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5. La segmentation gustative : cibler les envies des consommateurs

Author

Scandella, D., Navez, B., Lespinasse, N., Vénien, S., Jost, M., Schlich, Pascal, ProdInra, Migration, FLAveur, VIsion et Comportement du consommateur (FLAVIC), and Etablissement National d'Enseignement Supérieur Agronomique de Dijon (ENESAD)-Institut National de la Recherche Agronomique (INRA)-Université de Bourgogne (UB)

Subjects
[SPI.GPROC] Engineering Sciences [physics]/Chemical and Process Engineering, [SDV.IDA]Life Sciences [q-bio]/Food engineering, [SPI.GPROC]Engineering Sciences [physics]/Chemical and Process Engineering, [SDV.IDA] Life Sciences [q-bio]/Food engineering, ComputingMilieux_MISCELLANEOUS
Abstract

National audience

Published
2002

6. Hereditary hemorrhagic disorders

Author

JAVIER BATLLE, Scandella D, and Savidge G

Subjects
Clinical Trials as Topic, Factor VII Deficiency, Molecular Sequence Data, Blood Coagulation Disorders, Hemophilia A, Hemophilia B, Blood Coagulation Factors, Recombinant Proteins, Disease Models, Animal, von Willebrand Diseases, Dogs, Isoantibodies, Cricetinae, Animals, Humans, Amino Acid Sequence, Dog Diseases
Published
1994

7. Influence de la chaîne du froid sur la qualité des produits de IVe gamme

Author

Derens, Evelyne, Scandella, D., Génie des procédés frigorifiques (UR GPAN), Centre national du machinisme agricole, du génie rural, des eaux et forêts (CEMAGREF), and irstea

Subjects
CEMAGREF, [SDE]Environmental Sciences
Abstract

This is a survey on the cold chain of the IVth range products. It has been conducted to analyze critical points up the production chain and to find solutions to minimize their consequences on the products. The use of polystyrene boxes, isotherm containers, or tarpaulin roll to protect bags (salad, carrots) of products of the IVth range is analyzed.; Cette étude porte sur la chaîne du froid des produits de 4e gamme. Elle a été entreprise pour analyser les points critiques à l'aval de la filière et trouver les moyens de limiter leurs conséquences sur les produits. Elle analyse la protection apportée aux sachets (de salade et de carotte) 4e gamme par l'utilisation de caisse en polystyrène, de conteneur isotherme et de roll baché. Parallèlement, on a étudié la qualité hygiénique et organoleptique de ces produits.

Published
1991

9. IVth scale : the cold chain

Author

Scandella, D., Derens, Evelyne, Bennahmias, R., Irstea Publications, Migration, Centre Technique Interprofessionnel des Fruits et Légumes (CTIFL), Industries agricoles alimentaires et froid (UR IFAN), and Centre national du machinisme agricole, du génie rural, des eaux et forêts (CEMAGREF)

Subjects
CTIFL, [SDE] Environmental Sciences, CEMAGREF, [SDE]Environmental Sciences
Abstract

The fragility of the 4th scale products require an unfailing cold chain, from the manufacturer to the consumer. In this article, the authors present a first series of tests carried out during the summer of 89 for the monitoring through the chain, and the results of the first laboratory tests on the different systems of thermal protection which would allow to limit of thermal shocks during the transfer of the products from the wholesaler or the central purchasing agency to the selling place., La fragilité des produits de 4e gamme nécessite une chaîne du froid sans faille, du fabriquant au consommateur. Les auteurs présentent, dans cet article, une première série d'essais réalisés pendant l'été 89 pour les suivis en filière et les résultats des premiers essais en laboratoire sur les différents systèmes de protection thermique qui permettraient de limiter les chocs thermiques lors du transfert des produits du grossiste ou de la centrale d'achats jusqu'au lieu de vente.

Published
1990

19. Human inhibitor antibodies specific for the factor VIII A2 domain disrupt the interaction between the subunit and factor IXa.

Author

Fay, P J and Scandella, D

Abstract

Factor VIIIa, a heterotrimer of the A1, A2, and A3-C1-C2 subunits, increases the catalytic efficiency for factor IXa-catalyzed activation of factor X. A significant fraction of naturally occurring, anti-factor VIII inhibitor antibodies reacts with the A2 domain. Utilizing the capacity for isolated A2 subunit to stimulate factor IXa activity, we show that a panel of these inhibitors block this activity. Inhibition of activity parallels the antibody potency as measured in the Bethesda assay. These antibodies also block the A2-dependent increases in fluorescence anisotropy of fluorescein-Phe-Phe-Arg factor IXa. Similar to the IgG fractions, a peptide representing the sequence of the inhibitor epitope (A2 residues 484-509) blocked the A2-dependent stimulation of factor IXa. These results indicate that antibodies possessing this specificity directly inhibit the interaction of A2 subunit with factor IXa, thus abrogating the contribution of this subunit to cofactor activity. Furthermore, these results also suggest that factor VIII residues 484-509 contribute to a factor IXa-interactive site.

