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ABSTRACT: Electron paramagnetic resonance at 9 and 95 GHz on frozen solutions of the wild-type nitrite reductase (wt NiR) fromAlcaligenes faecalis and on cavity mutants of its type 1 site has been performed to determine copper-hyperfine andg-tensor principal values of the type 1 and the type 2 copper sites. The mutants H145G, H145A, and M150G have a gap in the
first coordination shell of the copper in the type 1 site. The reconsititution of the Cu site of the mutants by means of an
external ligand such as imidazole or chloride was investigated. Information on the electronic structure of the type 1 site
was obtained. Indications were found that the position of the histidine 145 in the native protein is not constrained by the
protein environment but reflects the equilibrium position of this ligand with respect to Cu(II). Furthermore, changes in the
electronic structure at the type 2 site induced by the modification of the type 1 site were detected, providing evidence for
interaction between the two copper sites of the enzyme.
Applied Magnetic Resonance 04/2012; 30(3):417-426. · 0.75 Impact Factor
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ABSTRACT: In mice the majority of the immunoglobulins (Ig) in milk belongs to the IgA class. Prior to its transepithelial transportation into the milk, dimeric IgA (dIgA) is bound to the transmembrane form of the secretory component or polymeric Ig receptor (SC/pIgR). The latter is synthesized in the epithelial cells lining the ducts and alveoli of the mammary gland. A candidate for playing the role of adhesion molecule to primed lymphocytes present in the murine mammary gland might be the mucosal addressin cell adhesion molecule-1 (MAdCAM-1). We studied the correlation between the levels of IgA in colostrum and milk, the number of IgA producing plasma cells in the mammary gland and the expression of MAdCAM-1 in mammary gland endothelial cells during pregnancy and lactation. The relation between the IgA levels in the milk and the expression levels of pIgR in mammary gland epithelial cells was also investigated. We found that the expression of MAdCAM-1 and pIgR starts in early-mid pregnancy; the number of IgA-producing plasma cells and the IgA concentration in milk increase from early lactation onwards. The MAdCAM-1 expression declines during lactation whereas the pIgR levels and IgA-producing plasma cell numbers rise until the end of lactation. Because the MAdCAM-1 level starts to rise several days before the rise of the IgA-producing plasma cell level, MAdCAM-1 cannot be the rate determining factor governing extravasation of primed B cells to the mammary gland. We also conclude that the pIgR is present in sufficient amounts to enable increasing S-IgA secretion into the milk during lactation.
Scandinavian Journal of Immunology 10/2001; 54(3):292-300. · 2.23 Impact Factor
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ABSTRACT: A comparative investigation of the effects of cooling rate and solvent physicochemical properties on the structural heterogeneity of wild-type and disulfide bond depleted azurin (Cys3Ala/Cys26Ala) and of amicyanin has been performed by EPR spectroscopy and computer simulation. By describing the spectral features of the EPR spectra in terms of Gaussian distributions of the components of the g and A tensors of the spin Hamiltonian, we have shown that either the cooling rate or the solvent composition affect the structural heterogeneity of the proteins. Such a heterogeneity has been quantified by the standard deviations sigmag and sigmaA of the parallel components of the axially symmetric tensors. In particular, both parameters become smaller after the slow cooling cycle; such a reduction is more significant when glycerol is added as cosolvent to the protein solutions. The comparison of the deltag and sigmaA values found, for the copper proteins investigated, highlights that the reduction is more marked in the azurins compared to amicyanin and that the Cys3Ala/Cys26Ala azurin mutant has a structural heterogeneity lower than that shown by the wild-type protein. The remarkable similarity of the copper coordination sphere of the proteins suggests a more rigid structure of the azurin protein matrix in the absence of the disulfide bridge compared to wild-type azurin and of amicyanin with respect to both forms of azurin. The former result establishes an important role for the -SS- bond in modulating the flexibility of wild-type azurin.
