a structural basis for cellular uptake of gst-fold proteins细胞的结构基础gst-fold蛋白质的吸收.pdfVIP

A Structural Basis for Cellular Uptake of GST-Fold Proteins Melanie J. Morris, Dan Liu, Llara M. Weaver, Philip G. Board, Marco G. Casarotto* The John Curtin School of Medical Research, Australian National University, Canberra, Australian Capital Territory, Australia Abstract It has recently emerged that glutathione transferase enzymes (GSTs) and other structurally related molecules can be translocated from the external medium into many different cell types. In this study we aim to explore in detail, the structural features that govern cell translocation and by dissecting the human GST enzyme GSTM2-2 we quantatively demonstrate that the a-helical C-terminal domain (GST-C) is responsible for this property. Attempts to further examine the constituent helices within GST-C resulted in a reduction in cell translocation efficiency, indicating that the intrinsic GST-C domain structure is necessary for maximal cell translocation capacity. In particular, it was noted that the a-6 helix of GST-C plays a stabilising role in the fold of this domain. By destabilising the conformation of GST-C, an increase in cell translocation efficiency of up to ,2-fold was observed. The structural stability profiles of these protein constructs have been investigated by circular dichroism and differential scanning fluorimetry measurements and found to impact upon their cell translocation efficiency. These experiments suggest that the globular, helical domain in the ‘GST-fold’ structural motif plays a role in influencing cellular uptake, and that changes that affect the conformational stability of GST-C can significantly influence cell translocation efficiency. Citation: Morris MJ, Liu D, Weaver LM, Board PG, Casarotto MG (2011) A Structural Basis for Cellular Uptake of GST-Fold Proteins. PLoS ONE 6(3): e17864. doi:10.1