Transthyretin (TTR) is a homotetrameric protein of the CNS that plays a role of as the major thyroxine (T4) carrier from blood to cerebrospinal fluid (CSF). T4 physiologically helps oligodendrocyte precursor cells to turn into myelinating oligodendrocytes, enhancing remyelination after myelin sheet damage. We investigated post-translational oxidative modifications of serum and CSF TTR in multiple sclerosis subjects, highlighting high levels of S-sulfhydration and S-sulfonation of cysteine in position ten only in the cerebral TTR, which correlate with an anomalous TTR protein folding as well as with disease duration. Moreover, we found low levels of free T4 in CSF of multiple sclerosis patients, suggestive of a potential role of these modifications in T4 transport into the brain.
Pieragostino, D., Del Boccio, P., Di Ioia, M., Pieroni, L., Greco, V., De Luca, G., D'Aguanno, S., Rossi, C., Franciotta, D., Centonze, D., Sacchetta, P., Di Ilio, C., Lugaresi, A., Urbani, A., Oxidative modifications of cerebral transthyretin are associated with multiple sclerosis, <<PROTEOMICS>>, 2013; 13 (6): 1002-1009. [doi:10.1002/pmic.201200395] [http://hdl.handle.net/10807/79798]
Oxidative modifications of cerebral transthyretin are associated with multiple sclerosis
Greco, Viviana;Urbani, AndreaUltimo
2013
Abstract
Transthyretin (TTR) is a homotetrameric protein of the CNS that plays a role of as the major thyroxine (T4) carrier from blood to cerebrospinal fluid (CSF). T4 physiologically helps oligodendrocyte precursor cells to turn into myelinating oligodendrocytes, enhancing remyelination after myelin sheet damage. We investigated post-translational oxidative modifications of serum and CSF TTR in multiple sclerosis subjects, highlighting high levels of S-sulfhydration and S-sulfonation of cysteine in position ten only in the cerebral TTR, which correlate with an anomalous TTR protein folding as well as with disease duration. Moreover, we found low levels of free T4 in CSF of multiple sclerosis patients, suggestive of a potential role of these modifications in T4 transport into the brain.
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