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Xiaotian Zhong,
Elizabeth Kieras,
Eric Sousa,
Aaron D' Antona,
J Christian Baber,
Tao He,
Joel Desharnais,
Lauren Wood,
Deborah Luxenberg,
Mark Stahl, Ron Kriz,
Laura Lin,
Will Somers,
Lori J Fitz,
Jill F Wright
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ABSTRACT: Protein biosynthesis and extracellular secretion are essential biological processes for therapeutic protein production in mammalian cells, which offer capacity for correct folding and proper post-translational modifications. In this study, we have generated a bispecific therapeutic fusion protein in mammalian cells by combining a peptide and an antibody into a single open reading frame. A neutralizing peptide directed against interleukin-17A (IL17A) was genetically fused to the N-termini of an anti-IL22 antibody, through either the light chain, heavy chain, or both chains. While the resulting fusion proteins bound and inhibited IL22 with the same affinity and potency as the unmodified anti-IL22 antibody, the peptide modality in the fusion scaffold was not active in the cell-based assay due to the N-terminal degradation. When a glutamine residue was introduced at the N-terminus which can be cyclized to form pyroglutamate in mammalian cells, the IL17A neutralization activity of the fusion protein was restored. Interestingly, the mass spectroscopic analysis of the purified fusion protein revealed an unexpected O-linked glycosylation modification at threonine 5 of the anti-IL17A peptide. Subsequent removal of this post-translational modification by site-directed mutagenesis drastically enhanced the IL17A binding affinity and neutralization potency for the resulting fusion protein. These results provide direct experimental evidence that post-translational modifications during protein biosynthesis along secretory pathways play critical roles in determining the structure and function of therapeutic proteins produced by mammalian cells. The newly engineered peptide-antibody genetic fusion is promising for therapeutically targeting multiple antigens in a single antibody-like molecule.
Journal of Biological Chemistry 11/2012; · 4.77 Impact Factor
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ABSTRACT: Advances in genomics and proteomics have generated the needs for the efficient identification of key residues for structure and function of target proteins. Here we report the utilization of a new residue-screening approach, which combines a mammalian high-throughput transient expression system with a PCR-based expression cassette, for the study of the post-translational modification. Applying this approach results in a quick identification of essential N-glycosylation sites of a heavily glycosylated neuroglycoprotein Lingo-1, which are sufficient for the support of its surface expression. These key N-glycosylated sites uniquely locate on the concave surface of the elongated arc-shape structure of the leucine-rich repeat domain. The swift residue-screening approach may provide a new strategy for structural and functional analysis.
FEBS letters 04/2009; 583(6):1034-8. · 3.54 Impact Factor
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ABSTRACT: Bruton's tyrosine kinase (Btk) plays a central role in signal transduction pathways regulating survival, activation, proliferation, and differentiation of B-lineage lymphoid cells. A number of cell signaling studies clearly show that Btk is activated by Lyn, a Src family kinase, through phosphorylation on activation loop tyrosine 551 (Y(551)). However, the detailed molecular mechanism regulating Btk activation remains unclear. In particular, we do not fully understand the correlation of kinase activity with Y(551) phosphorylation, and the role of the noncatalytic domains of Btk in the activation process. Insect cell expressed full-length Btk is enzymatically active, but a truncated version of Btk, composed of only the kinase catalytic domain, is largely inactive. Further characterization of both forms of Btk by mass spectrometry showed partial phosphorylation of Y(551) of the full-length enzyme and none of the truncated kinase domain. To determine whether the lack of activity of the kinase domain was due to the absence of Y(551) phosphorylation, we developed an in vitro method to generate Y(551) monophosphorylated Btk kinase domain fragment using the Src family kinase Lyn. Detailed kinetic analyses demonstrated that the in vitro phosphorylated Btk kinase domain has a similar activity as the full-length enzyme while the unphosphorylated kinase domain has a very low k(cat) and is largely inactive. A divalent magnesium metal dependence study established that Btk requires a second magnesium ion for activity. Furthermore, our analysis revealed significant differences in the second metal-binding site among the kinase domain and the full-length enzyme that likely account for the difference in their catalytic profile. Taken together, our study provides important mechanistic insights into Btk kinase activity and phosphorylation-mediated regulation.
