Abstract
Entamoeba histolytica is a protozoan parasite that causes dysentery in developing countries of Africa, Asia, and Latin America. The lack of a defined Golgi apparatus in E. histolytica as well as in other protists led to the hypothesis that they had evolved prior to the acquisition of such organelle even though glycoproteins, glycolipids, and antigens have been detected, the latter of which react with antibodies against Golgi apparatus proteins of higher eukaryotes. We here provide direct evidence for Golgi apparatus-like functions in E. histolytica as well as for components of glycoprotein folding quality control. Using a combination of bioinformatic, cell biological, and biochemical approaches we have (a) cloned and expressed the E. histolytica UDP-galactose transporter in Saccharomyces cerevisiae; its K(m) for UDP-galactose is 2.9 microm; (b) characterized vesicles in an extract of the above protist, which transport UDP-galactose into their lumen with a K(m) of 2.7 microm;(c) detected galactosyltransferase activity(ies) in the lumen of the above vesicles with the K(m) for UDP-galactose, using endogenous acceptors, being 93 microm;(d) measured latent apyrase activities in the above vesicles, suggesting they are in the lumen; (e) characterized UDP-glucose transport activities in Golgi apparatus and endoplasmic reticulum-like vesicles with K(m)s for UDP-glucose of approximately 2-4 microm. Although the endoplasmic reticulum-like fraction showed UDP-glucose: glycoprotein glucosyltransferase activity, the Golgi apparatus-like fraction did not. This fraction contained other glucosyltransferases. Together, these studies demonstrate that E. histolytica has different vesicles that play a role in protein glycosylation and folding quality control, analogous to the above organellar functions of higher eukaryotes.
Highlights
Phologically defined Golgi apparatus (GA) led until recently to the hypothesis that these protists had evolved prior to the acquisition of this organelle (7, 8), raising important biosynthetic questions about glycoconjugates, many of which are known to be synthesized in the endoplasmic reticulum (ER) and GA of eukaryotes (9, 10)
UDP-[3H]Gal within vesicles, is defined as soluble radioactivity remaining after perchloric acid precipitation of washed vesicles
Yeast Vesicles Expressing EhNST1 Transport UDP-Galactose—Previous studies from our and other laboratories showed that the amino acid sequence of nucleotide sugar transporters cannot predict the substrate specificity of an unknown transporter and that transporters of very different amino acid sequences can mediate transport of the same nucleotide sugar in the same organism (27, 28). Based on this we queried the genome of Entamoeba histolytica (Eh) with the amino acid sequence of several nucleotide sugar transporters including that for the UDP-galactose transporter of Schizosaccharomyces pombe
Summary
Radioactive Substrates—The following radioactive substrates used were all from PerkinElmer Life Sciences except as indicated: UDP[3H]Glc (11.5 Ci/mmol), UDP-[3H]GlcNAc (39.7 Ci/mmol), UDP[3H]GalNAc (5.8 Ci/mmol),), GDP-[14C]mannose (260 mCi/mmol), 32168 JOURNAL OF BIOLOGICAL CHEMISTRY.
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