Published
1999

20. Role of factor VIII C2 domain in factor VIII binding to factor Xa.

Author

Nogami, K, Shima, M, Hosokawa, K, Suzuki, T, Koide, T, Saenko, E L, Scandella, D, Shibata, M, Kamisue, S, Tanaka, I, and Yoshioka, A

Abstract

Factor VIII (FVIII) is activated by proteolytic cleavages with thrombin and factor Xa (FXa) in the intrinsic blood coagulation pathway. The anti-C2 monoclonal antibody ESH8, which recognizes residues 2248-2285 and does not inhibit FVIII binding to von Willebrand factor or phospholipid, inhibited FVIII activation by FXa in a clotting assay. Furthermore, analysis by SDS-polyacrylamide gel electrophoresis showed that ESH8 inhibited FXa cleavage in the presence or absence of phospholipid. The light chain (LCh) fragments (both 80 and 72 kDa) and the recombinant C2 domain dose-dependently bound to immobilized anhydro-FXa, a catalytically inactive derivative of FXa in which dehydroalanine replaces the active-site serine. The affinity (K(d)) values for the 80- and 72-kDa LCh fragments and the C2 domain were 55, 51, and 560 nM, respectively. The heavy chain of FVIII did not bind to anhydro-FXa. Similarly, competitive assays using overlapping synthetic peptides corresponding to ESH8 epitopes (residues 2248-2285) demonstrated that a peptide designated EP-2 (residues 2253-2270; TSMYVKEFLISSSQDGHQ) inhibited the binding of the C2 domain or the 72-kDa LCh to anhydro-FXa by more than 95 and 84%, respectively. Our results provide the first evidence for a direct role of the C2 domain in the association between FVIII and FXa.

Published
1999

21. Epitope Specificity and Inactivation Mechanisms of Factor VIII Inhibitor Antibodies

Author

Scandella, D.

Abstract

AbstractThe domain specificity of anti–factor VIII (FVIII) inhibitor antibodies was determined in assays using FVIII domains generated by thrombin cleavage or expressed as recombinant polypeptides to neutralise the inhibitor. The results revealed the existence of three major types of inhibitors, and various combinations of these antibodies were found in haemophilic and autoantibody patients. Anti–A2 domain inhibitors prevent normal function of the FVIII/factor IXa (FIXa)/phospholipid complex in an unknown manner. Binding of FVIII to phospholipid and to von Willebrand factor is blocked by anti–C2 domain antibodies, and the binding of FVIII to FIXa is prevented by anti–A3 domain antibodies. A rare type of inhibitor prevents release of activated FVIII from von Willebrand factor (vWf), and another probably interferes with FVIII binding to factor X (FX) because it shares the epitope of a monoclonal antibody with this property.

Published
1999

22. Epitope mapping of human factor VIII inhibitor antibodies by deletion analysis of factor VIII fragments expressed in Escherichia coli.

Author

Scandella, D, DeGraaf Mahoney, S, Mattingly, M, Roeder, D, Timmons, L, and Fulcher, C A

Abstract

Epitopes for antibodies that inhibit factor VIII procoagulant protein were analyzed by deletion mapping of factor VIII protein fragments expressed in Escherichia coli. A human factor VIII cDNA clone was used to generate E. coli expression vectors encoding fragments containing the 80-kDa factor VIII light chain (A3, C1, and C2 domains) and the 44-kDa carboxyl-terminal half of the factor VIII heavy chain (A2 domain). A series of deletions of each fragment was constructed and tested by immunoblotting for the binding of alloantibody and autoantibody inhibitors. Analysis of derivatives of the 80-kDa fragment showed that six inhibitors recognized a major epitope(s) within the carboxyl-terminal 17.3 kDa of factor VIII. These inhibitors also recognized weaker epitopes nearby and one inhibitor recognized epitopes scattered throughout the 80-kDa fragment. Deletions within the heavy chain fragment revealed one epitope-containing region confined to the amino-terminal 18.3 kDa recognized by six inhibitors. Bacterially produced factor VIII fragments containing the major epitopes were capable of neutralizing inhibitors in vitro but fragments containing weaker or no epitopes did not. These data suggest a potential therapeutic use of factor VIII fragments for neutralization of inhibitor antibodies.

Published
1988
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23. Some factor VIII inhibitor antibodies recognize a common epitope corresponding to C2 domain amino acids 2248 through 2312, which overlap a phospholipid-binding site

Author

Scandella, D, Gilbert, GE, Shima, M, Nakai, H, Eagleson, C, Felch, M, Prescott, R, Rajalakshmi, KJ, Hoyer, LW, and Saenko, E