Biochemistry 03/2009; 48(9):2021-32. · 3.42 Impact Factor
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Andrea M Olland,
James Strand,
Eleonora Presman,
Robert Czerwinski,
Diane Joseph-McCarthy,
Rustem Krykbaev,
Gerhard Schlingmann,
Rajiv Chopra,
Laura Lin,
Margaret Fleming, Ron Kriz,
Mark Stahl,
William Somers,
Lori Fitz,
Lidia Mosyak
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ABSTRACT: Acidic mammalian chitinase (AMCase) is a mammalian chitinase that has been implicated in allergic asthma. One of only two active mammalian chinases, AMCase, is distinguished from other chitinases by several unique features. Here, we present the novel structure of the AMCase catalytic domain, both in the apo form and in complex with the inhibitor methylallosamidin, determined to high resolution by X-ray crystallography. These results provide a structural basis for understanding some of the unique characteristics of this enzyme, including the low pH optimum and the preference for the beta-anomer of the substrate. A triad of polar residues in the second-shell is found to modulate the highly conserved chitinase active site. As a novel target for asthma therapy, structural details of AMCase activity will help guide the future design of specific and potent AMCase inhibitors.
Protein Science 02/2009; 18(3):569-78. · 2.80 Impact Factor
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ABSTRACT: Tissue specific amplification of glucocorticoid action through NADPH-dependent reduction of inactive glucocorticoid precursors by 11beta-hydroxysteroid dehydrogenase (11beta-HSD1) contributes to the development of visceral obesity, insulin resistance and Type 2 Diabetes. Hexose-6-phosphate dehydrogenase (H6PDH) is believed to supply NADPH for the reductase activity of 11beta-HSD1 in the lumen of the endoplasmic reticulum (ER), where the two enzymes are co-localized. We report here expression and purification of full-length and truncated N-terminal domain (NTD) of H6PDH in a mammalian expression system. Interestingly, both full-length H6PDH and the truncated NTD are secreted into the culture medium in the absence of 11beta-HSD1. Purified full-length H6PDH is a bi-functional enzyme with glucose-6-phosphate dehydrogenase (G6PDH) activity as well as 6-phosphogluconolactonase (6PGL) activity. Using co-immunoprecipitation experiments with purified H6PDH and 11beta-HSD1, and with cell lysates expressing H6PDH and 11beta-HSD1, we observe direct physical interaction between the two enzymes. We also show the modulation of 11beta-HSD1 directionality by H6PDH using overexpression and siRNA knockdown systems. The NTD retains the ability to interact with 11beta-HSD1 physically as well as modulate 11beta-HSD1 directionality indicating that the NTD of H6PDH is sufficient for the regulation of the 11beta-HSD1 activity.
Archives of Biochemistry and Biophysics 01/2009; 483(1):45-54. · 2.93 Impact Factor
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ABSTRACT: CD39 is a prototype member of the ecto-nucleoside triphosphate diphosphohydrolase family that hydrolyzes extracellular nucleoside diphosphates and triphosphates in the presence of divalent cations. Here, the expression, purification and crystallization of the ecto-enzymatic domain of rat CD39, sCD39, are described. The 67 kDa secreted soluble glycoprotein was recombinantly overexpressed in a glycosylation mutant CHO line, Lec.3.2.8.1, and purified from conditioned media. Diffraction-quality crystals of sCD39 were produced by the vapor-diffusion method using PEG 3350 and ammonium dihydrogen phosphate as precipitants. The enzyme crystallized in a primitive trigonal form in space group P3(2), with unit-cell parameters a = b = 118.1, c = 81.6 A and with two sCD39 copies in the asymmetric unit. Several low- to medium-resolution diffraction data sets were collected using an in-house X-ray source. Analysis of the intensity statistics showed that the crystals were invariably merohedrally twinned with a high twin fraction. For initial phasing, a molecular-replacement search was performed against the complete 3.2 A data set using a maximum-likelihood molecular-replacement method as implemented in Phaser. The initial model of the two sCD39 monomers was placed into the P3(2) lattice and rigid-body refined and position-minimized with PHENIX.
