Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts:   Target Concepts:
Query: EC:2.4.99.7 (sialyltransferase)
 1,534 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Iodine incorporation into thyroglobulin is known to occur within the lumen of the thyroid follicle. Since incorporation of sialic acid, which occupies a terminal position in the oligosaccharide chains, is also a later event in thyroglobulin synthesis, the possibility that sialic acid might be incorporated after thyroglobulin secretion was investigated. In one experimental approach normal rat thyroid hemilobes were incubated with radioactive precursors. Thyroglobulin, analyzed by equilibrium centrifugation in RbCl, had a median density which varied according to the moiety labeled in the following increasing order: leucine smaller than galactose smaller than sialic acid smaller than iodine. The molecules having the highest density were labeled only with iodine. In the second approach, thyroid hemilobes were taken from rats treated with cycloheximide for 16 hours to stop protein synthesis and allow nascent molecules to be secreted, and incorporation of precursors into thyroglobulin was analyzed by sucrose gradient centrifugation. Leucine incorporation was 6% of control but the amino acid was found in the NH2-terminal position. N-Acetylmannosamine (sialic acid precursor) and galactose incorporation were also completely inhibited whereas iodine incorporation was 10% of control. Incorporation was not restored by thyrotropin treatment, and the sialyltransferase and iodination systems were reduced only to 50 to 70% of control. The results indicate that sialic acid is incorporated only in nascent thyroglobulin and not in thyroglobulin molecules already secreted into the follicular lumen. A large fraction of the iodine incorporation also seems to occur in newly synthesized thyroglobulin.
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PMID:The site of sialic acid incorporation into thyroglobulin in the thyroid gland. 111 19

A large family (14 children) with congenital goiter whose parents are first cousins was studied. Thyroid tissue was obtained, after 125I in vivo labeling, from one of the siblings (JBM). Gel filtration of thyroid proteins indicated that thyroglobulin (Tg) eluted as a single symmetrical peak in the same position as authentic 19S Tg. Gel electrophoresis in a 7.5% sodium dodecyl sulfate-polyacrylamide gel revealed a major band with the same mobility and immunoreactivity as normal 19S Tg. Hydrolysis of the patient's Tg indicated that most of the radioactivity was mono- and diiodotyrosines. The yield of T4 from JBM Tg (26 pmol/mg protein) was 5-fold less than normal thyroid tissue (140 pmol/mg protein) and approximately half of that in thyroid tissue from endemic goiter (51 pmol/mg). Total T3 released from JBM Tg was similar to the other two tissues. When the carbohydrate content of normal and patient Tg was analyzed, there was no differences in glucosamine, galactose or mannose content. However, unlike normal and endemic-goiter Tg, that had a mean sialic acid content of 7.3 and 5.6 micrograms/mg protein, respectively, the sialic acid concentration of the patients Tg was only 0.3 microgram/mg. Sialyltransferase activity was readily demonstrated in homogenate from normal thyroid or endemic goiter, but no sialyltransferase activity was detectable in a homogenate of JBM-thyroid tissue. We conclude that the finding of severely hyposialylated Tg is linked to a defect in iodotyrosine coupling seen in this patient with a possibly abnormal migration of Tg into the follicular lumen.
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PMID:Hyposialylated thyroglobulin in a patient with congenital goiter and hypothyroidism. 172 28

Administration of thyrotropin to porcine thyroid follicles, obtained in a serum-free chemically defined medium, provoked marked increases in the activities of several glycosyltransferases involved in protein N-glycosylation. The coincidence of these effects with a previously demonstrated enhancement of thyroglobulin production renders a relationship between these events likely. The most important stimulation was for peptide oligosaccharyltransferase (3-fold). Among the enzymes involved in the synthesis of the lipid oligosaccharide donor, Dol-P glycosyl- and mannosyltransferases were increased 1.5-fold, and Dol-P N-acetylglucosaminylphosphotransferase only 1.15-fold. As regards terminal glycosyltransferases, asialofetuin sialyltransferase was increased 2-fold and ovomucoid galactosyltransferase only 1.2-fold. There was a continuous release of the latter two enzymes into the culture medium.
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PMID:Responsiveness of glycosyltransferases to thyrotropin in a serum-free culture of porcine thyroid cells. 609 77