Abstract

The finding that human factor VIII (fVIII) inhibitor antibodies with C2 domain epitopes interfere with the binding of fVIII to phosphatidylserine (PS) suggested that this is the mechanism by which they inactivate fVIII. We constructed a recombinant C2 domain polypeptide and demonstrated that it bound to all six human inhibitors with fVIII light chain specificity. Thus, some antibodies within the polyclonal anti-light chain population require only amino acids within C2 for binding. Recombinant C2 also partially or completely neutralized the inhibitor titer of these plasmas, demonstrating that anti-C2 antibodies inhibit fVIII activity. Immunoblotting of a series of C2 deletion polypeptides, expressed in Escherichia coli, with inhibitor plasmas showed that the epitopes for human inhibitors consist of a common core of amino acid residues 2248 through 2312 with differing extensions for individual inhibitors. The epitope of inhibitory monoclonal antibody (MoAb) ESH8 was localized to residues 2248 through 2285. Three human antibodies and anti-C2 MoAb NMC-VIII/5 bound to a synthetic peptide consisting of amino acids 2303 through 2332, a PS- binding site, but MoAb ESH8 did not. These antibodies also inhibited the binding of fVIII to synthetic phospholipid membranes of PS and phosphatidylcholine, confirming that the blocked epitopes contribute to membrane binding as well as binding to PS. In contrast, MoAb ESH8 did not inhibit binding. As the maximal function of activated fVIII in the intrinsic factor Xase complex requires its binding to a phospholipid membrane, we propose that fVIII inhibition by anti-C2 antibodies is related to the overlap of their epitopes with the PS-binding site. MoAb ESH8 did not inhibit fVIII binding to PS-containing membranes, suggesting the existence of a second mechanism of fVIII inhibition by anti-C2 antibodies.

Published
1995
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24. The acidic region of the factor VIII light chain and the C2 domain together form the high affinity binding site for von willebrand factor.

Author

Saenko, E L and Scandella, D

Abstract

A binding site for von Willebrand factor (vWf) was previously localized to the carboxyl terminus of the C2 domain of the light chain (LCh) of factor VIII (fVIII). The acidic region of the LCh, residues 1649-1689, also controls fVIII.vWf binding by an unknown mechanism. Although anti-acidic region monoclonal antibodies prevent formation of the fVIII.vWf complex, the direct involvement of the acidic region in this binding has not been demonstrated. By limited proteolysis of LCh with Staphylococcus aureus V8 protease, we prepared 14- and 63-kDa LCh fragments, which begin with fVIII residues 1672 and 1795, respectively. Using surface plasmon resonance to measure binding interactions, we demonstrated that the 14-kDa fragment binds to vWf, but its affinity for vWf (Kd 72 nM) was 19-fold lower than that of LCh. This was not due to an altered conformation of the acidic region within the 14-kDa fragment, since its affinity for an anti-acidic region monoclonal antibody was similar to that of LCh. All LCh derivatives lacking the acidic region (thrombin-cleaved LCh, recombinant C2, and 63-kDa fragment) had also greatly reduced affinities for vWf (Kd 564-660 nM) compared with LCh (Kd 3.8 nM). In addition, the similar affinities of these derivatives for vWf indicated that apart from its acidic region, the LCh contains no vWf binding site other than the one within C2. The reduced affinities of the LCh derivatives lacking the acidic region for monoclonal antibody NMC-VIII/5 (epitope, C2 residues 2170-2327) indicated that removal of the acidic region leads to a conformational change within C2. This change is likely to affect the conformation of the vWf binding site in C2, which overlaps the epitope of NMC-VIII/5; therefore, the acidic region also appears to be required to maintain the optimal conformation of this vWf binding site. Our results demonstrate that the acidic region and the C2 domain are both directly involved in forming a high affinity binding site for vWf.

Published
1997

25. Localization of epitopes for human factor VIII inhibitor antibodies by immunoblotting and antibody neutralization

Author

Scandella, D, Mattingly, M, de Graaf, S, and Fulcher, CA

Abstract

Human factor VIII(FVIII) inhibitors are pathologic, circulating antibodies that inactivate FVIII. We have examined the location of epitopes on the FVIII protein for inhibitors from hemophilia A and nonhemophilic individuals. The inhibitors were of type I or type II in the kinetics of their inactivation of FVIII. A cDNA clone of human FVIII was used to express defined FVIII protein fragments in Escherichia coli for immunoblotting with inhibitor plasma. An epitope for 18 heavy-chain inhibitors was localized to the aminoterminal 18.3 Kd of the A2 domain. Two of these inhibitors also recognized an epitope located between A1 and A2 domains. Similarly, an epitope for 23 light- chain inhibitors was localized to the C2 domain. Weaker epitopes for 13 of the same inhibitors within the C1 and C2 domains were also observed. Four of the 23 inhibitors in addition bound strongly to the A3 domain. Most inhibitors (22 of 23) were neutralized in vitro only by the FVIII fragments to which they bound on immunoblots; however, one inhibitor that was neutralized by a fragment containing the A1 domain did not bind to it on immunoblots. Conversely, 3 of 3 inhibitors that bound to the A3 domain and 5 of 15 that bound to the A2 domain were not neutralized by the corresponding fragments. The epitope specificity of an inhibitor did not depend on its source or type. Our results show that FVIII inhibitors bind to limited areas within the heavy and light chains of FVIII. Some inhibitor plasmas contain additional antibodies that may not be inhibitory.

Published
1989
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26. Activation of factor VIII by thrombin increases its affinity for binding to synthetic phospholipid membranes and activated platelets.