Acta Crystallographica Section F Structural Biology and Crystallization Communications 12/2008; 64(Pt 11):1063-5. · 0.51 Impact Factor
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ABSTRACT: GPIbalpha is an integral membrane protein of the GPIb-IX-V complex found on the platelet surface that interacts with the A1 domain of von Willebrand factor (vWF-A1). The interaction of GPIbalpha with vWF-A1 under conditions of high shear stress is the first step in platelet-driven thrombus formation. Phage display was used to identify peptide antagonists of the GPIbalpha-vWF-A1 interaction. Two nine amino acid cysteine-constrained phage display libraries were screened against GPIbalpha revealing peptides that formed a consensus sequence. A peptide with sequence most representative of the consensus, designated PS-4, was used as the basis for an optimized library. The optimized selection identified additional GPIbalpha binding peptides with sequences nearly identical to the parent peptide. Surface plasmon resonance of the PS-4 parent and two optimized synthetic peptides, OS-1 and OS-2, determined their equilibrium dissociation GPIbalpha binding constants ( K Ds) of 64, 0.74, and 31 nM, respectively. Isothermal calorimetry corroborated the K D of peptide PS-4 with a resulting affinity value of 68 nM. An ELISA demonstrated that peptides PS-4, OS-1, and OS-2 competitively inhibited the interaction between the vWF-A1 domain and GPIbalpha-Fc in a concentration-dependent manner. All three peptides inhibited GPIbalpha-vWF-mediated platelet aggregation induced under high shear conditions using the platelet function analyzer (PFA-100) with full blockade observed at 150 nM for OS-1. In addition, OS-1 blocked ristocetin-induced platelet agglutination of human platelets in plasma with no influence on platelet aggregation induced by several agonists of alternative platelet aggregation pathways, demonstrating that this peptide specifically disrupted the GPIbalpha-vWF-A1 interaction.
Biochemistry 05/2008; 47(16):4674-82. · 3.42 Impact Factor
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ABSTRACT: P-Selectin glycoprotein ligand-1 (PSGL-1) is a mucin-like glycoprotein expressed on the surface of leukocytes that serves as the major ligand for the selectin family of adhesion molecules and functions in leukocyte tethering and rolling on activated endothelium and platelets. Previous studies have implicated the highly conserved cytoplasmic domain of PSGL-1 in regulating outside-in signaling of integrin activation. However, molecules that physically and functionally interact with this domain are not completely defined. Using a yeast two-hybrid screen with the cytoplasmic domain of PSGL-1 as bait, a novel protein designated selectin ligand interactor cytoplasmic-1 (SLIC-1) was isolated. Computer-based homology search revealed that SLIC-1 was the human orthologue for the previously identified mouse sorting nexin 20. Direct interaction between SLIC-1 and PSGL-1 was specific as indicated by co-immunoprecipitation and motif mapping. Colocalization experiments demonstrated that SLIC-1 contains a Phox homology domain that binds phosphoinositides and targets the PSGL-1/SLIC-1 complex to endosomes. Deficiency in the murine homologue of SLIC-1 did not modulate PSGL-1-dependent signaling nor alter neutrophil adhesion through PSGL-1. We conclude that SLIC-1 serves as a sorting molecule that cycles PSGL-1 into endosomes with no impact on leukocyte recruitment.
