Abstract: Parkinson’s Disease (PD) and Alzheimer’s Disease (AD) are still significant neurodegenerative disorders that have few disease-modifying therapies. In this review, recent advances are assessed based on the strength of evidence for major molecular targets and the therapeutic approaches that have been developed around those targets. Alpha-synuclein is a key target in PD, as indicated by genetic correlations, pathological distribution, and experimental evidence supporting its involvement in neuronal injury. Initial trials of alpha-synuclein antibodies and vaccines show evidence of target engagement, with yet-to-be-determined clinical outcomes. Interventions targeting gene-based dopamine synthesis restoration using AADC or multi-enzyme vectors have shown consistent biological effects, with clinical variability, and determining optimized delivery and patient selection is necessary. In AD, amyloid-beta- and tau-directed interventions have produced measurable changes in biomarkers, and some agents have demonstrated a slight deceleration of deterioration at an early stage of the disease. The experience with previous BACE inhibitors also demonstrates that excellent mechanistic rationale does not always translate into clinical efficacy in the case of interference with critical physiological processes by target modulation. Regenerative methods, such as stem-cell-based neuronal grafts in PD and neurotrophic factor gene delivery in AD, show potential to repair network function, but still pose issues regarding long-term stability, integration, and the complexity of the procedures. Lifestyle-driven interventions, control of the gut microbiome, and neuromodulation methods also remain of interest and can be included in the list of supportive strategies offered to complement molecular therapies. AI-based analytics and digital tools are helpful in the earlier detection, monitoring, and trial stratification. Taken together, existing evidence suggests that authenticated protein targets, neurotransmitter-targeted remedial strategies, and technology-enabled accuracy methods are the most promising approaches for the development of disease-modifying therapies in PD and AD.
Kasthuri et al. (Mon,) studied this question.