Author

Saenko, E L, Scandella, D, Yakhyaev, A V, and Greco, N J

Abstract

Membrane-bound thrombin-activated factor VIII (fVIIIa) functions as a cofactor for factor IXa in the factor Xase complex. We found that binding of heterotrimeric fVIIIa (A1.A2.A3-C1-C2) to synthetic vesicles with a physiologic content of 4% phosphatidylserine (PS), 76% phosphatidylcholine, and 20% phosphatidylethanolamine occurs with a 10-fold higher affinity than that of factor VIII (fVIII). The increased affinity of fVIIIa for PS-containing membranes resulted from the reduced rate of fVIIIa dissociation from the vesicles compared with that of fVIII. Similar affinities of A3-C1-C2, A1.A2. A3-C1-C2, and A3-C1-C2.heavy chain for interaction with PS-containing membranes demonstrate that removal of the light chain (LCh) acidic region by thrombin is responsible for these increased affinities of fVIIIa and its derivatives. Similar kinetic parameters of fVIII and its LCh and C2 domain for binding to PS-containing membranes and to activated platelets indicated that the C2 domain is entirely responsible for the interaction of fVIII with membranes. We conclude that the increased fVIIIa affinity for PS-containing membranes is a result of conformational change(s) within the C2 domain upon removal of the acidic region of the LCh. This conclusion is based on the finding that binding of the monoclonal antibody ESH8 to the C2 domain, which is known to prevent this conformational transition, resulted in fVIIIa binding to PS/phosphatidylcholine/phosphatidylethanolamine vesicles (4/76/20) with a lower affinity similar to that of fVIII. In addition, stabilization of the low affinity binding conformation of the C2 domain of fVIIIa by this antibody led to an inhibition of the fVIIIa activity in the factor X activation complex.

Published
1998

27. Analysis of the human factor VIII A2 inhibitor epitope by alanine scanning mutagenesis.

Author

Lubin, I M, Healey, J F, Barrow, R T, Scandella, D, and Lollar, P

Abstract

Antibodies directed to the A2 domain of factor VIII (fVIII) are usually an important component of the polyclonal response in patients who have clinically significant inhibitory antibodies to fVIII. A major determinant of the A2 epitope has been located by homolog scanning mutagenesis using recombinant hybrid human/porcine fVIII molecules to a sequence bounded by Arg484-Ile508 (Healey, J. F. , Lubin, I. M., Nakai, H., Saenko, E. L., Hoyer, L. W., Scandella, D. , and Lollar, P. (1995) J. Biol. Chem. 270, 14505-14509). Within this region, human residues Arg484, Pro485, Tyr487, Ser488, Arg489, Pro492, Val495, Phe501, and Ile508 differ from porcine fVIII. We stably expressed in mammalian cells nine active B-domainless human fVIII molecules containing single alanine substitutions at these sites. Their inhibition by a murine anti-A2 monoclonal antibody, monoclonal antibody (mAb) 413, and by three A2-specific alloimmune and two A2-specific autoimmune human inhibitor plasmas was measured by the Bethesda assay. The inhibition of Arg484 --> Ala, Tyr487 --> Ala, Arg489 --> Ala, and Arg492 --> Ala by mAb413 was reduced by greater than 90% compared with wild-type, B-domainless human fVIII. mAb413 inhibited the most severely affected mutant, Arg489 --> Ala, 0.01% as well as wild-type fVIII. For all five patient plasmas, the Tyr487 --> Ala mutant displayed the greatest reduction in inhibition. The inhibition of the Tyr487 --> Ala mutant by these antibodies ranged from 10% to 20% that of wild-type fVIII. The inhibition of the Ser488 --> Ala, Arg489 --> Ala, Pro492 --> Ala, Val495 --> Ala, Phe501 --> Ala, and Ile508 --> Ala mutants by most of the plasmas also was significantly reduced. In contrast, the Arg484 --> Ala and Pro485 --> Ala mutants were relatively unaffected. Thus, although mAb413 binds to the same region as human A2 inhibitors, it recognizes a different set of amino acid side chains. The side chains recognized by human A2 inhibitors appear to be similar, despite the differing immune settings that give rise to fVIII alloantibodies and autoantibodies.

Published
1997

28. Slowed release of thrombin-cleaved factor VIII from von Willebrand factor by a monoclonal and a human antibody is a novel mechanism for factor VIII inhibition.