European Journal of Immunology 03/2008; 38(2):550-64. · 5.10 Impact Factor
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Ulrich Y. Schaff,
Heather H. Shih,
Meike Lorenz,
Dianne Sako, Ron Kriz,
Kim Milarski,
Brian Bates,
Boris Tchernychev,
Gray D. Shaw,
Scott I. Simon Prof,
Scott I. Simon
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ABSTRACT: P-Selectin glycoprotein ligand-1 (PSGL-1) is a mucin-like glycoprotein expressed on the surface of leukocytes that serves as the major ligand for the selectin family of adhesion molecules and functions in leukocyte tethering and rolling on activated endothelium and platelets. Previous studies have implicated the highly conserved cytoplasmic domain of PSGL-1 in regulating outside-in signaling of integrin activation. However, molecules that physically and functionally interact with this domain are not completely defined. Using a yeast two-hybrid screen with the cytoplasmic domain of PSGL-1 as bait, a novel protein designated selectin ligand interactor cytoplasmic-1 (SLIC-1) was isolated. Computer-based homology search revealed that SLIC-1 was the human orthologue for the previously identified mouse sorting nexin 20. Direct interaction between SLIC-1 and PSGL-1 was specific as indicated by co-immunoprecipitation and motif mapping. Colocalization experiments demonstrated that SLIC-1 contains a Phox homology domain that binds phosphoinositides and targets the PSGL-1/SLIC-1 complex to endosomes. Deficiency in the murine homologue of SLIC-1 did not modulate PSGL-1-dependent signaling nor alter neutrophil adhesion through PSGL-1. We conclude that SLIC-1 serves as a sorting molecule that cycles PSGL-1 into endosomes with no impact on leukocyte recruitment.
European Journal of Immunology 01/2008; 38(2):550 - 564. · 5.10 Impact Factor
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ABSTRACT: Secreted Frizzled-related protein-1 (sFRP-1) belongs to a class of extracellular antagonists that modulate Wnt signaling pathways by preventing ligand-receptor interactions among Wnts and Frizzled membrane receptor complexes. sFRP-1 and Wnts are heparin-binding proteins, and their interaction can be stabilized by heparin in vitro. Here we report that heparin can specifically enhance recombinant sFRP-1 accumulation in a cell type-specific manner. The effect requires O-sulfation in heparin, and involves fibroblast growth factor-2 as well as fibroblast growth factor receptor-1. Interestingly, further investigation uncovers that heparin can also affect the post-translational modification of sFRP-1. We demonstrate that sFRP-1 is post-translationally modified by tyrosine sulfation at tyrosines 34 and 36, which is inhibited by the treatment of heparin. The results suggest that accumulation of sFRP-1 induced by heparin is in part due to the relative stabilization of unsulfated sFRP-1 and the direct stabilization by heparin. The study has revealed a multifaceted regulation on sFRP-1 protein by heparin.
Journal of Biological Chemistry 08/2007; 282(28):20523-33. · 4.77 Impact Factor
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Lidia Mosyak,
Andrew Wood,
Brian Dwyer,
Madhavan Buddha,
Mark Johnson,
Ann Aulabaugh,
Xiaotian Zhong,
Eleonora Presman,
Susan Benard,
Kerry Kelleher,
James Wilhelm,
Mark L Stahl, Ron Kriz,
Ying Gao,
Zixuan Cao,
Huai-Ping Ling,
Menelas N Pangalos,
Frank S Walsh,
William S Somers
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ABSTRACT: Nogo receptor (NgR)-mediated control of axon growth relies on the central nervous system-specific type I transmembrane protein Lingo-1. Interactions between Lingo-1 and NgR, along with a complementary co-receptor, result in neurite and axonal collapse. In addition, the inhibitory role of Lingo-1 is particularly important in regulation of oligodendrocyte differentiation and myelination, suggesting that pharmacological modulation of Lingo-1 function could be a novel approach for nerve repair and remyelination therapies. Here we report on the crystal structure of the ligand-binding ectodomain of human Lingo-1 and show it has a bimodular, kinked structure composed of leucine-rich repeat (LRR) and immunoglobulin (Ig)-like modules. The structure, together with biophysical analysis of its solution properties, reveals that in the crystals and in solution Lingo-1 persistently associates with itself to form a stable tetramer and that it is its LRR-Ig-composite fold that drives such assembly. Specifically, in the crystal structure protomers of Lingo-1 associate in a ring-shaped tetramer, with each LRR domain filling an open cleft in an adjacent protomer. The tetramer buries a large surface area (9,200 A2) and may serve as an efficient scaffold to simultaneously bind and assemble the NgR complex components during activation on a membrane. Potential functional binding sites that can be identified on the ectodomain surface, including the site of self-recognition, suggest a model for protein assembly on the membrane.
