Human SETPT4: heterologoes expression, Purification and biophysical characterization

Septins form a class of eukaryoyic guanine nucleotide-binding proteins that were first identified in budding yeast. Septins purified from yeast, Drosophila and mammalian brain form filaments, however the mechanism by which the filaments assemble is unclear. Septins have a highly conserved structure, which includes a central GTP-binding domain, a variable N-terminal region, and most septins also contain a coiled coil domain at the Cterminus. Bradeion p is one of the splice variants of the human septin gene, SEPT4, recently isolated by expression screening of an adult human brain cDNA library. The Bradeion gene resides at 17q23, and has been shown to present specific expression in both human colorectal cancer, urologic cancers and malignant melanoma. In order to characterize the GTPase activity of Bradeion Β , the protein was successfully expressed in E. coli and purified. The recombinant protein was characterized by circular dichroism (CD), dynamic light scattering (DLS) and a novel non-radioactive enzyme assay, which utilizes capillary electrophoresis (EC) to monitor GTP hydrolysis. The CD spectrum exhibited the typical shape characteristic of the presence of helical elements of secondary structure and the DLS pattern was indicative of a monodisperse solution, which was readily crystallized in the presence of PEG6000. GTP hydrolysis was shown to be Mg2+ dependent within the low millimolar range but at 5 mM was inhibitory. In order to characterize the predicted domains of Bradeion Β, these defined regions were successfully expressed in E. cozi and purified. The CD spectrum of CF exhibited the shape typically found for non-regular structure. The results of fluorescence spectroscopy, gel filtration (SEC) and NMR-600MHz also corroborate with the CD results indicating an irregular structure. The fusion protein 6xHis-DGTPase exhibited a CD spectrum with the typical shape characteristic of the presence of helical elements but was show to be instable at high concentrations in the absence of imidazole. To characterize the GTPase activity of the fusion protein GST+DGTPase, the CE technique was used to monitor GTP hydrolysis. Analysis by CE showed that GST+DGTPase was functional, since both GTP and ATP hydrolysis was observed in a Mg2+ dependent manner. This work provides novel approaches, which should aid in the fbture study of the structure and fùnction of Bradeion Α e Β, others septins and related GTPases. (AU)