Author

Saenko, E L, Shima, M, Gilbert, G E, and Scandella, D

Abstract

The anti-factor VIII (fVIII) C2 domain monoclonal antibody ESH8 inhibits fVIII activity only when fVIII is bound to von Willebrand factor (vWf). However, ESH8 binds with similar affinity to fVIII and fVIII.vWf complex, and it does not affect the kinetics of thrombin cleavage at positions 372 and 740 within the fVIII heavy chain and at 1689 within the light chain. The latter is required for fVIII release from vWf. We showed that ESH8 reduced the initial rate of thrombin-activated fVIII (fVIIIa) release from vWf by 4.3-fold compared to that in the absence of antibody. The complex of vWf. fVIII.ESH8 was activated, and the rate constant determined for fVIIIa dissociation from vWf was 4 x 10(-3) s-1. We constructed a mathematical model incorporating the measured rates for fVIIIa release from vWf and for inactivation of heterotrimeric fVIIIa due to the spontaneous loss of the A2 subunit and found that the decreased release rate is sufficient to explain our experimentally observed inhibition of fVIII activity by ESH8. We hypothesize that the slowed rate of fVIIIa release from vWf in the presence of ESH8 allows time for inactivation of unstable fVIIIa prior its participation in the formation of the factor Xase complex. The relevance of these findings is illustrated by our observation that reduction of fVIIIa release from vWf represents an additional mechanism of fVIII inhibition by an anti-C2 domain antibody (epitope 2218-2307) from a hemophilia A patient. This rare antibody binds to a more amino-terminal epitope than other human anti-C2 inhibitors, resulting in its lack of inhibition of fVIII binding to vWf but not to phospholipid. These two fVIII ligands therefore bind to C2 sites which do not overlap completely.

Published
1996

29. Residues 484-508 contain a major determinant of the inhibitory epitope in the A2 domain of human factor VIII.

Author

Healey, J F, Lubin, I M, Nakai, H, Saenko, E L, Hoyer, L W, Scandella, D, and Lollar, P

Abstract

The A2 domain (residues 373-740) of human blood coagulation factor VIII (fVIII) contains a major epitope for inhibitory alloantibodies and autoantibodies. We took advantage of the differential reactivity of inhibitory antibodies with human and porcine fVIII and mapped a major determinant of the A2 epitope by using a series of active recombinant hybrid human/porcine fVIII molecules. Hybrids containing a substitution of porcine sequence at segment 410-508, 445-508, or 484-508 of the human A2 domain were not inhibited by a murine monoclonal antibody A2 inhibitory, mAb 413, whereas hybrids containing substitutions at 387-403, 387-444, and 387-468 were inhibited by mAb 413. This indicates that the segment bounded by Arg484 and Ile508 contains a major determinant of the A2 epitope. mAb 413 did not inhibit two more hybrids that contained porcine substitutions at residues 484-488 and 489-508, indicating that amino acid side chains on both sides of the Ser488-Arg489 bond within the Arg484-Ile508 segment contribute to the A2 epitope. The 484-508, 484-488, and 489-508 porcine substitution hybrids displayed decreased inhibition by A2 inhibitors from four patient plasmas, suggesting that there is little variation in the structure of the A2 epitope in the inhibitor population.

Published
1995

30. A mechanism for inhibition of factor VIII binding to phospholipid by von Willebrand factor.

Author

Saenko, E L and Scandella, D

Abstract

von Willebrand factor (vWf) acts as a carrier for blood coagulation factor VIII (fVIII) in the circulation. The amino-terminal 272 residues of mature vWf contain a high affinity fVIII binding site. Upon thrombin activation, fVIII is released from vWf, thereby allowing its binding to phospholipid which is required for its procoagulant activity. Although phospholipid and vWf compete for fVIII binding, it was previously suggested that their binding sites are not closely juxtaposed within the fVIII protein because only amino-terminal vWf proteolytic fragments larger than SPIII-T4 (1-272) were able to block the binding of fVIII to phospholipid. We have demonstrated, however, that SPIII-T4 is able to inhibit fVIII binding to phosphatidylserine (PS) in a dose-dependent fashion, but only at concentrations higher than those used in previous experiments. Our demonstration that the Kd values for vWf and SPIII-T4 for fVIII are 0.52 nM and 48 nM, respectively, explain this discrepancy. Inhibition (> 95%) of SPIII-T4 binding to fVIII by a purified recombinant fVIII C2 domain polypeptide demonstrated that SPIII-T4 binds directly to C2, as we had previously shown for vWf. The similarity of the C2 binding sites for vWf and SPIII-T4 was further confirmed by the identical inhibitory effects of synthetic peptides and monoclonal antibodies (mAbs) on vWf-fVIII or SPIII-T4 fVIII binding. In both cases, binding was inhibited by synthetic peptide 2303-2332, containing a PS binding site, and by mAb NMC-VIII/5 Fab' (epitope within C2 residues 2170-2327). We propose that vWf, via residues 1-272, and PS compete for fVIII binding because they recognize overlapping sites within fVIII C2 domain residues 2303-2332.

Published
1995

31. Etude d'impact de deux strategies de controle des maladies de conservation de la peche, du verger au circuit commercial

Author

Arnoux, M., Scandella, D., Institut francilien recherche, innovation et société (IFRIS), Ministère de l'Education nationale, de l’Enseignement supérieur et de la Recherche (M.E.N.E.S.R.)-Institut National de la Recherche Agronomique (INRA)-École des hautes études en sciences sociales (EHESS)-OST-Université Paris-Est Marne-la-Vallée (UPEM)-ESIEE Paris-Centre National de la Recherche Scientifique (CNRS), and Institut National de la Recherche Agronomique (INRA)-École des hautes études en sciences sociales (EHESS)-OST-Université Paris-Est Marne-la-Vallée (UPEM)-Ministère de l'Education nationale, de l’Enseignement supérieur et de la Recherche (M.E.N.E.S.R.)-ESIEE Paris-Centre National de la Recherche Scientifique (CNRS)