Journal of Biological Chemistry 12/2006; 281(47):36378-90. · 4.77 Impact Factor
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ABSTRACT: NIMA (never in mitosis arrest)-related kinase 2 (Nek2) is a serine/threonine kinase required for centrosome splitting and bipolar spindle formation during mitosis. Currently, two in vitro kinase assays are commercially available: (i) a radioactive assay from Upstate Biotechnology and (ii) a nonradioactive fluorescence resonance energy transfer (FRET) assay from Invitrogen. However, due to several limitations such as radioactive waste management and lower sensitivity, a need for more robust nonradioactive assays would be ideal. Accordingly, we have developed four quantitative and sensitive nonradioactive Nek2 in vitro kinase assays: (i) a dissociation-enhanced lanthanide fluorescence immunoassay (DELFIA) using peptides identified from a physiologically relevant protein substrate, (ii) DELFIA using Nek2 itself, (iii) a homogeneous time-resolved FRET assay termed LANCE, and (iv) A method of detecting phosphorylated products by HPLC. The DELFIA and LANCE assays are robust in that they generated more than 10-fold and 20-fold increases in signal-to-noise ratios, respectively, and are amenable to robotic high-throughput screening platforms. Validation of all four assays was confirmed by identifying a panel of small molecule ATP competitive inhibitors from an internal corporate library. The most potent compounds consistently demonstrated less than 100 nM activity regardless of the assay format and therefore were complementary. In summary, the Nek2 in vitro time-resolved FRET kinase assays reported are sensitive, quantitative, reproducible and amenable to high-throughput screening with improved waste management over radioactive assays.
Analytical Biochemistry 12/2006; 358(1):59-69. · 3.00 Impact Factor
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Analytical Biochemistry 05/2006; 351(1):158-60. · 3.00 Impact Factor
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Robert Czerwinski,
Ann Aulabaugh,
Rita M Greco,
Stephane Olland,
Karl Malakian,
Scott Wolfrom,
Laura Lin, Ron Kriz,
Mark Stahl,
Ying Huang,
Lin Liu,
Divya Chaudhary
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ABSTRACT: Protein kinase C theta (PKCtheta), a member of the Ca(2+)-independent novel subfamily of PKCs, is required for T-cell receptor (TCR) signaling and IL2 production. PKCtheta-deficient mice have impaired Th2 responses in a murine ova-induced asthma model, while Th1 responses are normal. As an essential component of the TCR signaling complex, PKCtheta is a unique T-cell therapeutic target in the specific treatment of T-cell-mediated diseases. We report here the PKCtheta autophosphorylation characteristics and elucidation of the catalytic mechanism of the PKCtheta kinase domain using steady-state kinetics. Key phosphorylated residues of the active PKCtheta kinase domain expressed in Escherichia coli were characterized, and mutational analysis of the kinase domain was performed to establish the autophosphorylation and kinase activity relationships. Initial velocity, product inhibition, and dead-end inhibition studies provided assignments of the kinetic mechanism of PCKtheta(362)(-)(706) as ordered, wherein ATP binds kinase first and ADP is released last. Effects of solvent viscosity and ATPgammaS on PKCtheta catalysis demonstrated product release is partially rate limiting. Our studies provide important mechanistic insights into kinase activity and phosphorylation-mediated regulation of the novel PKC isoform, PKCtheta. These results should aid the design and discovery of PKCtheta antagonists as therapeutics for modulating T-cell-mediated immune and respiratory diseases.
