Abstract
Giardia lamblia, an intestinal parasite of humans and other vertebrates, undergoes surface antigenic variation by modulating the expression of different variant-specific surface proteins (VSP). VSPs are cysteine-rich surface proteins that bind zinc and other heavy metals in vitro. We developed an immunoaffinity chromatographic method to purify a VSP in order to determine its biochemical properties. The sequences of two different proteolytic fragments agreed with the sequence deduced from the cloned gene, and amino-terminal sequence indicated the removal of a 14-residue signal peptide, consistent with the transport of VSP to the cell surface. The protein is not glycosylated and has an isoelectric point of 5.3. X-ray microanalyses indicated that the major metals in Giardia trophozoites, as well as purified VSP, are zinc and iron. The zinc concentration in Giardia cells was found to be 0.43 mM and the iron concentration 0.80 mM when compared with standard samples (zinc) or calculated from a known physical constants (iron). We propose that metal coordination stabilizes VSPs, rendering them resistant to proteolytic attack in the upper small intestine. Moreover, the ability to bind ions by Giardia may play a role in nutritional deficiency and/or malabsorption in heavily infected persons.
Highlights
Giardia lamblia is a binucleate flagellated protozoan that causes acute and chronic intestinal infections in humans and other vertebrates [1]
The mechanism by which Giardia modulates the expression of different VSP genes, and thereby effects antigenic variation, is unknown
Th e surface loca tion, a bun dance, an d capacity for antigenic variability ofVSPs suggest an important role for these protein s in the interactio n bet ween the parasite an d immune and non immune compo nents of the host small in testine [3,4,5, 12,13,14]
Summary
13807-13813, 1995 Printed in U.S.A. Purification of a Variant-specific Surface Protein of Giardia lamblia and Characterization of its Metal-binding Properties*. An intestinal parasite of humans and other vertebrates, undergoes surface antigenic variation by modulating the expression ofdifferent variant-specific surface proteins (VSP). VSPs are cysteine-rich surface proteins that bind zinc and other heavy metals in vitro. The entire surface of a Giardia trophozoite, including the adhesive disk and flagella, is covered by a protein coat [3, 4] composed of a single variant-specific surface protein (VSp)l [5] During trophozoite growth this VSP may be replaced with another antigenically distinct VSP [6]. Consistent with our previous metalbinding studies, we confirm that native VSP binds zinc and iron, most likely by coordination to cysteinyl sulfurs
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