A Human STX cDNA Confers Polysialic Acid Expression in Mammalian Cells
Polysialic acid, or PSA, is a term used to refer to linear homopolymers of α(2,8)-sialic acid residues displayed at the surface of some mammalian cells. PSA is typically linked to the neural cell adhesion molecule N-CAM, where it can modulate the homotypic adhesive properties of this polypeptide. P...
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Veröffentlicht in: | The Journal of biological chemistry 1995-09, Vol.270 (39), p.22685-22688 |
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Zusammenfassung: | Polysialic acid, or PSA, is a term used to refer to linear homopolymers of α(2,8)-sialic acid residues displayed at the surface
of some mammalian cells. PSA is typically linked to the neural cell adhesion molecule N-CAM, where it can modulate the homotypic
adhesive properties of this polypeptide. PSA expression is developmentally regulated, presumably through mechanisms involving
regulated expression of sialyltransferases involved in PSA biosynthesis. Several different sialyltransferase sequences have
been implicated in PSA expression, although the precise roles of these enzymes in this context remain unclear. One such sequence,
termed STX, maintains approximately 59% amino acid sequence identity with another sialyltransferase (PST-1, from hamster;
PST, human) that is known to participate in PSA expression. While a murine STX fusion protein can catalyze the synthesis of
a single α(2,8)-sialic acid linkage in vitro , the ability of STX to participate in PSA expression in vivo has not been demonstrated. We show here that STX transcripts are present in a PSA-positive, N-CAM-positive human small cell
carcinoma line (NCI-H69/F3), but are absent in a variant of this line (NCI-H69/E2) selected to be PSA-negative and N-CAM-positive.
To functionally confirm this correlation, we have cloned a human cDNA encoding the human STX sequence, and show, by transfection
studies, that human STX can restore PSA expression when expressed in the PSA-negative, N-CAM-positive small cell carcinoma
variant. We furthermore show that STX can confer PSA expression when expressed in a PSA-negative, N-CAM-positive murine cell
line (NIH-3T3 cells), or when expressed in PSA-negative, N-CAM-negative COS-7 cells. These observations imply that STX, like
PST-1/PST, can determine PSA expression in vivo . When considered together with the correlation between STX expression and PSA expression in vivo in the brain, these results suggest a regulatory role for STX in PSA expression in the developing central nervous system
and small cell lung carcinoma. |
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ISSN: | 0021-9258 1083-351X |
DOI: | 10.1074/jbc.270.39.22685 |