APOE from patient-derived astrocytic extracellular vesicles alleviates neuromyelitis optica spectrum disorder in a mouse model.
Shihe JiangXindi LiYan LiZhilin ChangMeng YuanYing ZhangHuimin ZhuYuwen XiuHengri CongLinlin YinZhen-Wei YuJunwan FanWenyan HeKaibin ShiDe-Cai TianJing ZhangAlexei VerkhratskyWei-Na JinFu-Dong ShiPublished in: Science translational medicine (2024)
Neuromyelitis optica spectrum disorder (NMOSD) is an autoimmune astrocytopathy of the central nervous system, mediated by antibodies against aquaporin-4 water channel protein (AQP4-Abs), resulting in damage of astrocytes with subsequent demyelination and axonal damage. Extracellular communication through astrocyte-derived extracellular vesicles (ADEVs) has received growing interest in association with astrocytopathies. However, to what extent ADEVs contribute to NMOSD pathogenesis remains unclear. Here, through proteomic screening of patient-derived ADEVs, we observed an increase in apolipoprotein E (APOE)-rich ADEVs in patients with AQP4-Abs-positive NMOSD. Intracerebral injection of the APOE-mimetic peptide APOE 130-149 attenuated microglial reactivity, neuroinflammation, and brain lesions in a mouse model of NMOSD. The protective effect of APOE in NMOSD pathogenesis was further established by the exacerbated lesion volume in APOE-deficient mice, which could be rescued by exogenous APOE administration. Genetic knockdown of the APOE receptor lipoprotein receptor-related protein 1 (LRP1) could block the restorative effects of APOE 130-149 administration. The transfusion ADEVs derived from patients with NMOSD and healthy controls also alleviated astrocyte loss, reactive microgliosis, and demyelination in NMOSD mice. The slightly larger beneficial effect of patient-derived ADEVs as compared to ADEVs from healthy controls was further augmented in APOE -/- mice. These results indicate that APOE from astrocyte-derived extracellular vesicles could mediate disease-modifying astrocyte-microglia cross-talk in NMOSD.
Keyphrases
- cognitive decline
- high fat diet
- mouse model
- mild cognitive impairment
- spectrum disorder
- spinal cord injury
- traumatic brain injury
- multiple sclerosis
- small molecule
- metabolic syndrome
- lipopolysaccharide induced
- insulin resistance
- blood brain barrier
- genome wide
- ultrasound guided
- amino acid
- brain injury
- protein protein