European Biophysics Journal 08/2001; 30(3):171-8. · 2.14 Impact Factor
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ABSTRACT: In order to investigate the relationship between the rate of protein-protein electron transfer and the structure of the association complex, a dimer of the blue copper protein azurin was constructed and its electron exchange properties were determined. For this purpose, a site for covalent cross-linking was engineered by replacing the surface-exposed asparagine 42 with a cysteine. This mutation enabled the formation of disulfide-linked homo-dimers of azurin. Based on NMR line-broadening experiments, the electron self-exchange (e.s.e.) rate constant for this dimer was determined to be 4.2(+/-0.7) x 10(5)M(-1)s(-1), which is a seven-fold decrease relative to wild-type azurin. This difference is ascribed to a less accessible hydrophobic patch in the dimer. To discriminate between intramolecular electron transfer within a dimer and intermolecular electron transfer between two dimers, the e.s.e. rate constant of (Cu-Cu)-N42C dimers was compared with that of (Zn-Cu)- and (Ag-Cu)-N42C dimers. As Zn and Ag are redox inactive, the intramolecular electron transfer reaction in these latter dimers can be eliminated. The e.s.e. rate constants of the three dimers are the same and an upper limit for the intramolecular electron transfer rate of 10 s(-1) could be determined. This rate is compatible with a Cu-Cu distance of 18 A or more, which is larger than the Cu - Cu distance of 15 A observed in the wild-type crystal structure that shows two monomers that face each other with opposing hydrophobic patches. Modelling of the dimer shows that the Cu-Cu distance should be in the range of 17 A < rCu-Cu < 28 A, which is in agreement with the experimental findings. For efficient electron transfer, it appears crucial that the two molecules interact in the proper orientation. Direct cross-linking may disturb the formation of such an optimal electron transfer complex.
Chemistry 07/2001; 7(11):2398-406. · 5.93 Impact Factor
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ABSTRACT: An electrospray ionisation (ESI) mass spectrometric method for the determination of the free energy (DeltaG) of unfolding of proteins is described. The method was tested using three blue copper proteins: wild type azurin, Cys-3Ala/Cys-26Ala (C3A/C26A) azurin mutant and wild-type amicyanin. The time course of the denaturation process of the proteins dissolved in methanol/water (50:50, v/v, pH 3.5) was followed by recording ESI mass spectra at time intervals. The spectra showed two series of peaks, corresponding to the native holo-protein and the unfolded apo-protein. From the intensity ratio of these two series of peaks at increasing time and at equilibrium, the free energy for the unfolding process for the three proteins could be determined. To evaluate the reliability of the thermodynamic data obtained by the ESI mass spectrometric approach, the denaturation process was followed by UV-VIS spectroscopy. The two sets of data obtained by these independent methods were in good agreement indicating that the ESI-MS approach can be used to obtain reliable quantitative information about the protein unfolding process. In principle, this approach can be applied to other proteins and requires very low amounts of sample, due to the intrinsic sensitivity of mass spectrometry. This may prove particularly useful when the amount of sample available prevents the use of current methods.
Rapid Communications in Mass Spectrometry 02/2001; 15(19):1817-25. · 2.79 Impact Factor
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ABSTRACT: A comparative investigation of the effects of cooling rate and solvent physicochemical properties on the structural heterogeneity of wild-type and disulfide bond depleted azurin (Cys3Ala/Cys26Ala) and of amicyanin has been performed by EPR spectroscopy and computer simulation. By describing the spectral features of the EPR spectra in terms of Gaussian distributions of the components of the g«\mathop{\bf g}\limits^{\leftrightarrow} and A«\mathop{\bf A}\limits^{\leftrightarrow}tensors of the spin Hamiltonian, we have shown that either the cooling rate or the solvent composition affect the structural heterogeneity of the proteins. Such a heterogeneity has been quantified by the standard deviations Cg|| and CA|| of the parallel components of the axially symmetric tensors. In particular, both parameters become smaller after the slow cooling cycle; such a reduction is more significant when glycerol is added as co-solvent to the protein solutions. The comparison of the Cg|| and CA|| values found, for the copper proteins investigated, highlights that the reduction is more marked in the azurins compared to amicyanin and that the Cys3Ala/Cys26Ala azurin mutant has a structural heterogeneity lower than that shown by the wild-type protein. The remarkable similarity of the copper coordination sphere of the proteins suggests a more rigid structure of the azurin protein matrix in the absence of the disulfide bridge compared to wild-type azurin and of amicyanin with respect to both forms of azurin. The former result establishes an important role for the -SS- bond in modulating the flexibility of wild-type azurin.
European Biophysics Journal 01/2001; 30(3):171-178. · 2.14 Impact Factor
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Journal of the American Chemical Society. 01/2000; 122(49):12186-12194.
