Gabrielle Zeder‐Lutz scite author profile

Arthritis in the K/BxN mouse model is provoked by pathogenic antibodies (Abs) directed against a ubiquitously expressed protein, glucose-6-phosphate isomerase (GPI). To begin dissecting the repertoire of arthritogenic immunoglobulins (Igs) in the K/BxN model, and to provide a basis for comparison with RA patientswe have generated anti-GPI monoclonal Abs (mAbs) from spontaneously activated B cells in the lymphoid organs of arthritic mice. B cell clones with anti-GPI specificities were present at extraordinarily high frequencies in the spleen, and less frequently in other lymphoid organs and in the synovial fluid. None of the anti-GPI mAbs induced arthritis when injected individually into healthy recipients, but most were effective when combined in pairs or larger pools. Arthritogenic combinations depended on mAbs of the IgG1 isotype, which bound to GPI with Kd in the 10−9 M range, with no indication of cooperative binding between complementing pairs. Pathogenicity was not associated with recognition of a particular epitope, but the ability to form mAb/GPI multimers by simultaneous recognition of different epitopes was clearly required, consistent with the known role of complement and FcRs in this model. Sequence analysis revealed structural similarities amongst the mAbs, indicating that a particular subset of B cells may evade tolerance in K/BxN mice, and that affinity maturation by somatic mutation likely takes place. These results confirm that GPI itself, rather than a cross-reactive molecule, is the target of pathogenic Igs.

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Enhancing functional production of G protein‐coupled receptors in Pichia pastoris to levels required for structural studies via a single expression screen

André

et al. 2006

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We have optimized the expression level of 20 mammalian G protein-coupled receptors (GPCRs) in the methylotrophic yeast Pichia pastoris. We found that altering expression parameters, including growth temperature, and supplementation of the culture medium with specific GPCR ligands, histidine, and DMSO increased the amount of functional receptor, as assessed by ligand binding, by more than eightfold over standard expression conditions. Unexpectedly, we found that the overall amount of GPCR proteins expressed, in most cases, varied only marginally between standard and optimized expression conditions. Accordingly, the optimized expression conditions resulted in a marked fractional increase in the ratio of ligand binding-competent receptor to total expressed receptor. The results of this study suggest a general approach for increasing yields of functional mammalian GPCRs severalfold over standard expression conditions by using a set of optimized expression condition parameters that we have characterized for the Pichia expression system. Overall, we have more than doubled the number of GPCR targets that can be produced in our laboratories in sufficient amounts for structural studies.

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Structural genomics on membrane proteins: comparison of more than 100 GPCRs in 3 expression systems

Lundström¹,

Wagner²,

Reinhart

et al. 2006

J Struct Funct Genomics

116

112

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Production of recombinant receptors has been one of the major bottlenecks in structural biology on G protein-coupled receptors (GPCRs). The MePNet (Membrane Protein Network) was established to overexpress a large number of GPCRs in three major expression systems, based on Escherichia coli, Pichia pastoris and Semliki Forest virus (SFV) vectors. Evaluation by immunodetection demonstrated that 50% of a total of 103 GPCRs were expressed in bacterial inclusion bodies, 94% in yeast cell membranes and 95% in SFV-infected mammalian cells. The expression levels varied from low to high and the various GPCR families and subtypes were analyzed for their expressability in each expression system. More than 60% of the GPCRs were expressed at milligram levels or higher in one or several systems, compatible to structural biology applications. Functional activity was determined by binding assays in yeast and mammalian cells and the correlation between immunodetection and binding activity was analyzed.

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Pathogenic and Non-pathogenic Polyglutamine Tracts Have Similar Structural Properties: Towards a Length-dependent Toxicity Gradient

Klein

Pastore²,

Masino³

et al. 2007

Journal of Molecular Biology

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