlates of tinnitus in the CAS to 1) provide cross-methodological confirmation for the behavioral effects, 2) facilitate preclinical target validation and engagement studies, and 3) allow translation to clinically-measurable markers of tinnitus. The studies will employ a mouse model of acoustic trauma-induced tinnitus that matches the etiology of a substantial portion of the patient population. The use of mice will enable a longitudinal study design in which treatment begins ~2-3 months after acoustic trauma. Many mammals preclude long duration studies or higher usage rates, but the CBA/CaJ mouse is both affordable and now considered a reliable model of tinnitus following noise trauma. Together, the proposed preclinical studies will explore whether administration of a class of BK channel openers exemplified by BMS-191011 is a valid strategy to counteract maladaptive CAS function underlying stable tinnitus. This therapeutic approach clinically would allow a lapse in time following noise trauma before treatment onset, in line with the practical needs of at-risk members of the Armed Forces who may develop tinnitus while deployed, and the many patients who already have acoustic trauma-related tinnitus.

Public Health Relevance Statement:

Project Narrative
Ion channels regulate neural processing; and, changes in ion channel function can underlie central nervous system disorders. tinnitus or “ringing in the ears”, which is characterized by hyperexcitability in the central auditory system, may be relieved by modulating the function of specific ion channels. This project will explore whether a specific class of potassium channel modulators can reduce the neural and behavioral manifestations of chronic tinnitus.

SOURCE: National Institutes of Health – NIH Research Portfolio Online Reporting Tool (RePORT)

Free email updates:

For the latest tinnitus treatment-related news and updates, sign up for the Tinnitus Treatment Report newsletter.
One email per week. No spam. (New issue to be sent very soon.)

Subscribe to Email Updates

This field is for validation purposes and should be left unchanged.

No spam, no third parties, and 100% free. Your information is kept private. Unsubscribe with one click anytime.