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ABSTRACT: The disulfide bond connecting Cys-3 and Cys-26 in wild type azurin has been removed to study the contribution of the -SS- bond to the high thermal resistance previously registered for this protein (. J. Phys. Chem. 99:14864-14870). Site-directed mutagenesis was used to replace both cysteines for alanines. The characterization of the Cys-3Ala/Cys-26Ala azurin mutant has been carried out by means of electron paramagnetic resonance spectroscopy at 77 K, UV-VIS optical absorption, fluorescence emission and circular dichroism at room temperature. The results show that the spectral features of the Cys-3Ala/Cys-26Ala azurin resemble those of the wild type azurin, indicating that the double mutation does not affect either the formation of the protein's overall structure or the assembly of the metal-binding site. The thermal unfolding of the Cys-3Ala/Cys-26Ala azurin has been followed by differential scanning calorimetry, optical absorption variation at lambda(max) = 625 nm, and fluorescence emission using 295 nm as excitation wavelength. The analysis of the data shows that the thermal transition from the native to the denaturated state of the modified azurin follows the same multistep unfolding pathway as observed in wild type azurin. However, the removal of the disulfide bridge results in a dramatic reduction of the thermodynamic stability of the protein. In fact, the transition temperatures registered by the different techniques are down-shifted by about 20 degrees C with respect to wild type azurin. Moreover, the Gibbs free energy value is about half of that found for the native azurin. These results suggest that the disulfide bridge is a structural element that significantly contributes to the high stability of wild type azurin.
Biophysical Journal 09/1999; 77(2):1052-63. · 3.65 Impact Factor
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ABSTRACT: Glycogen storage disease type II (GSDII) is caused by lysosomal acid alpha-glucosidase deficiency. Patients have a rapidly fatal or slowly progressive impairment of muscle function. Enzyme replacement therapy is under investigation. For large-scale, cost-effective production of recombinant human acid alpha-glucosidase in the milk of transgenic animals, we have fused the human acid alpha-glucosidase gene to 6.3 kb of the bovine alphaS1-casein gene promoter and have tested the performance of this transgene in mice. The highest production level reached was 2 mg/ml. The major fraction of the purified recombinant enzyme has a molecular mass of 110 kDa and resembles the natural acid alpha-glucosidase precursor from human urine and the recombinant precursor secreted by CHO cells, with respect to pH optimum, Km, Vmax, N-terminal amino acid sequence and glycosylation pattern. The therapeutic potential of the recombinant enzyme produced in milk is demonstrated in vitro and in vivo. The precursor is taken up in a mannose 6-phosphate receptor-dependent manner by cultured fibroblasts, is converted to mature enzyme of 76 kDa and depletes the glycogen deposit in fibroblasts of patients. When injected intravenously, the milk enzyme corrects the acid alpha-glucosidase deficiency in heart and skeletal muscle of GSDII knockout mice.
Human Molecular Genetics 11/1998; 7(11):1815-24. · 7.64 Impact Factor
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A G Bijvoet,
E H van de Kamp,
M A Kroos,
J H Ding,
B Z Yang,
P Visser,
C E Bakker, M P Verbeet,
B A Oostra,
A J Reuser,
A T van der Ploeg
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ABSTRACT: Glycogen storage disease type II (GSDII; Pompe disease), caused by inherited deficiency of acid alpha-glucosidase, is a lysosomal disorder affecting heart and skeletal muscles. A mouse model of this disease was obtained by targeted disruption of the murine acid alpha-glucosidase gene (Gaa) in embryonic stem cells. Homozygous knockout mice (Gaa -/-) lack Gaa mRNA and have a virtually complete acid alpha-glucosidase deficiency. Glycogen-containing lysosomes are detected soon after birth in liver, heart and skeletal muscle cells. By 13 weeks of age, large focal deposits of glycogen have formed. Vacuolar spaces stain positive for acid phosphatase as a sign of lysosomal pathology. Both male and female knockout mice are fertile and can be intercrossed to produce progeny. The first born knockout mice are at present 9 months old. Overt clinical symptoms are still absent, but the heart is typically enlarged and the electrocardiogram is abnormal. The mouse model will help greatly to understand the pathogenic mechanism of GSDII and is a valuable instrument to explore the efficacy of different therapeutic interventions.
