A dose-finding study shows terazosin enhanced energy metabolism in neurologically healthy adults
- PMID: 40785306
- DOI: 10.1177/1877718X251356503
A dose-finding study shows terazosin enhanced energy metabolism in neurologically healthy adults
Abstract
BackgroundParkinson's disease (PD) is a common neurodegenerative disease lacking treatments that modify progressive neuron loss. Terazosin (TZ) increases activity of the glycolytic enzyme phosphoglycerate kinase 1 and could potentially benefit impaired brain bioenergetics in PD. Preclinical data are encouraging, but we lack human data on relationships between TZ dose and measures of TZ target engagement in women and men.ObjectiveThis study evaluated the dose-dependent effects of TZ on brain and systemic bioenergetics and safety and tolerability in neurologically healthy older adults.MethodsWe administered TZ (1, 5, and 10 mg/day) to 18 neurologically healthy 60-85-year-old people. We measured plasma and cerebrospinal fluid TZ concentrations and changes in levels of whole blood ATP, brain ATP with 31P magnetic resonance spectroscopy, cerebral metabolic activity with 18F-FDG PET imaging, and plasma metabolomics. We also assayed tolerability and safety.ResultsTZ crossed the blood-brain barrier, and 5 mg/day increased whole blood ATP and decreased brain 18F-FDG uptake. TZ 1 mg/day lacked significant effects, and 10 mg/day did not produce additional metabolic benefit compared to 5 mg/day. These effects were similar for both sexes. Mild dizziness occurred in 3 females and 1 male.ConclusionsThese findings in humans align with results from preclinical cell, animal, and epidemiological studies. Our data show that TZ increases markers of energy metabolism with a biphasic dose-response and suggest that 5 mg/day TZ may provide maximal benefit while minimizing adverse consequences of higher doses. These results lay groundwork for clinical trials in people with PD.
Keywords: Parkinson's disease; metabolism; neurodegeneration; terazosin.
Plain language summary
This research focused on how the medication terazosin (TZ), typically used for prostate issues and high blood pressure, affects energy levels in the brain and body of older adults who do not have neurological diseases. It is believed that TZ could help with energy problems in the brain that occur in Parkinson's disease because of its ability to activate a specific enzyme involved in energy production. In this study, 18 people aged between 60 and 85 received different doses of TZ (1 mg, 5 mg, and 10 mg per day). Measurements included how much TZ reached the brain and its effect on energy molecules like ATP, which powers our cells. Advanced imaging techniques were used to see how the brain's energy usage changed and how energy usage in the participants’ blood changed as an indication altered metabolism. The findings showed that a dose of 5 mg of TZ per day was most effective in increasing ATP levels without causing significant side effects. This dose also reduced energy usage in the brain, which might sound counterintuitive, but is consistent with increased energy efficiency. Higher doses did not show added benefits, and the effects were similar in both men and women. Understanding how TZ works at different doses helps lay the groundwork for future trials, potentially leading to new treatments for Parkinson's disease and similar conditions. This study is a step toward determining safe and effective TZ doses for possibly slowing down neurodegeneration due to energy deficits in the brain.
