Longevity EvidenceNon-commercial
KCC2 Hypofunction Unifies Network Disinhibition Across Epilepsy, Neuropathic Pain, Spinal Cord Injury, and Alzheimer's-Associated Hyperexcitability
Multiple peer-reviewed studies suggest that disrupted neuronal chloride homeostasis (KCC2 hypofunction) contributes to network hyperexcitability across several CNS disorders. KCC2 potentiation is being investigated as a candidate cross-indication therapeutic mechanism, with one o
- Type
- evidence-claim
- Domain
- h10_altered_intercellular_communication
- Grade
- B
- License
- CC BY-NC 4.0
- card_id
- L-004
- hallmarks
- h10_altered_intercellular_communication
- cluster
- science_layer
- primary_disease_area
- epilepsy_refractory,neuropathic_pain,spinal_cord_injury,alzheimers
- evidence_tier
- B
- evidence_anchor_count
- 6
- intake_round
- R23
- intake_date
- 2026-05-26
- related_experts
- TBD-Hegarty
- related_biomarkers
- related_interventions
- int_axn_027,int_ov350,int_ov4071
- related_trials
- trial_actrn12624001294549
- collection_pages
- /research/mechanisms,/research/cross-disease-targets
LongProof Longevity Dynamic · LIGHT HOPE / x1000.ai · longevity.x1000.ai · 2026 · source
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