Huntington's disease (HD) is a progressive neurodegenerative disorder characterized by motor, cognitive, and behavioral impairments associated with striatal neuronal loss, for which effective symptom- Show more
Huntington's disease (HD) is a progressive neurodegenerative disorder characterized by motor, cognitive, and behavioral impairments associated with striatal neuronal loss, for which effective symptom-attenuating therapies remain lacking. Artemisinin (ART), a natural sesquiterpene lactone with established antioxidant and anti-inflammatory actions, has recently gained attention as a potential neuroprotective agent. This study evaluated the therapeutic relevance of ART in a rat model of HD induced by 3-nitropropionic acid (3-NP). 3-NP administration caused severe behavioral deficits, including an 81.8% reduction in rearing and a 74.9% reduction in ambulation (p < 0.0001), a 63.7% decrease in novel object exploration, and a 53.5% decline in Morris water maze target quadrant time versus controls. Biochemically, 3-NP elevated HMGB1 (4.8-fold), TLR4 (6.8-fold), RIPK1 (6.4-fold), RIPK3 (5.2-fold), MLKL (5.5-fold), p38-MAPK (4.2-fold), NF-κB (2.1-fold), and TNF-α (4.5-fold), while reducing GSH (57.6%), Nrf2 (77.7%), Sig1R (86.2%), D2R (64%), XIAP (77.8%), BDNF (57.6%) and SDH (61.44%) (all p < 0.0001). Treatment with ART (100 mg/kg) markedly restored behavioral performance, increasing rearing and ambulation by 3.2- and 2.6-fold, novel object exploration by 2.4-fold, and target quadrant time by 1.7-fold compared to the 3-NP group. At the molecular level, ART reduced HMGB1 (69.2%), TLR4 (60.4%), RIPK1 (66.3%), RIPK3 (66.4%), MLKL (58%), and TNF-α (62.5%), while significantly restoring GSH (2.1-fold), Nrf2 (3.7-fold), Sig1R (5.2-fold), D2R (2.6-fold), XIAP (3.7-fold), BDNF (2.3-fold) and SDH (1.94-fold) relative to 3-NP-treated rats. Collectively, these results demonstrate that ART confers robust neuroprotection against 3-NP-induced HD-like pathology by attenuating oxidative stress, suppressing HMGB1/TLR4/NF-κB signaling, inhibiting necroptosis, and upregulating neuroprotective markers. These findings highlight ART not only as a neuroprotective agent but also as a promising symptom-attenuating therapeutic candidate for Huntington's disease and other neurodegenerative disorders driven by oxidative and inflammatory stress. Show less