Reversal of neuroinflammation in novel GS model mice by single i.c.v. administration of CHO-derived rhCTSA precursor protein

Galactosialidosis (GS) is a lysosomal cathepsin A (CTSA) deficiency. It associates with a simultaneous decrease of neuraminidase 1 (NEU1) activity and sialylglycan storage. Central nervous system (CNS) symptoms reduce the quality of life of juvenile/adult-type GS patients, but there is no effective...

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Autores principales: Horii, Yuto, Iniwa, Toshiki, Onitsuka, Masayoshi, Tsukimoto, Jun, Tanaka, Yuki, Ike, Hironobu, Fukushi, Yuri, Ando, Haruna, Takeuchi, Yoshie, Nishioka, So-ichiro, Tsuji, Daisuke, Ikuo, Mariko, Yamazaki, Naoshi, Takiguchi, Yoshiharu, Ishimaru, Naozumi, Itoh, Kohji
Formato: Online Artículo Texto
Lenguaje:English
Publicado: American Society of Gene & Cell Therapy 2022
Materias:
Original Article
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC9062439/
https://www.ncbi.nlm.nih.gov/pubmed/35573044
http://dx.doi.org/10.1016/j.omtm.2022.04.001
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author Horii, Yuto
Iniwa, Toshiki
Onitsuka, Masayoshi
Tsukimoto, Jun
Tanaka, Yuki
Ike, Hironobu
Fukushi, Yuri
Ando, Haruna
Takeuchi, Yoshie
Nishioka, So-ichiro
Tsuji, Daisuke
Ikuo, Mariko
Yamazaki, Naoshi
Takiguchi, Yoshiharu
Ishimaru, Naozumi
Itoh, Kohji
author_facet Horii, Yuto
Iniwa, Toshiki
Onitsuka, Masayoshi
Tsukimoto, Jun
Tanaka, Yuki
Ike, Hironobu
Fukushi, Yuri
Ando, Haruna
Takeuchi, Yoshie
Nishioka, So-ichiro
Tsuji, Daisuke
Ikuo, Mariko
Yamazaki, Naoshi
Takiguchi, Yoshiharu
Ishimaru, Naozumi
Itoh, Kohji
author_sort Horii, Yuto
collection PubMed
description Galactosialidosis (GS) is a lysosomal cathepsin A (CTSA) deficiency. It associates with a simultaneous decrease of neuraminidase 1 (NEU1) activity and sialylglycan storage. Central nervous system (CNS) symptoms reduce the quality of life of juvenile/adult-type GS patients, but there is no effective therapy. Here, we established a novel GS model mouse carrying homozygotic Ctsa IVS6+1g→a mutation causing partial exon 6 skipping with concomitant deficiency of Ctsa/Neu1. The GS mice developed juvenile/adult GS-like symptoms, such as gargoyle-like face, edema, proctoprosia due to sialylglycan accumulation, and neurovisceral inflammation, including activated microglia/macrophage appearance and increase of inflammatory chemokines. We produced human CTSA precursor proteins (proCTSA), a homodimer carrying terminal mannose 6-phosphate (M6P)-type N-glycans. The CHO-derived proCTSA was taken up by GS patient-derived fibroblasts via M6P receptors and delivered to lysosomes. Catalytically active mature CTSA showed a shorter half-life due to intralysosomal proteolytic degradation. Following single i.c.v. administration, proCTSA was widely distributed, restored the Neu1 activity, and reduced the sialylglycans accumulated in brain regions. Moreover, proCTSA suppressed neuroinflammation associated with reduction of activated microglia/macrophage and up-regulated Mip1α. The results show therapeutic effects of intracerebrospinal enzyme replacement utilizing CHO-derived proCTSA and suggest suppression of CNS symptoms.
