Xiaoguang Cao scite author profile

The dissociation of apo-and metal-bound human copper-zinc superoxide dismutase (SOD1) dimers induced by the chaotrope guanidine hydrochloride (GdnHCl) or the reductant Tris(2-carboxyethyl)phosphine (TCEP) has been analyzed using analytical ultracentrifugation. Global fitting of sedimentation equilibrium data under native solution conditions (without GdnHCl or TCEP) demonstrate that both the apo-and metal-bound forms of SOD1 are stable dimers. Sedimentation velocity experiments show that apo-SOD1 dimers dissociate cooperatively over the range 0.5-1.0 M GdnHCl. In contrast, metal-bound SOD1 dimers possess a more compact shape and dissociate at significantly higher GdnHCl concentrations (2.0 -3.0 M). Reduction of the intrasubunit disulfide bond within each SOD1 subunit by 5-10 mM TCEP promotes dissociation of apo-SOD1 dimers, whereas the metal-bound enzyme remains a stable dimer under these conditions. The Cys-57 3 Ser mutant of SOD1, a protein incapable of forming the intrasubunit disulfide bond, sediments as a monomer in the absence of metal ions and as a dimer when metals are bound. Taken together, these data indicate that the stability imparted to the human SOD1 dimer by metal binding and the formation of the intrasubunit disulfide bond are mediated by independent molecular mechanisms. By combining the sedimentation data with previous crystallographic results, a molecular explanation is provided for the existence of different SOD1 macromolecular shapes and multiple SOD1 dimeric species with different stabilities.

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Genetic and Molecular Basis of Drug Resistance and Species-Specific Drug Action in Schistosome Parasites

Valentim¹,

Cioli²,

Chevalier³

et al. 2013

Science

150

232

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Oxamniquine resistance evolved in the human blood fluke (Schistosoma mansoni) in Brazil in the 1970s. We crossed parental parasites differing ~500-fold in drug response, determined drug sensitivity and marker segregation in clonally-derived F2s, and identified a single QTL (LOD=31) on chromosome 6. A sulfotransferase was identified as the causative gene using RNAi knockdown and biochemical complementation assays and we subsequently demonstrated independent origins of loss-of-function mutations in field-derived and laboratory-selected resistant parasites. These results demonstrate the utility of linkage mapping in a human helminth parasite, while crystallographic analyses of protein-drug interactions illuminate the mode of drug action and provide a framework for rational design of oxamniquine derivatives that kill both S. mansoni and S. haematobium, the two species responsible for >99% of schistosomiasis cases worldwide.

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Macrophage polarization in the maculae of age‐related macular degeneration: A pilot study

Cao

Shen

Patel

et al. 2011

Pathology International

191

163

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Macrophages can be polarized to exhibit either pro-inflammatory M1 or pro-angiogenic M2 phenotypes, but have high phenotypic plasticity. This pilot study investigated macrophage polarization in the macular retina and choroid of age-related macular degeneration (AMD) and non-AMD subjects, as well as in AMD choroidal neovascular membranes (CNVM). All specimens were evaluated for routine histopathology. Quantitative real-time polymerase chain reaction for representative M1 (CXCL11) and M2 (CCL22) transcripts were performed on macular choroidal trephines (MCT) of 19 AMD and nine non-AMD eye bank eyes, on the microdissected macular retinal cells from the archived slides of five geographic atrophic AMD, five exudative/neovascular AMD, and eight normal autopsied eyes, and on microdissected inflammatory cells from two surgically removed CNVM that did not respond to anti-vascular endothelial growth factor (VEGF) therapy. High M2-chemokine transcript and a low ratio of M1 to M2 chemokine transcript were found in aging non-AMD MCT. Advanced AMD maculae had a higher M1 to M2 chemokine transcript ratio compared to normal autopsied eyes. Macrophages in the two CNVM of patients unresponsive to anti-VEGF therapy were polarized toward either M1 or M2 phenotypes. The number of M2 macrophages was increased compared to M1 macrophages in normal aging eyes. A pathological shift of macrophage polarization may play a potential role in AMD pathogenesis.

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Porcine kallikrein‐4 activation, glycosylation, activity, and expression in prokaryotic and eukaryotic hosts

Ryu

Yamakoshi

et al. 2002

European J Oral Sciences

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Kallikrein-4 (KLK4) is a serine proteinase believed to be important in the normal development of dental enamel. We isolated native KLK4 from developing pig enamel and expressed four recombinant forms. Pig KLK4 was expressed in bacteria with and without the propeptide, and in two eukaryotic systems. Recombinant pig KLK4 was secreted as a zymogen by '293' cells and purified. The proKLK4 was activated in vitro by thermolysin and recombinant pig enamelysin, but not by native KLK4. These results were confirmed using a fluorescent peptide analog of the KLK4 propeptide-enzyme junction. Native KLK4 appears as a doublet at 37 kDa and 34 kDa on sodium dodecyl sulfate-polyacrylamide gel electrophoresis. Removal of N-linked oligosaccharides by digestion with deglycosidase-F reduced the doublet to a single band at approximately 28 kDa, demonstrating that the active enzyme is glycosylated, and that the 37 kDa and 34 kDa forms differ only in their number of glycosylations. Deglycosylation was also associated with a loss of proteolytic activity. We digested recombinant pig amelogenin with native KLK4 and characterized the cleavage products by N-terminal sequencing and mass spectrometry. Eleven cleavage sites in the amelogenin protein were identified, demonstrating that KLK4 degrades amelogenin and is likely to participate in the degradation of enamel proteins in vivo.

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Xiaoguang Cao

Dissociation of Human Copper-Zinc Superoxide Dismutase Dimers Using Chaotrope and Reductant

Genetic and Molecular Basis of Drug Resistance and Species-Specific Drug Action in Schistosome Parasites

Macrophage polarization in the maculae of age‐related macular degeneration: A pilot study

Porcine kallikrein‐4 activation, glycosylation, activity, and expression in prokaryotic and eukaryotic hosts

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