Authors
Jha, A., Ramkumar, J., Jugdar, A., Du, X.
Abstract
Amyotrophic lateral sclerosis-frontotemporal dementia (ALS-FTD) is a neurodegenerative disease characterized by progressive neuronal loss and motor decline. Recovery remains beyond therapeutic reach, and even complete neurogenesis does not ensure preservation of memory capacity (defined as the strength of synaptic connections). Freshwater planarians, capable of whole-body regeneration and associative learning, provide a tractable model to study the relationship between neuronal damage and behavior. Their "single-circuit" centralized nervous systems allow evaluation of oxidative stress, a key driver of ALS-FTD pathology, which was induced via hydrogen peroxide. In this study, 180 planaria underwent three phases. Phase 1 established baseline memory using a 28-day operant conditioning protocol with a light-based training device. Success was determined by the proportion of planaria in concentric circles defined as zones (A-C) with a respective gradient descent of light concentration. Phase 2 determined hydrogen peroxide (H2O2;) concentrations sufficient to induce oxidative stress that triggered regenerative signaling and neuronal damage without lethality. Phase 3 applied the optimal concentration, allowed regeneration, and retested memory. The optimal concentration of hydrogen peroxide was 5 ppm, triggering blastema formation and neuronal damage while preserving viability. Zone occupancy analyses utilizing prior found concentration revealed measurable post exposure shifts: Zone A increased initially but trended lower post-exposure, Zone B increased, and Zone C decreased significantly. These results indicate that while memory capability persists after neurogenesis, the quality of memory decreases. In accordance with this study, current treatments for ALS-FTD that focus solely on neurogenesis will not fully restore cognitive function.
Preprint server:
bioRxiv
The authors list and abstract were imported from bioRxiv on 01 Nov 2025.
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