Human Molecular Genetics 02/1998; 7(1):53-62. · 7.64 Impact Factor
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ABSTRACT: Enzyme replacement therapy is at present the option of choice for treatment of lysosomal storage diseases. To explore the feasibility of lysosomal enzyme production in milk of transgenic animals, the human acid alpha-glucosidase cDNA was placed under control of the alpha S1-casein promoter and expressed in mice. The milk contained recombinant enzyme at a concentration up to 1.5 micrograms/ml. Enzyme purified from milk of transgenic mice was internalized via the mannose 6-phosphate receptor and corrected enzyme deficiency in fibroblasts from patients. We conclude that transgenically produced human acid alpha-glucosidase meets the criteria for therapeutic application.
Biochimica et Biophysica Acta 09/1996; 1308(2):93-6. · 4.66 Impact Factor
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ABSTRACT: Trans-epithelial transport of polymeric immunoglobulins (pIg) into mucosal and glandular secretions is carried out by the pIg receptor (pIgR). Therefore, expression of the pIgR gene in epithelial cells of mucosal and glandular tissues is an absolute requirement for achieving mucosal immunity. We report the cloning and characterization of the bovine pIgR cDNA. Three overlapping cDNA clones with a total length of 3608 bp yielded an open reading frame encoding a 757-amino-acid (aa) transmembrane (TM) glycoprotein. Although polymorphism was found in two separate clones, Northern blot analysis showed a single pIgR mRNA (approx. 3.8 kb) to be present in the mammary gland, liver, lung, kidney and intestine of a lactating cow. There was no detectable expression of pIgR in the spleen of the same animal. Comparison of the deduced bovine pIgR as sequence with those of rat, mouse, man and rabbit shows that this receptor is highly conserved both in aa sequence and structural organization. The degree of conservation in the TM sequence and the C-terminal cytoplasmic tail, which contains the various signals for intracellular trafficking of the receptor, is 65-73%. We also find a high degree of conservation (61-66%) in the ectoplasmic part of the receptor, known as the secretory component (SC), with an exception for that of the rabbit SC, which is much lower (47%). Among the five Ig-like domains in the SC, the N-terminal domain I, where the primary pIg-binding site is located, showed the highest (72-83%) aa sequence conservation.
Gene 11/1995; 164(2):329-33. · 2.34 Impact Factor
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ABSTRACT: In previous studies [Hui and de Boer, Proc. Natl. Acad. Sci. USA 84 (1987) (1987) 4762-4766; Hui et al., Methods Enzymol. 153 (1987) 432-452], it was shown that efficient translation of the human growth hormone mRNA (hGH) species having an altered Shine-Dalgarno (SD) sequence, 5'-GUGUG-3', depends on the presence of specialized (spc) ribosomes containing the modified anti-SD (ASD) sequence, 5'-CACAC-3', near the 3' end of their 16S rRNA. In spite of the altered ASD sequence, spc ribosomes were not found to be committed exclusively to the translation of the hGH mRNA; no more than 30% of the total amount of protein synthesized by such ribosomes was hGH. Once we replace the coding sequence of the hGH mRNA with that of chloramphenicol acetyltransferase (CAT), the specificity of spc ribosomes for translation of a single targetted mRNA, relative to the endogenous mRNAs, is greatly enhanced; an estimated 80% of the total amount of protein synthesized by spc ribosomes is CAT. Using the inducible spc ribosome system containing the cat gene, we show that, upon induction, spc ribosomes accumulate in large excess over the number needed for optimal translation of the targetted cat mRNA. Despite the excess, only few spc ribosomes initiate translation on a limited number of endogenous mRNAs. The excessive accumulation of spc ribosomes, which are predominantly present as free 30S subunits, is neither deleterious to the cells, nor does it lead to a feedback inhibition of the synthesis of wild-type ribosomes.
Gene 05/1995; 156(2):215-22. · 2.34 Impact Factor
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ABSTRACT: Glycogen storage disease type II (GSD II/glycogenosis type II/Pompe's disease/acid maltase deficiency) is caused by the deficiency of lysosomal alpha-glucosidase resulting in lysosomal accumulation of glycogen. The disease is inherited as an autosomal recessive trait and is clinically heterogeneous. Early and late onset phenotypes are distinguished. Insight in the molecular nature of the lysosomal alpha-glucosidase deficiency and the underlying genetic defect has increased significantly during the past decade. This minireview on GSD II was written at the occasion of The International Symposium on Glycolytic and Mitochondrial Defects in Muscle and Nerve, held in Osaka, Japan, July 1994. It is an update of current literature, but also includes original data from the collaborating authors on mutations occurring in the lysosomal alpha-glucosidase gene and on prenatal diagnosis by chorionic villus sampling. The genotype-phenotype correlation and the prospects for therapy are addressed.
