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Mouse development is not obviously affected by the absence of dermatan sulfate epimerase 2 in spite of a modified brain dermatan sulfate composition.
Dermatan sulfate epimerase 2 (DS-epi2), together with its homolog DS-epi1, transform glucuronic acid into iduronic acid in DS polysaccharide chains. Iduronic acid gives DS increased chain flexibility and promotes protein binding. DS-epi2 is ubiquitously expressed and is the predominant epimerase in the brain. Here, we report the generation and initial characterization of DS-epi2 null mice. DS-epi2-deficient mice showed no anatomical, histological or morphological abnormalities. The body weights and lengths of mutated and wild-type littermates were indistinguishable. They were fertile and had a normal lifespan. Chondroitin sulfate (CS)/DS isolated from the newborn mutated mouse brains had a 38% reduction in iduronic acid compared with wild-type littermates, and compositional analysis revealed a decrease in 4-O-sulfate and an increase in 6-O-sulfate containing structures. Despite the reduction in iduronic acid, the adult DS-epi2-/- brain showed normal extracellular matrix features by immunohistological stainings. We conclude that DS-epi1 compensates in vivo for the loss of DS-epi2. These results extend previous findings of the functional redundancy of brain extracellular matrix components.
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