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spelling pubmed-90624392022-05-13 Reversal of neuroinflammation in novel GS model mice by single i.c.v. administration of CHO-derived rhCTSA precursor protein Horii, Yuto Iniwa, Toshiki Onitsuka, Masayoshi Tsukimoto, Jun Tanaka, Yuki Ike, Hironobu Fukushi, Yuri Ando, Haruna Takeuchi, Yoshie Nishioka, So-ichiro Tsuji, Daisuke Ikuo, Mariko Yamazaki, Naoshi Takiguchi, Yoshiharu Ishimaru, Naozumi Itoh, Kohji Mol Ther Methods Clin Dev Original Article Galactosialidosis (GS) is a lysosomal cathepsin A (CTSA) deficiency. It associates with a simultaneous decrease of neuraminidase 1 (NEU1) activity and sialylglycan storage. Central nervous system (CNS) symptoms reduce the quality of life of juvenile/adult-type GS patients, but there is no effective therapy. Here, we established a novel GS model mouse carrying homozygotic Ctsa IVS6+1g→a mutation causing partial exon 6 skipping with concomitant deficiency of Ctsa/Neu1. The GS mice developed juvenile/adult GS-like symptoms, such as gargoyle-like face, edema, proctoprosia due to sialylglycan accumulation, and neurovisceral inflammation, including activated microglia/macrophage appearance and increase of inflammatory chemokines. We produced human CTSA precursor proteins (proCTSA), a homodimer carrying terminal mannose 6-phosphate (M6P)-type N-glycans. The CHO-derived proCTSA was taken up by GS patient-derived fibroblasts via M6P receptors and delivered to lysosomes. Catalytically active mature CTSA showed a shorter half-life due to intralysosomal proteolytic degradation. Following single i.c.v. administration, proCTSA was widely distributed, restored the Neu1 activity, and reduced the sialylglycans accumulated in brain regions. Moreover, proCTSA suppressed neuroinflammation associated with reduction of activated microglia/macrophage and up-regulated Mip1α. The results show therapeutic effects of intracerebrospinal enzyme replacement utilizing CHO-derived proCTSA and suggest suppression of CNS symptoms. American Society of Gene & Cell Therapy 2022-04-15 /pmc/articles/PMC9062439/ /pubmed/35573044 http://dx.doi.org/10.1016/j.omtm.2022.04.001 Text en © 2022 The Author(s) https://creativecommons.org/licenses/by-nc-nd/4.0/This is an open access article under the CC BY-NC-ND license (http://creativecommons.org/licenses/by-nc-nd/4.0/).
spellingShingle Original Article
Horii, Yuto
Iniwa, Toshiki
Onitsuka, Masayoshi
Tsukimoto, Jun
Tanaka, Yuki
Ike, Hironobu
Fukushi, Yuri
Ando, Haruna
Takeuchi, Yoshie
Nishioka, So-ichiro
Tsuji, Daisuke
Ikuo, Mariko
Yamazaki, Naoshi
Takiguchi, Yoshiharu
Ishimaru, Naozumi
Itoh, Kohji
Reversal of neuroinflammation in novel GS model mice by single i.c.v. administration of CHO-derived rhCTSA precursor protein
title Reversal of neuroinflammation in novel GS model mice by single i.c.v. administration of CHO-derived rhCTSA precursor protein
title_full Reversal of neuroinflammation in novel GS model mice by single i.c.v. administration of CHO-derived rhCTSA precursor protein
title_fullStr Reversal of neuroinflammation in novel GS model mice by single i.c.v. administration of CHO-derived rhCTSA precursor protein
title_full_unstemmed Reversal of neuroinflammation in novel GS model mice by single i.c.v. administration of CHO-derived rhCTSA precursor protein
title_short Reversal of neuroinflammation in novel GS model mice by single i.c.v. administration of CHO-derived rhCTSA precursor protein
title_sort reversal of neuroinflammation in novel gs model mice by single i.c.v. administration of cho-derived rhctsa precursor protein
topic Original Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC9062439/
https://www.ncbi.nlm.nih.gov/pubmed/35573044
http://dx.doi.org/10.1016/j.omtm.2022.04.001
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