Subjects
[SDV]Life Sciences [q-bio]
Abstract

CR d'Essai *INRA, SRIV, Saint-Marcel les Valence (FRA) Diffusion du document : INRA, SRIV, Saint-Marcel les Valence (FRA); National audience

Published
1985

32. Antifactor VIII antibody inhibiting allogeneic but not autologous factor VIII in patients with mild hemophilia A

Author

Peerlinck K, Mg, Jacquemin, Arnout J, Mf, Hoylaerts, Jg, Gilles, Lavend'homme R, Km, Johnson, kathleen freson, Scandella D, Jm, Saint-Remy, and Vermylen J

Subjects
Male, Isoantigens, Factor VIII, Infant, Enzyme-Linked Immunosorbent Assay, Hemophilia A, Autoantigens, Precipitin Tests, Antigen-Antibody Reactions, Epitopes, Amino Acid Substitution, Antibody Specificity, Isoantibodies, Child, Preschool, Immunoglobulin G, von Willebrand Factor, Immune Tolerance, Humans, Point Mutation, Immunization, Factor VIIIa, Follow-Up Studies
Abstract

Two unrelated patients with the same Arg2150His mutation in the factor VIII (FVIII) C1 domain, a residual FVIII activity of 0.09 IU/mL, and inhibitor titres of 300 and 6 Bethesda Units, respectively, were studied. Further analysis of patient LE, with the highest inhibitor titer, showed that (1) plasma or polyclonal IgG antibodies prepared from LE plasma inhibited the activity of allogeneic (wild-type) but not of self FVIII; (2) the presence of von Willebrand factor (vWF) increased by over 10-fold the inhibitory activity on wild-type FVIII; (3) the kinetics of FVIII inhibition followed a type II pattern, but in contrast to previously described type II inhibitors, LE IgG was potentiated by the presence of vWF instead of being in competition with it; (4) polyclonal LE IgG recognized the FVIII light chain in enzyme-linked immunosorbent assay and the recombinant A3-C1 domains in an immunoprecipitation assay, indicating that at least part of LE antibodies reacted with the FVIII domain encompassing the mutation site; and (5) LE IgG inhibited FVIII activity by decreasing the rate of FVIIIa release from vWF, but LE IgG recognized an epitope distinct from ESH8, a murine monoclonal antibody exhibiting the same property. We conclude that the present inhibitors are unique in that they clearly distinguish wild-type from self, mutated FVIII. The inhibition of wild-type FVIII by LE antibody is enhanced by vWF and is associated with an antibody-dependent reduced rate of FVIIIa release from vWF.

34. Visual Field Prognosis From Macula and Circumpapillary Spectral Domain Optical Coherence Tomography.

Author

Scandella D, Gallardo M, Kucur SS, Sznitman R, and Unterlauft JD

Subjects
Humans, Female, Middle Aged, Male, Prognosis, Aged, Retinal Ganglion Cells pathology, Glaucoma diagnostic imaging, Glaucoma pathology, Nerve Fibers pathology, Visual Field Tests methods, Optic Disk diagnostic imaging, Optic Disk pathology, Tomography, Optical Coherence methods, Visual Fields physiology, Macula Lutea diagnostic imaging, Macula Lutea pathology, Deep Learning
Abstract

Purpose: To explore the structural-functional loss relationship from optic-nerve-head- and macula-centred spectral-domain (SD) Optical Coherence Tomography (OCT) images in the full spectrum of glaucoma patients using deep-learning methods., Methods: A cohort comprising 5238 unique eyes classified as suspects or diagnosed with glaucoma was considered. All patients underwent ophthalmologic examination consisting of standard automated perimetry (SAP), macular OCT, and peri-papillary OCT on the same day. Deep learning models were trained to estimate G-pattern visual field (VF) mean deviation (MD) and cluster MD using retinal thickness maps from seven layers: retinal nerve fiber layer (RNFL), ganglion cell layer and inner plexiform layer (GCL + IPL), inner nuclear layer and outer plexiform layer (INL + OPL), outer nuclear layer (ONL), photoreceptors and retinal pigmented epithelium (PR + RPE), choriocapillaris and choroidal stroma (CC + CS), total retinal thickness (RT)., Results: The best performance on MD prediction is achieved by RNFL, GCL + IPL and RT layers, with R2 scores of 0.37, 0.33, and 0.31, respectively. Combining macular and peri-papillary scans outperforms single modality prediction, achieving an R2 value of 0.48. Cluster MD predictions show promising results, notably in central clusters, reaching an R2 of 0.56., Conclusions: The combination of multiple modalities, such as optic-nerve-head circular B-scans and retinal thickness maps from macular SD-OCT images, improves the performance of MD and cluster MD prediction. Our proposed model demonstrates the highest level of accuracy in predicting MD in the early-to-mid stages of glaucoma., Translational Relevance: Objective measures recorded with SD-OCT can optimize the number of visual field tests and improve individualized glaucoma care by adjusting VF testing frequency based on deep-learning estimates of functional damage.

Published
2024
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35. Analysis of optical coherence tomography biomarker probability detection in central serous chorioretinopathy by using an artificial intelligence-based biomarker detector.

