Phenserine on the Alzheimer's Treatment Horizon, Study 1 (PATH-1)

Participants will be randomized into two groups: one group will receive phenserine, and the other will receive donepezil. The phenserine group will begin with a dosage of 5 mg twice daily, with the dose being gradually increased every two weeks as tolerated with a maximum dose of 10 mg three times daily. The donepezil group will start at 5 mg once daily, with the possibility of escalation to 10 mg once daily at Week 4.

The study is designed to last 8 weeks, with a planned total enrollment of 16 individuals from various centers across Norway. Participants will return for follow-up visits every two weeks, during which pharmacodynamic, pharmacokinetic, and safety assessments will be conducted. The final safety follow-up will occur after the completion of dosing for those who complete the study. Early termination visits will include a comprehensive safety follow-up for those who discontinue the study prematurely.

The primary objective of this study is to assess the effects of phenserine compared to donepezil on exosome biomarkers of cell death in individuals with early or mild AD. Additionally, the study aims to evaluate the safety and tolerability profile of phenserine at ascending doses up to 10 mg three times daily (QDS) in comparison to donepezil at doses up to 10 mg once daily (OD). Furthermore, the study aims to analyze steady-state blood levels of phenserine to characterize and compare dose-response relationships for pharmacodynamic outcomes and key safety assessments. Finally, the study will explore changes in specific biomarkers of Alzheimer's Disease (AD) in cerebrospinal fluid (CSF) and blood plasma, as well as assess phenserine's potential short-term effects on cognition using the FLAME Memory Composite and other cognitive sub-tests.

Participants will be enrolled at six centers across Norway. The study will also be supported by the PROTECT platform, which allows for the recruitment of individuals over 50 years of age who have demonstrated cognitive decline, making them suitable candidates for this study.

The anticipated duration of participation for each patient is 8 weeks, with the overall study expected to be completed within 9 months, accounting for a 6-month enrollment period followed by the treatment phase.

Study Population and Statistical Methods

A total of 16 participants are expected to be enrolled in this dose-ranging study. The primary population for analysis will be a modified intent-to-treat group, including all participants who received at least one dose of study medication and provided at least one follow-up exosome sample.

This study will provide critical data on the pharmacodynamic and pharmacokinetic profiles of phenserine, which will guide future research and potential therapeutic strategies for early to mild AD.

Background

In 2018, and in parallel with the conduct of the ELAD study that evaluated liraglutide (an established medication for Type 2 diabetes) for its neuroprotective effects in people with mild to moderate AD, we initiated a new selection process to identify additional drug candidates for re-purposing in AD, MCI and other forms of dementia. Drug repurposing, defined as "the application of established drug compounds to new therapeutic indications," offers a route to drug development that is accessible to academic institutions, government and research council programs, and charities and not-for-profit organizations, complementing the work of pharmaceutical and biotechnology companies. Repurposing an existing drug offers an attractive way of enhancing traditional drug development and accelerating new treatments for people with AD dementia and MCI into the clinic.

The international expert panel that participated in the 2018 assessment applied the same approach as in the earlier 2012 selection process. A total of five compounds or classes of compounds were nominated for further consideration by the panel. These compounds were ACE inhibitors, antiviral drugs, disease-modifying antirheumatic drugs (DMARDs), fasudil and phenserine. Following several rounds of prioritization, the panel came to a clear consensus that the three highest priority candidates for repurposing in AD, MCI and other dementias were phenserine, fasudil, and antiviral drugs. This protocol is designed to assess the safety and tolerability of phenserine compared to donepezil across a range of doses administered over a 8-week dosing period in participants with early or mild AD. The pharmacodynamic and pharmacokinetic activity of the two drugs will also be evaluated to determine dose-response relationships to identify an appropriate dose range for a subsequent Phase 2 study of phenserine.

Phenserine was initially developed as an acetylcholinesterase inhibitor (AChEI) , but there are several mechanisms by which phenserine may act on neuronal and synaptic loss , a key common pathway evident in AD. A range of pre-clinical studies indicate that phenserine suppresses interleukin-1b, reduces glutamate-induced excitotoxicity, protects against oxidative toxicity, reduces A-beta levels, improves neural precursor cell viability, elevates neurotrophic brain-derived neurotrophic factor, and inhibits amyloid-beta precursor protein synthesis. In the only published phase 2 randomized controlled trial (RCT), phenserine (10-15 mg b.i.d.) conferred improvement in cognition in people with AD receiving 12 weeks of the higher dose of phenserine. Safety and tolerability were very good. The proportion of withdrawals due to adverse events was 6% in the placebo arm and the highest dose groups, indicating that the optimal dose was probably not achieved for most patients. There were also methodological problems, prompting the authors to conclude that the full potential of phenserine for AD has not yet been fully evaluated.

The most common side-effects of phenserine are those associated with cholinesterase inhibition, i.e., nausea, vomiting and diarrhoea. The best predictor of cholinesterase linked gastrointestinal effects is the level of cholinesterase inhibition achieved, with the optimal therapeutic threshold being 50% inhibition. Given that the completed clinical trials with phenserine did not select patients based on biomarker confirmation of AD (meaning that a considerable proportion of participants likely did not have AD), and that the maximum dose did not lead to side-effects and thus many participants did not likely achieve a sufficiently high dose level, this study aims to evaluate the effects of an individualized maximum tolerated phenserine dose with adequate level of AChE inhibition to determine an appropriate dose range for subsequent efficacy trials.