Biochemistry 08/2005; 44(28):9563-73. · 3.42 Impact Factor
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Robert Czerwinski,
Ann Aulabaugh,
Rita M. Greco,
Stephane Olland,
Karl Malakian,
Scott Wolfrom,
Laura Lin, Ron Kriz,
Mark Stahl,
Ying Huang,
Lin Liu,
Divya Chaudhary
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ABSTRACT: Protein kinase C θ (PKCθ), a member of the Ca2+-independent novel subfamily of PKCs, is required for T-cell receptor (TCR) signaling and IL2 production. PKCθ-deficient mice have impaired Th2 responses in a murine ova-induced asthma model, while Th1 responses are normal. As an essential component of the TCR signaling complex, PKCθ is a unique T-cell therapeutic target in the specific treatment of T-cell-mediated diseases. We report here the PKCθ autophosphorylation characteristics and elucidation of the catalytic mechanism of the PKCθ kinase domain using steady-state kinetics. Key phosphorylated residues of the active PKCθ kinase domain expressed in Escherichia coli were characterized, and mutational analysis of the kinase domain was performed to establish the autophosphorylation and kinase activity relationships. Initial velocity, product inhibition, and dead-end inhibition studies provided assignments of the kinetic mechanism of PCKθ362-706 as ordered, wherein ATP binds kinase first and ADP is released last. Effects of solvent viscosity and ATPγS on PKCθ catalysis demonstrated product release is partially rate limiting. Our studies provide important mechanistic insights into kinase activity and phosphorylation-mediated regulation of the novel PKC isoform, PKCθ. These results should aid the design and discovery of PKCθ antagonists as therapeutics for modulating T-cell-mediated immune and respiratory diseases.
06/2005;
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ABSTRACT: CD39 is a membrane-bound ecto-nucleoside triphosphate diphosphohydrolase that is involved in the regulation of purinergic signaling. It has been previously reported that N-linked glycosylation is essential for the surface localization of CD39 and for its cellular activity. Here we have addressed the roles of different stages of N-linked glycosylation on CD39's activity and surface expression by using various glycosylation inhibitors, glycosylation deficient CHO cells, and oligosaccharide removal enzymes. The results demonstrate that endoplasmic reticulum glycosylation is required for protein folding and essential for functional surface expression of CD39, while Golgi glycosylation is less important. The study has also shown that N-linked glycosylation of CD39 is dispensable for the activity after the protein is properly folded and targeted.
Biochimica et Biophysica Acta 06/2005; 1723(1-3):143-50. · 4.66 Impact Factor
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ABSTRACT: P(2)Y(12) receptor is a G(i)-coupled adenosine diphosphate (ADP) receptor with a critical role in platelet aggregation. It contains two potential N-linked glycosylation sites at its extra cellular amino-terminus, which may modulate its activity. Studies of both tunicamycin treatment and site-directed mutagenesis have revealed a dispensable role of the N-linked glycosylation in the receptor's surface expression and ligand binding activity. However, the non-glycosylated P(2)Y(12) receptor is defective in the P(2)Y(12)-mediated inhibition of the adenylyl cyclase activity. Thus the study uncovers an unexpected vital role of N-linked glycans in receptor's signal transducing step but not in surface expression or ligand binding.
FEBS Letters 04/2004; 562(1-3):111-7. · 3.54 Impact Factor