Author

Ferro Desideri L, Anguita R, Berger LE, Feenstra HMA, Scandella D, Sznitman R, Boon CJF, van Dijk EHC, and Zinkernagel MS

Abstract

Aim: To adopt a novel artificial intelligence (AI) optical coherence tomography (OCT)-based program to identify the presence of biomarkers associated with central serous chorioretinopathy (CSC) and whether these can differentiate between acute and chronic central serous chorioretinopathy (aCSC and cCSC)., Methods: Multicenter, observational study with a retrospective design enrolling treatment-naïve patients with aCSC and cCSC. The diagnosis of aCSC and cCSC was established with multimodal imaging and for the current study subsequent follow-up visits were also considered. Baseline OCTs were analyzed by an AI-based platform (Discovery® OCT Fluid and Biomarker Detector, RetinAI AG, Switzerland). This software allows to detect several different biomarkers in each single OCT scan, including subretinal fluid (SRF), intraretinal fluid (IRF), hyperreflective foci (HF) and flat irregular pigment epithelium detachment (FIPED). The presence of SRF was considered as a necessary inclusion criterion for performing biomarker analysis and OCT slabs without SRF presence were excluded from the analysis., Results: Overall, 160 eyes of 144 patients with CSC were enrolled, out of which 100 (62.5%) eyes were diagnosed with cCSC and 60 eyes (34.5%) with aCSC. In the OCT slabs showing presence of SRF the presence of biomarkers was found to be clinically relevant (> 50%) for HF and FIPED in aCSC and cCSC. HF had an average percentage of 81% (± 20) in the cCSC group and 81% (± 15) in the aCSC group (p = 0.4295) and FIPED had a mean percentage of 88% (± 18) in cCSC vs. 89% (± 15) in the aCSC (p = 0.3197)., Conclusion: We demonstrate that HF and FIPED are OCT biomarkers positively associated with CSC when present at baseline. While both HF and FIPED biomarkers could aid in CSC diagnosis, they could not distinguish between aCSC and cCSC at the first visit. AI-assisted biomarker detection shows promise for reducing invasive imaging needs, but further validation through longitudinal studies is needed., (© 2024. The Author(s).)

Published
2024
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36. Prediction of chronic central serous chorioretinopathy through combined manual annotation and AI-assisted volume measurement of flat irregular pigment epithelium.

Author

Desideri LF, Scandella D, Berger L, Sznitman R, Zinkernagel M, and Anguita R

Abstract

Introduction: The aim of this study is to investigate the role of an artificial intelligence (AI)-developed OCT program to predict the clinical course of central serous chorioretinopathy (CSC ) based on baseline pigment epithelium detachment (PED) features., Methods: Single-center, observational study with a retrospective design. Treatment-naïve patients with acute CSC and chronic CSC were recruited and OCTs were analyzed by an AI-developed platform (Discovery OCT Fluid and Biomarker Detector, RetinAI AG, Switzerland), providing automatic detection and volumetric quantification of PEDs. Flat irregular PED presence was annotated manually and afterwards measured by the AI program automatically., Results: 115 eyes of 101 patients with CSC were included, of which 70 were diagnosed with chronic CSC and 45 with acute CSC. It was found that patients with baseline presence of foveal flat PEDs and multiple flat foveal and extrafoveal PEDs had a higher chance of developing chronic form. AI-based volumetric analysis revealed no significant differences between the groups., Conclusions: While more evidence is needed to confirm the effectiveness of AI-based PED quantitative analysis, this study highlights the significance of identifying flat irregular PEDs at the earliest stage possible in patients with CSC, to optimize patient management and long-term visual outcomes., (S. Karger AG, Basel.)

Published
2024
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37. BASELINE SPECTRAL DOMAIN OPTICAL COHERENCE TOMOGRAPHIC RETINAL LAYER FEATURES IDENTIFIED BY ARTIFICIAL INTELLIGENCE PREDICT THE COURSE OF CENTRAL SEROUS CHORIORETINOPATHY.

Author

Ferro Desideri L, Anguita R, Berger LE, Feenstra HMA, Scandella D, Sznitman R, Boon CJF, van Dijk EHC, and Zinkernagel MS

Subjects
Humans, Tomography, Optical Coherence methods, Retrospective Studies, Artificial Intelligence, Retina, Fluorescein Angiography, Central Serous Chorioretinopathy diagnosis
Abstract