Muscle & Nerve 02/1995; 3:S61-9. · 2.37 Impact Factor
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ABSTRACT: An abnormal 2.3 kb SacI fragment of the human lysosomal alpha-glucosidase gene (GAA) was identified in patients with glycogen storage disease type II. The fragment results from deletion of exon 18 and adjacent parts of intron 17 and 18. The borders of the deletion are marked by the occurrence of an eight nucleotide long tandem repeat (AGGGGCCG) which is apparently instrumental in the mutation event. The exon 18 deletion was demonstrated in 10 out of 39 patients from Europe (all hetero-allelic) and is so far the most common mutation in this disease (allele frequency among patients is 0.13).
Biochemical and Biophysical Research Communications 10/1994; 203(3):1535-41. · 2.48 Impact Factor
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ABSTRACT: In order to identify the sequences in the central domain of 16 S rRNA of Escherichia coli that are important for ribosome function, we have generated random mutations using a PCR-based mutagenesis technique. We show that the effects of such mutations on ribosomal activity can be analyzed in vivo utilizing the specialized ribosome system. With this system the effect of rRNA mutations on ribosomal activity can be studied by measuring the translation of a modified CAT-mRNA by specialized ribosomes. Specialized ribosomes do not translate the endogenous mRNAs and, therefore, are expected to constitute a non-essential pool of ribosomes within the cell. In total, we have isolated 28 different clones harboring specialized ribosomes with single or multiple point mutations. We demonstrate that for none of these clones was cell growth retarded, even though some of the mutations severely impaired the activity of the specialized ribosomes, to as low as 3% of the wild-type level. For all mutants, their individual activities ranged between 3% and 100% of that of the wild-type activity. Comparison of several mutants indicates that mutations within the hairpin loops 787-795 and 898-901 strongly reduce the ribosomal activity. We also present evidence that the single-stranded region centered around residue A815 may be involved in maintaining translational accuracy.
Journal of Molecular Biology 05/1994; 237(4):368-77. · 4.00 Impact Factor
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ABSTRACT: The upper stem of helix 34, consisting of the base-paired sequences C1063G1064U1065 and A1191C1192G1193, is suggested to be involved in the binding of spectinomycin. In E. coli 16S rRNA, each of the three mutations at position C1192 confers resistance to spectinomycin. In chloroplast ribosomes from tobacco plants and algae, resistance is conferred by single mutations at positions 1064, 1191, and 1193 (E. coli numbering). Since each of these mutations disrupt any of the three basepairs in the upper stem of helix 34, it has been postulated that spectinomycin can bind to this region and inhibit protein synthesis, only if its nucleotides are basepaired. We have tested this hypothesis by introducing disruptive and compensatory mutations that alter the basepair G1064-C1192. Using the specialized ribosome system, the translational activity of such mutants was determined, in the absence and presence of spectinomycin. We show that any of the three disruptive mutations A1064, C1064, and U1064 confer resistance, in accordance with the model for spectinomycin binding. Compensatory mutations A1064U1192, C1064G1192, and U1064A1192, however, maintained the resistance. This indicates that a basepaired conformation as such is not sufficient for spectinomycin binding, but rather that a G-C pair at positions 1064 and 1192 is required. In addition, we find that the translational activity of specialized ribosomes containing the mutations C1064G1192 is 5-fold lower compared to that of ribosomes containing any of the other mutations introduced, regardless whether spectinomycin is present or not. Since the introduction of C1064G1192 is expected to increase the stability of the upper stem of helix 34, we suggest that these mutations impair ribosome function by preventing the (transient) disruption of the upper stem. By analogy, we speculate that spectinomycin blocks protein synthesis by stabilizing the upper stem. In both cases, the 30S subunit would be frozen into an inactive conformation.
