Mice deficient in nervous system-specific carbohydrate epitope HNK-1 exhibit impaired synaptic plasticity and spatial learning

Shoji Yamamoto; Shogo Oka; Mitsuhiro Inoue; Misa Shimuta; Toshiya Manabe; Hideki Takahashi; Masaomi Miyamoto; Masahide Asano; Junko Sakagami; Katsuko Sudo; Yoichiro Iwakura; Katsuhiko Ono; Toshisuke Kawasaki

doi:10.1074/jbc.C200296200

Mice deficient in nervous system-specific carbohydrate epitope HNK-1 exhibit impaired synaptic plasticity and spatial learning

Shoji Yamamoto
, Shogo Oka
, Mitsuhiro Inoue
, Misa Shimuta
, Toshiya Manabe
, Hideki Takahashi
, Masaomi Miyamoto
, Masahide Asano
, Junko Sakagami
, Katsuko Sudo
, Yoichiro Iwakura
, Katsuhiko Ono
, Toshisuke Kawasaki

Research output: Contribution to journal › Article › peer-review

143 Citations (Scopus)

Abstract

The HNK-1 carbohydrate epitope, a sulfated glucuronic acid at the non-reducing terminus of glycans, is expressed characteristically on a series of cell adhesion molecules and is synthesized through a key enzyme, glucuronyltransferase (GlcAT-P). We generated mice with a targeted deletion of the GlcAT-P gene. The GlcAT-P -/- mice exhibited normal development of gross anatomical features, but the adult mutant mice exhibited reduced long term potentiation at the Schaffer collateral-CA1 synapses and a defect in spatial memory formation. This is the first evidence that the loss of a single non-reducing terminal carbohydrate residue attenuates brain higher functions.

Original language	English
Pages (from-to)	27227-27231
Number of pages	5
Journal	Journal of Biological Chemistry
Volume	277
Issue number	30
DOIs	https://doi.org/10.1074/jbc.C200296200
Publication status	Published - 26-07-2002
Externally published	Yes

All Science Journal Classification (ASJC) codes

Biochemistry
Molecular Biology
Cell Biology

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10.1074/jbc.C200296200

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Yamamoto, S., Oka, S., Inoue, M., Shimuta, M., Manabe, T., Takahashi, H., Miyamoto, M., Asano, M., Sakagami, J., Sudo, K., Iwakura, Y., Ono, K., & Kawasaki, T. (2002). Mice deficient in nervous system-specific carbohydrate epitope HNK-1 exhibit impaired synaptic plasticity and spatial learning. Journal of Biological Chemistry, 277(30), 27227-27231. https://doi.org/10.1074/jbc.C200296200

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title = "Mice deficient in nervous system-specific carbohydrate epitope HNK-1 exhibit impaired synaptic plasticity and spatial learning",

abstract = "The HNK-1 carbohydrate epitope, a sulfated glucuronic acid at the non-reducing terminus of glycans, is expressed characteristically on a series of cell adhesion molecules and is synthesized through a key enzyme, glucuronyltransferase (GlcAT-P). We generated mice with a targeted deletion of the GlcAT-P gene. The GlcAT-P -/- mice exhibited normal development of gross anatomical features, but the adult mutant mice exhibited reduced long term potentiation at the Schaffer collateral-CA1 synapses and a defect in spatial memory formation. This is the first evidence that the loss of a single non-reducing terminal carbohydrate residue attenuates brain higher functions.",

author = "Shoji Yamamoto and Shogo Oka and Mitsuhiro Inoue and Misa Shimuta and Toshiya Manabe and Hideki Takahashi and Masaomi Miyamoto and Masahide Asano and Junko Sakagami and Katsuko Sudo and Yoichiro Iwakura and Katsuhiko Ono and Toshisuke Kawasaki",

year = "2002",

month = jul,

day = "26",

doi = "10.1074/jbc.C200296200",

language = "English",

volume = "277",

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journal = "Journal of Biological Chemistry",

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Yamamoto, S, Oka, S, Inoue, M, Shimuta, M, Manabe, T, Takahashi, H, Miyamoto, M, Asano, M, Sakagami, J, Sudo, K, Iwakura, Y, Ono, K & Kawasaki, T 2002, 'Mice deficient in nervous system-specific carbohydrate epitope HNK-1 exhibit impaired synaptic plasticity and spatial learning', Journal of Biological Chemistry, vol. 277, no. 30, pp. 27227-27231. https://doi.org/10.1074/jbc.C200296200

TY - JOUR

T1 - Mice deficient in nervous system-specific carbohydrate epitope HNK-1 exhibit impaired synaptic plasticity and spatial learning

AU - Yamamoto, Shoji

AU - Oka, Shogo

AU - Inoue, Mitsuhiro

AU - Shimuta, Misa

AU - Manabe, Toshiya

AU - Takahashi, Hideki

AU - Miyamoto, Masaomi

AU - Asano, Masahide

AU - Sakagami, Junko

AU - Sudo, Katsuko

AU - Iwakura, Yoichiro

AU - Ono, Katsuhiko

AU - Kawasaki, Toshisuke

PY - 2002/7/26

Y1 - 2002/7/26

N2 - The HNK-1 carbohydrate epitope, a sulfated glucuronic acid at the non-reducing terminus of glycans, is expressed characteristically on a series of cell adhesion molecules and is synthesized through a key enzyme, glucuronyltransferase (GlcAT-P). We generated mice with a targeted deletion of the GlcAT-P gene. The GlcAT-P -/- mice exhibited normal development of gross anatomical features, but the adult mutant mice exhibited reduced long term potentiation at the Schaffer collateral-CA1 synapses and a defect in spatial memory formation. This is the first evidence that the loss of a single non-reducing terminal carbohydrate residue attenuates brain higher functions.

AB - The HNK-1 carbohydrate epitope, a sulfated glucuronic acid at the non-reducing terminus of glycans, is expressed characteristically on a series of cell adhesion molecules and is synthesized through a key enzyme, glucuronyltransferase (GlcAT-P). We generated mice with a targeted deletion of the GlcAT-P gene. The GlcAT-P -/- mice exhibited normal development of gross anatomical features, but the adult mutant mice exhibited reduced long term potentiation at the Schaffer collateral-CA1 synapses and a defect in spatial memory formation. This is the first evidence that the loss of a single non-reducing terminal carbohydrate residue attenuates brain higher functions.

UR - https://www.scopus.com/pages/publications/0037178845

UR - https://www.scopus.com/pages/publications/0037178845#tab=citedBy

U2 - 10.1074/jbc.C200296200

DO - 10.1074/jbc.C200296200

M3 - Article

C2 - 12032138

AN - SCOPUS:0037178845

SN - 0021-9258

VL - 277

SP - 27227

EP - 27231

JO - Journal of Biological Chemistry

JF - Journal of Biological Chemistry

IS - 30

ER -

Mice deficient in nervous system-specific carbohydrate epitope HNK-1 exhibit impaired synaptic plasticity and spatial learning

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