Lidia I. Stoykova scite author profile

Altered terminal glycosylation, with increased fucosylation and decreased sialylation, is a hallmark of the cystic fibrosis (CF) glycosylation phenotype. The glycosylation phenotype of CF airway epithelial cells has been modulated by the expression of wtCFTR. Understanding the effects of mutant CFTR on glycosylation may provide further insight into the regulation of glycoconjugate processing as well as new approaches to the therapy of CF.

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ST8Sia IV mRNA corresponds with the biosynthesis of α2,8sialyl polymers but not oligomers in rat oligodendrocytes

Stoykova¹,

Beesley²,

Grinspan³

et al. 2001

J of Neuroscience Research

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As oligodendrocytes mature they progress through a series of distinct differentiation steps characterized by the expression of specific markers. One such marker, polysialic acid found on the neural cell adhesion molecule (NCAM), is detected by antibodies and is present on progenitor oligodendrocytes, but is not detected to the same extent on mature oligodendrocytes. Two closely related polysialyltransferases, ST8Sia II (STX) and ST8Sia IV (PST) have been cloned previously and shown to synthesize polysialic acid on NCAM and other glycoproteins. To determine whether or not polyalpha2,8sialyltransferases are downregulated during the differentiation of oligodendrocytes, the enzyme activity and expression of ST8Sia II and ST8Sia IV mRNA at two stages of maturation in JS12/1 and JS3/16 oligodendrocytes were examined. Differentiation in both oligodendroglial cell lines was accompanied by more than a 50% reduction in the biosynthesis of polymers of alpha2,8sialic acid when fetuin was used as substrate. Most interestingly, extracts of JS12/1 mature cells synthesized 60% more short oligomers of alpha2,8sialic acid than the progenitor cells, whereas JS3/16 mature cells synthesized barely detectable amounts of the short oligomers. Transcripts for ST8Sia IV mRNA were present in both JS12/1 and JS3/16 and were reduced when the biosynthesis was markedly reduced. In contrast ST8Sia II mRNA was barely detectable in JS3/16 cells and although detectable in JS12/1 cells, there was no clear modulation with maturation. These results were supported by the examination of the brains of rats from embryonic to Day 21 ages. The enzyme activity and mRNA experiments show that polyalpha2,8sialyltransferase itself is down regulated to cause the reduction in sialyl polymers on mature oligodendrocytes. Moreover, ST8Sia IV is responsible for the polysialylation of NCAM in oligodendrocytes.

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Lidia I. Stoykova

Activity of fucosyltransferases and altered glycosylation in cystic fibrosis airway epithelial cells

Altered terminal glycosylation and the pathophysiology of CF lung disease

ST8Sia IV mRNA corresponds with the biosynthesis of α2,8sialyl polymers but not oligomers in rat oligodendrocytes

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