Inhibition of complement C3 signaling ameliorates locomotor and visual dysfunction in autoimmune inflammatory diseases

Inhibition of complement C3 signaling ameliorates locomotor and visual dysfunction in autoimmune inflammatory diseases

Neuromyelitis optica (NMO) is an autoimmune inflammatory disease of the central nervous system (CNS) characterized by transverse myelitis and optic neuritis. The pathogenic serum IgG antibody against the aquaporin-4 (AQP4) on astrocytes triggers the activation of the complement cascade, causing astr...

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Veröffentlicht in:Molecular therapy 2023-09, Vol.31 (9), p.2715-2733
Hauptverfasser: Xu, Li, Xu, Huiming, Chen, Siqi, Jiang, Wei, Afridi, Shabbir Khan, Wang, Yuge, Ren, Xin, Zhao, Yipeng, Lai, Shuiqing, Qiu, Xiusheng, Alvin Huang, Yu-Wen, Cui, Yaxiong, Yang, Hui, Qiu, Wei, Tang, Changyong
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AAV2/9.CR2-Crry
Animals
AQP4
Aquaporin 4 - metabolism
astrocyte
Astrocytes - metabolism
C3 signaling
Complement C3 - genetics
Complement C3 - metabolism
Mice
motor and visual dysfunction
neuroinflammation
neuromyelitis optica
Neuromyelitis Optica - pathology
Original
Recombinant Fusion Proteins - metabolism
Signal Transduction
Vision Disorders - complications
Vision Disorders - pathology
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container_end_page 2733
container_issue 9
container_start_page 2715
container_title Molecular therapy
container_volume 31
creator Xu, Li
Xu, Huiming
Chen, Siqi
Jiang, Wei
Afridi, Shabbir Khan
Wang, Yuge
Ren, Xin
Zhao, Yipeng
Lai, Shuiqing
Qiu, Xiusheng
Alvin Huang, Yu-Wen
Cui, Yaxiong
Yang, Hui
Qiu, Wei
Tang, Changyong
description Neuromyelitis optica (NMO) is an autoimmune inflammatory disease of the central nervous system (CNS) characterized by transverse myelitis and optic neuritis. The pathogenic serum IgG antibody against the aquaporin-4 (AQP4) on astrocytes triggers the activation of the complement cascade, causing astrocyte injury, followed by oligodendrocyte injury, demyelination, and neuronal loss. Complement C3 is positioned as a central player that relays upstream initiation signals to activate downstream effectors, potentially stimulating and amplifying host immune and inflammatory responses. However, whether targeting the inhibition of C3 signaling could ameliorate tissue injury, locomotor defects, and visual impairments in NMO remains to be investigated. In this study, using the targeted C3 inhibitor CR2-Crry led to a significant decrease in complement deposition and demyelination in both slice cultures and focal intracerebral injection models. Moreover, the treatment downregulated the expression of inflammatory cytokines and improved motor dysfunction in a systemic NMO mouse model. Similarly, employing serotype 2/9 adeno-associated virus (AAV2/9) to induce permanent expression of CR2-Crry resulted in a reduction in visual dysfunction by attenuating NMO-like lesions. Our findings reveal the therapeutic value of inhibiting the complement C3 signaling pathway in NMO. [Display omitted] Tang and colleagues demonstrate that the complement C3 signaling contributes to NMO-like pathology and functional deficits in different types of NMO models. Targeting the inhibition of C3 signaling ameliorates motor and visual impairments associated with NMO.
doi_str_mv 10.1016/j.ymthe.2023.07.017
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The pathogenic serum IgG antibody against the aquaporin-4 (AQP4) on astrocytes triggers the activation of the complement cascade, causing astrocyte injury, followed by oligodendrocyte injury, demyelination, and neuronal loss. Complement C3 is positioned as a central player that relays upstream initiation signals to activate downstream effectors, potentially stimulating and amplifying host immune and inflammatory responses. However, whether targeting the inhibition of C3 signaling could ameliorate tissue injury, locomotor defects, and visual impairments in NMO remains to be investigated. In this study, using the targeted C3 inhibitor CR2-Crry led to a significant decrease in complement deposition and demyelination in both slice cultures and focal intracerebral injection models. Moreover, the treatment downregulated the expression of inflammatory cytokines and improved motor dysfunction in a systemic NMO mouse model. Similarly, employing serotype 2/9 adeno-associated virus (AAV2/9) to induce permanent expression of CR2-Crry resulted in a reduction in visual dysfunction by attenuating NMO-like lesions. Our findings reveal the therapeutic value of inhibiting the complement C3 signaling pathway in NMO. [Display omitted] Tang and colleagues demonstrate that the complement C3 signaling contributes to NMO-like pathology and functional deficits in different types of NMO models. 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The pathogenic serum IgG antibody against the aquaporin-4 (AQP4) on astrocytes triggers the activation of the complement cascade, causing astrocyte injury, followed by oligodendrocyte injury, demyelination, and neuronal loss. Complement C3 is positioned as a central player that relays upstream initiation signals to activate downstream effectors, potentially stimulating and amplifying host immune and inflammatory responses. However, whether targeting the inhibition of C3 signaling could ameliorate tissue injury, locomotor defects, and visual impairments in NMO remains to be investigated. In this study, using the targeted C3 inhibitor CR2-Crry led to a significant decrease in complement deposition and demyelination in both slice cultures and focal intracerebral injection models. Moreover, the treatment downregulated the expression of inflammatory cytokines and improved motor dysfunction in a systemic NMO mouse model. 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subjects AAV2/9.CR2-Crry
Animals
AQP4
Aquaporin 4 - metabolism
astrocyte
Astrocytes - metabolism
C3 signaling
Complement C3 - genetics
Complement C3 - metabolism
Mice
motor and visual dysfunction
neuroinflammation
neuromyelitis optica
Neuromyelitis Optica - pathology
Original
Recombinant Fusion Proteins - metabolism
Signal Transduction
Vision Disorders - complications
Vision Disorders - pathology
title Inhibition of complement C3 signaling ameliorates locomotor and visual dysfunction in autoimmune inflammatory diseases
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