Nucleic Acids Research 03/1994; 22(3):325-31. · 8.03 Impact Factor
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ABSTRACT: The postulated central pseudoknot formed by regions 9-13/21-25 and 17-19/916-918 of 16S rRNA of Escherichia coli is phylogenetically conserved in prokaryotic as well eukaryotic species. This pseudoknot is located at the center of the secondary structure of the 16S rRNA and connects the three major domains of this molecule. We have introduced mutations into this pseudoknot by changing the base-paired residues C18 and G917, and the effect of such mutations on the ribosomal activity was studied in vivo, using a 'specialized' ribosome system. As compared with ribosomes having the wild-type pseudoknot, the translational activity of ribosomes containing an A, G or U residue at position 18 was dramatically reduced, while the activity of mutant ribosomes having complementary bases at positions 18 and 917 was at the wild-type level. The reduced translational activity of those mutants that are incapable of forming a pseudoknot was caused by their inability to form 70S ribosomal complexes. These results demonstrate that the potential formation of a central pseudoknot in 16S rRNA with any base-paired residues at positions 18 and 917 is essential to complete the initiation process.
The EMBO Journal 11/1993; 12(10):3987-96. · 9.20 Impact Factor
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ABSTRACT: Recombinant factor VIII variants with overlapping deletions spanning the region Lys713-Ile1668 have been expressed in mammalian cells, and analysed for biological activity both in vitro and in vivo. Two distinct assay systems were used to measure the activity in vitro. The one-stage coagulation assay served to assess factor VIII procoagulant activity while a spectrophotometric assay was used for the quantification of factor VIII cofactor activity in factor IXa-dependent factor X activation. Deletion of the entire B-domain (Ser741-Arg1648) resulted in a protein with similar procoagulant and cofactor activity. In contrast, factor VIII-del(713-1637), which has a deletion that also comprises the heavy-chain sequence Lys713-Arg740, had lost factor VIII procoagulant activity while factor VIII cofactor activity was retained. This functional inconsistency was further addressed by comparing purified factor VIII-del(713-1637) with factor VIII-del(868-1562), a mutant with normal in vitro activity. Kinetic studies of factor Xa formation revealed that higher concentrations of thrombin were required to develop the cofactor activity from factor VIII-del(713-1637) than needed for factor VIII-del(868-1562) or plasma factor VIII. The physiological significance of this finding was assessed in dogs with haemophilia A. Both deletion mutants were similar to plasma factor VIII with regard to binding to von Willebrand factor and half-life and recovery. Employing the cuticle bleeding time model, factor VIII-del(868-1562) was found to be indistinguishable from plasma factor VIII, whereas factor VIII-del(713-1637) was less effective. The increased thrombin-resistance of factor VIII-del(713-1637) thus limits both procoagulant activity and haemostatic efficacy in cuticle bleeding. These observations suggest that the heavy-chain sequence Lys713-Arg740, although dispensable for factor VIII cofactor function per se, is involved in the proteolytic activation of factor VIII both in vitro and in vivo.
British Journal of Haematology 10/1993; 85(1):133-42. · 4.94 Impact Factor
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ABSTRACT: The acidic region of the Factor VIII light chain was studied with regard to structural requirements for the formation of a functional von Willebrand factor (vWF)-binding site. Factor VIII mutants lacking the B domain, with additional deletions and an amino acid replacement within the sequence 1649-1689 were constructed using site-directed mutagenesis and expressed in Cos-1 cells. These mutants, which were recovered as single-chain molecules with similar specific activities, were compared in their binding to immobilized vWF. Deletion of amino acids 741-1648 or 741-1668 did not affect the binding of Factor VIII to vWF. However, a mutant with a deletion of residues 741-1689 was no longer capable of interacting with vWF. This indicates a role for residues within the sequence 1669-1689 in the formation of a vWF-binding site. When recombinant Factor VIII was expressed in the presence of chlorate, an inhibitor of protein sulfation, the resulting Factor VIII displayed strongly reduced binding to vWF. vWF binding was completely abolished when within the sequence 1669-1689 the tyrosine residue Tyr1680, which is part of a consensus tyrosine sulfation sequence, was replaced by phenylalanine. The Factor VIII sequence 1673-1689 was identified as a high affinity substrate for tyrosylprotein sulfotransferase (Km = 57 microM) in cell-free sulfation studies. It is concluded that sulfation of Tyr1680 is required for the interaction of Factor VIII with vWF. Two synthetic peptides that represent the sequence 1673-1689, but differ with respect to sulfation of Tyr1680 are shown to have vWF binding affinity that is considerably lower than the Factor VIII protein. Several models to accommodate our findings are discussed.
Journal of Biological Chemistry 02/1991; 266(2):740-6. · 4.77 Impact Factor
