Ascorbate Synthesis Pathway: Dual Role of Ascorbate in Bone Homeostasis

Overview

Journal J Biol Chem

Specialty Biochemistry

Date 2010 Apr 23

PMID 20410296

Citations 51

Authors

Kenneth H Gabbay

Kurt M Bohren

Roy Morello

Terry Bertin

Jeff Liu

Peter Vogel

Affiliations

Soon will be listed here.

Abstract

Using mouse gene knock-out models, we identify aldehyde reductase (EC 1.1.1.2, Akr1a4 (GR)) and aldose reductase (EC 1.1.1.21, Akr1b3 (AR)) as the enzymes responsible for conversion of D-glucuronate to L-gulonate, a key step in the ascorbate (ASC) synthesis pathway in mice. The gene knock-out (KO) mice show that the two enzymes, GR and AR, provide approximately 85 and approximately 15% of L-gulonate, respectively. GRKO/ARKO double knock-out mice are unable to synthesize ASC (>95% ASC deficit) and develop scurvy. The GRKO mice ( approximately 85% ASC deficit) develop and grow normally when fed regular mouse chow (ASC content = 0) but suffer severe osteopenia and spontaneous fractures with stresses that increase ASC requirements, such as pregnancy or castration. Castration greatly increases osteoclast numbers and activity in GRKO mice and promotes increased bone loss as compared with wild-type controls and additionally induces proliferation of immature dysplastic osteoblasts likely because of an ASC-sensitive block(s) in early differentiation. ASC and the antioxidants pycnogenol and resveratrol block osteoclast proliferation and bone loss, but only ASC feeding restores osteoblast differentiation and prevents their dysplastic proliferation. This is the first in vivo demonstration of two independent roles for ASC as an antioxidant suppressing osteoclast activity and number as well as a cofactor promoting osteoblast differentiation. Although humans have lost the ability to synthesize ASC, our mouse models suggest the mechanisms by which suboptimal ASC availability facilitates the development of osteoporosis, which has important implications for human osteoporosis.

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