Ingrid VanderElst scite author profile

The fem-1 gene of C. elegans is one of three genes required for all aspects of male development in the nematode. Current models of sex determination propose that the products of the fem genes act in a novel signal-transduction pathway and that their activity is regulated primarily at the post-translational level in somatic tissues. We analyzed the expression of fem-1 to determine whether it revealed any additional levels of regulation. Both XX hermaphrodites and XO males express fem-1 at approximately constant levels throughout development. Somatic tissues in hermaphrodites adopt female fates, but they nonetheless expressfem-1 mRNA and FEM-1 protein, suggesting that the regulation of fem-i activity is post-transcriptional and probably post-translational. A compact promoter directs functional expression of fem-1 transgenes, as assayed by their masculinizing activity infem-i mutants. Activity also requires any two or more introns, suggesting that splicing may enhance fem-1 expression. The minimal noncoding sequences required for activity of fem-1 transgenes suffice to direct expression of a fem-i::lacZ reporter gene in all somatic tissues in both sexes. Many fem-1 transgenes, including those that rescue male somatic development in fem-1 mutants, paradoxically feminize the germline. We suggest that they do so by interfering with the germline expression of the endogenous fem-1 gene.

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Asparagine-linked oligosaccharides in malignant tumour growth

Dennis

Laferté

VanderElst

1989

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The expression of beta 1-6-branched complex-type oligosaccharides in several tumour cell models appears to be associated with enhanced metastatic potential. P2B, a major PHA-L-binding glycoprotein was isolated from metastatic MDAY-D2 cells and shown to bind to collagen, fibronectin and laminin with increased affinity after removal of N-linked sialic acid or polylactosamine. Sialylated polylactosamine-containing beta 1-6-branched oligosaccharides on proteins such as P2B and fibronectin may reduce cell adhesion and enhance tumour cell invasion. The loss of branched complex-type oligosaccharides in tumour cells due to somatic mutations or inhibition by swainsonine is also associated with decreased cell proliferation in tissue culture and slower rates of solid tumour growth in mice.

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N-linked oligosaccharide processing and autocrine stimulation of tumor cell proliferation

VanderElst

Dennis

1991

Experimental Cell Research

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1,6 N-Acetylglucosaminyltransferase (core 2 GlcNAc-T) expression in normal rat tissues and different cell lines: Evidence for complex mechanisms of regulation

VanderElst

Datti

1998

Glycobiology

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The distribution of the Golgi enzyme β1,6-N-acetylglucosaminyltransferase (core 2 GlcNAc-T for short) has been investigated in several tissue and cell systems by combining the potentials of a polyclonal antibody and a novel, sensitive fluorescent enzyme assay. In normal rat tissues, levels of the protein were found to vary and as a general trend did not correlate with enzyme activities. Additionally, we observed tissue-specific core 2 GlcNAc-T forms of various size: 75 kDa (liver), 70 kDa (spleen), 60 kDA (heart), and 50 kDa (heart and lung). These forms might arise from differential protein modifications; alternatively, the smaller form may be a product of proteolytic cleavage, given the presence of a catalytically inactive 50 kDa species in rat serum. Chinese hamster ovary (CHO), MDAY-D2, PSA-5E, and PYS-2 cell lines consistently displayed a 70 kDa enzyme. When induced to retrodifferentiate in the presence of butyrate + cholera toxin, CHO cells exhibited a 21-fold increase in enzyme activity, while protein levels remained constant. A similar trend was observed in the embryonal endoderm cell lines PSA-5E and PYS-2, where an approximately 100-fold difference in core 2 GlcNAc-T activity was found notwithstanding unchanged amounts of the protein and identical mRNA levels, as evidenced by RT-PCR. In contrast, levels of core 2 GlcNAc-T activity in MDAY-D2 cells correlated well with protein expression. Taken together, these observations demonstrate that core 2 GlcNAc-T expression may be subjected to multiple mechanisms of regulation and suggest that in at least some instances (i.e., PSA-5E and PYS-2 cells) expression may be regulated exclusively via posttranslational mechanism(s) of control.

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