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The purpose of this study is to determine whether Tolcapone crosses from the blood stream into the fluid around the brain and stabilizes the protein that makes leptomeningeal amyloid. Tolcapone is a commercially available generic drug that treats Parkinson's disease.
The Investigator plans to evaluate Tolcapone as a treatment for ATTR (Transthyretin Amyloidosis), a rare genetic disease often causing death within 5-15 years after diagnosis. ATTR is characterized by deposition of misfolded protein known as amyloid, in one or more organ systems (including the peripheral and autonomic nervous systems, the heart, the brain and the eyes). The age at which symptoms begin to develop varies widely ranging between 20 to 70 years old. ATTR is progressive, and some variants can have a fatal outcome within a few years of presentation. Treatment options include supportive and symptomatic care that may slow or stop progressive decline in functional state but do not alter the pathological process. Liver transplant can be performed in selected patients but is limited by organ supply, requires lifelong immunosuppression, and may be complicated by progressive heart and nerve amyloid deposition. Importantly, liver transplant does not alter the natural course of central nervous system amyloid disease. To date, no treatment for ATTR penetrates the CNS.
At present there is no FDA approved treatment for ATTR amyloidosis in the US. In Europe, Tafamidis has been approved for treatment of stage 1 ATTR-polyneuropathy since 2012. Tafamidis and Tolcapone bind to the thyroxine binding site of TTR (with different drug-transthyretin interactions) and in so doing stabilizes the tetrameric form of TTR, preventing dissociation and amyloid fibril formation The preclinical and clinical data from a variety of experimental systems support the therapeutic activity of TOLCAPONE in TTR mediated disease.
Full description
This study is designed as a clinical proof-of-concept evaluating whether TOLCAPONE is capable of stabilizing tetrameric TTR (Transthyretin) in the plasma and CSF of symptomatic or asymptomatic patients with leptomeningeal ATTR. Additionally the study will determine the plasma and CSF concentrations of TOLCAPONE needed to induce maximal stabilization of TTR across different TTR variants (TTR mutations).
The study will be carried out in two different populations of subjects, defined by the TTR variant expressed:
TTR tetramers stability in plasma and CSF samples will be determined by urea-induced denaturation methodology.
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10 participants in 1 patient group
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Data sourced from clinicaltrials.gov
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