Expression, purification, crystallization and preliminary X-ray diffraction analysis of alpha-11 giardin from Giardia lamblia

Immunolocalization of α18- and α12-giardin in Giardia lamblia trophozoites

To study subcellular localization of α18- and α12-giardin in Giardia lamblia trophozoites, the α18- and α12-giardin genes were amplified from G. lamblia assemblage A, respectively. The PCR products were cloned into the prokaryotic expression vector pET-28a(+), and the positive recombinant plasmids were transformed into E. coli Rosetta (DE3) strain for the expression, and expressed α18- and α12-giardin fusion protein were purified by Ni-Agarose resin, respectively. Mice were immunized with purified fusion proteins for preparation of polyclonal antibody, and then the subcellular localization of α18- and α12-giardin was determined by fluorescence immunoassay. Results showed that the concentrations of purified α18- and α12-giardin fusion proteins were 1.20 and 0.86 mg/ml, respectively. The titers of anti-α18- and anti-α12-giardin polyclonal antibody were both as high as 1:25600 dilutions. Immunofluorescent analysis showed that α18- and α12-giardin proteins were mainly localized at four pairs of flagella and the cytoplasm of G. lamblia trophozoites, suggesting that α18- and α12-giardin are the flagella and cytoplasm-associated proteins, respectively. The above information would lay the foundation for research about the crystal structure and biological function of α18- and α12-giardin.

Apo and calcium-bound crystal structures of Alpha-11 giardin, an unusual annexin from Giardia lamblia

Alpha-11 giardin is a member of the multi-gene alpha-giardin family in the intestinal protozoan, Giardia lamblia. This gene family shares an ancestry with the annexin super family, whose common characteristic is calcium-dependent binding to membranes that contain acidic phospholipids. Several alpha giardins are highly expressed during parasite-induced diarrhea in humans. Despite being a member of a large family of proteins, little is known about the function and cellular localization of alpha-11 giardin, although giardins are often associated with the cytoskeleton. It has been shown that Giardia exhibits high levels of alpha-11 giardin mRNA transcript throughout its life cycle; however, constitutive over-expression of this protein is lethal to the parasite. Determining the three-dimensional structure of an alpha-giardin is essential to identifying functional domains shared in the alpha-giardin family. Here we report the crystal structures of the apo and Ca(2+)-bound forms of alpha-11 giardin, the first alpha giardin to be characterized structurally. Crystals of apo and Ca(2+)-bound alpha-11 giardin diffracted to 1.1 A and 2.93 A, respectively. The crystal structure of selenium-substituted apo alpha-11 giardin reveals a planar array of four tandem repeats of predominantly alpha-helical domains, reminiscent of previously determined annexin structures, making this the highest-resolution structure of an annexin to date. The apo alpha-11 giardin structure also reveals a hydrophobic core formed between repeats I/IV and II/III, a region typically hydrophilic in other annexins. Surprisingly, the Ca(2+)-bound structure contains only a single calcium ion, located in the DE loop of repeat I and coordinated differently from the two types of calcium sites observed in previous annexin structures. The apo and Ca(2+)-bound alpha-11 giardin structures assume overall similar conformations; however, Ca(2+)-bound alpha-11 giardin crystallized in a lower-symmetry space group with four molecules in the asymmetric unit. Vesicle-binding studies suggest that alpha-11 giardin, unlike most other annexins, does not bind to vesicles composed of acidic phospholipids in a calcium-dependent manner.