Translational Inhibition of Multiple Neurotoxic Proteins Leads to Improved Cognition in Alzheimer’s Disease

Background Overexpression of neurotoxic proteins drives downstream events that dysregulate axonal transport, lead to inflammation, nerve cell death, and loss of function. By inhibiting the translation of amyloid precursor protein, tau and alpha‐synuclein, our drug restored axonal transport, lowered inflammation, and protected nerve cells from dying in animal models. Buntanetap’s reversal of the toxic cascade leading to nerve cell death did preserve and/or restore full function in 7 different animal models of neurodegenerative diseases including Alzheimer’s disease (AD) and Parkinson’s disease (PD). Method In a double blind, placebo controlled Phase2a study, early AD patients were randomized into 80mg Buntanetap (n = 10) or placebo (n = 5) QD for 25±2 days. We evaluated the safety, pharmacokinetics of Buntanetap, biomarkers, and its efficacy. Result In clinical trials, Buntanetap was safe in over 200 subjects, both healthy volunteers and AD/PD patients. In our recent double‐blind, placebo controlled Phase2a study, patients randomized to either 80mg QD Buntanetap or placebo we measured biomarkers in AD patients and showed that Buntanetap can lower neurotoxic proteins, improve axonal integrity and synaptic function, and lower inflammation. Buntanetap has also improved AD patients’ cognitive functions as measured by ADASCog11 and WAIS coding test after 25±2 days treatment. Conclusion These encouraging data support our further development of Buntanetap as a potential treatment for Alzheimer’s disease. We are planning three double‐blind, placebo‐controlled studies, a short 3‐month dose‐finding trial and two long‐term 12‐ and 18‐month trials in early and moderate AD patients.