Ascorbic Acid Insufficiency Impairs Spatial Memory Formation in Juvenile AKR1A-knockout Mice

Overview

Journal J Clin Biochem Nutr

Specialty Biochemistry

Date 2019 Nov 29

PMID 31777422

Citations 5

Authors

Kazuki Kurihara

Takujiro Homma

Sho Kobayashi

Mototada Shichiri

Hiroki Fujiwara

Satoshi Fujii

Ken-ichi Yamada

Masaki Nakane

Kaneyuki Kawamae

Junichi Fujii

Affiliations

Soon will be listed here.

Abstract

AKR1A, an aldo-keto reductase, is involved in the synthesis of ascorbic acid as well as the reduction of a variety of aldehyde compounds. AKR1A mice produce considerably less ascorbic acid (about 10%) compared to AKR1A mice and require ascorbic acid supplementation in order to breed. To elucidate the roles played by AKR1A in spatial memory, AKR1A male mice were weaned at 4 weeks of age and groups that received ascorbic acid supplementation and no supplementation were subjected to a Morris water maze test. Juvenile AKR1A mice that received no supplementation showed impaired spatial memory formation, even though about 70% of the ascorbic acid remained in the brains of the AKR1A mice at day 7 after weaning. To the contrary, the young adult AKR1A mice at 13-15 weeks of age maintained only 15% of ascorbic acid but showed no significant difference in the spatial memory compared with the AKR1A mice or ascorbic acid-supplemented AKR1A mice. It is conceivable that juvenile mice require more ascorbic acid for the appropriate level of formation of spatial memory and that maturation of the neural system renders the memory forming process less sensitive to an ascorbic acid insufficiency.

Citing Articles

Ascorbate Is a Primary Antioxidant in Mammals.

Fujii J, Osaki T, Bo T Molecules. 2022; 27(19).

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Ascorbate is a multifunctional micronutrient whose synthesis is lacking in primates.

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Pleiotropic Actions of Aldehyde Reductase (AKR1A).

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Vitamin C Deficiency in the Young Brain-Findings from Experimental Animal Models.

Tveden-Nyborg P Nutrients. 2021; 13(5).

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Decreased content of ascorbic acid (vitamin C) in the brain of knockout mouse models of Na+,K+-ATPase-related neurologic disorders.

Ikeda K, Tienda A, Harrison F, Kawakami K PLoS One. 2021; 16(2):e0246678.

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