Purpose: To identify optical coherence tomography (OCT) features to predict the course of central serous chorioretinopathy (CSC) with an artificial intelligence-based program., Methods: Multicenter, observational study with a retrospective design. Treatment-naïve patients with acute CSC and chronic CSC were enrolled. Baseline OCTs were examined by an artificial intelligence-developed platform (Discovery OCT Fluid and Biomarker Detector, RetinAI AG, Switzerland). Through this platform, automated retinal layer thicknesses and volumes, including intaretinal and subretinal fluid, and pigment epithelium detachment were measured. Baseline OCT features were compared between acute CSC and chronic CSC patients., Results: One hundred and sixty eyes of 144 patients with CSC were enrolled, of which 100 had chronic CSC and 60 acute CSC. Retinal layer analysis of baseline OCT scans showed that the inner nuclear layer, the outer nuclear layer, and the photoreceptor-retinal pigmented epithelium complex were significantly thicker at baseline in eyes with acute CSC in comparison with those with chronic CSC ( P < 0.001). Similarly, choriocapillaris and choroidal stroma and retinal thickness (RT) were thicker in acute CSC than chronic CSC eyes ( P = 0.001). Volume analysis revealed average greater subretinal fluid volumes in the acute CSC group in comparison with chronic CSC ( P = 0.041)., Conclusion: Optical coherence tomography features may be helpful to predict the clinical course of CSC. The baseline presence of an increased thickness in the outer retinal layers, choriocapillaris and choroidal stroma, and subretinal fluid volume seems to be associated with acute course of the disease.

Published
2024
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38. New characteristics of anti-factor VIII inhibitor antibody epitopes and unusual immune responses to Factor VIII.

Author

Scandella D

Subjects
Amino Acid Sequence, Antibody Formation, Antibody Specificity, Autoantibodies immunology, Binding Sites immunology, Hemophilia A blood, Hemophilia A drug therapy, Hemophilia A immunology, Humans, Precipitin Tests, Recombinant Proteins immunology, Autoantibodies blood, Epitopes chemistry, Epitopes genetics, Factor VIII immunology
Abstract

Treatment of individuals with severe hemophilia A by plasma-derived or recombinant factor VIII leads to the production of anti-factor VIII antibodies in approximately 30% of such patients. Because some of these antibodies inactivate factor VIII, they are considered a major factor in preventing optimal therapeutic treatment. Factor VIII is a cofactor that must bind to factors IX and X and phospholipids in order for normal blood coagulation to occur. The inhibition of factor VIII activity is due to binding by anti- factor VIII antibodies in the patient plasma to the same sites required for factors IX and X and phospholipid binding. Previously, inhibitor epitopes were localized to the A2, A3, and C2 domains and to a region of acidic amino acids between the A1 and A2 domains. Inhibitor binding to these domains prevented factor VIII binding to factor IXa (A2, A3), factor Xa (C2), and phospholipids (C2), and binding to the acidic region interfered with factor X binding. Antibody binding to a minor C2 domain epitope slowed activated factor VIII release from von Willebrand factor (vWF) and interfered with factor Xa binding to factor VIII.

Published
2002
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39. Two classes of germline genes both derived from the V(H)1 family direct the formation of human antibodies that recognize distinct antigenic sites in the C2 domain of factor VIII.

Author

van den Brink EN, Bril WS, Turenhout EA, Zuurveld M, Bovenschen N, Peters M, Yee TT, Mertens K, Lewis DA, Ortel TL, Lollar P, Scandella D, and Voorberg J

Subjects
Amino Acid Sequence, Animals, Antibody Specificity, Epitope Mapping, Epitopes chemistry, Epitopes metabolism, Evolution, Molecular, Factor VIII chemistry, Hemophilia A immunology, Humans, Isoantibodies biosynthesis, Isoantibodies isolation & purification, Molecular Sequence Data, Multigene Family, Protein Structure, Tertiary, Factor VIII immunology, Genes, Immunoglobulin immunology, Immunoglobulin Heavy Chains genetics, Immunoglobulin Variable Region genetics, Isoantibodies immunology
Abstract

Most plasmas from patients with inhibitors contain antibodies that are reactive with the C2 domain of factor VIII. Previously, we have shown that the variable heavy chain (V(H)) regions of antibodies to the C2 domain are encoded by the closely related germline gene segments DP-10, DP-14, and DP-88, which all belong to the V(H)1 gene family. Here, we report on the isolation and characterization of additional anti-C2 antibodies that are derived from V(H) gene segments DP-88 and DP-5. Competition experiments using murine monoclonal antibodies CLB-CAg 117 and ESH4 demonstrated that antibodies derived from DP-5 and DP-88 bound to different sites within the C2 domain. Epitope mapping studies using a series of factor VIII/factor V hybrids revealed that residues 2223 to 2332 of factor VIII are required for binding of the DP-10-, DP-14-, and DP-88-encoded antibodies. In contrast, binding of the DP-5-encoded antibodies required residues in both the amino- and carboxy-terminus of the C2 domain. Inspection of the reactivity of the antibodies with a series of human/porcine hybrids yielded similar data. Binding of antibodies derived from germline gene segments DP-10, DP-14, and DP-88 was unaffected by replacement of residues 2181 to 2243 of human factor VIII for the porcine sequence, whereas binding of the DP-5-encoded antibodies was abrogated by this replacement. Together these data indicate that antibodies assembled from V(H) gene segments DP-5 and the closely related germline gene segments DP-10, DP-14, and DP-88 target 2 distinct antigenic sites in the C2 domain of factor VIII.

Published
2002
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40. Long-term induction of immune tolerance after blockade of CD40-CD40L interaction in a mouse model of hemophilia A.

Author

Rossi G, Sarkar J, and Scandella D

Subjects
Animals, Cytokines immunology, Female, Hemophilia A drug therapy, Hemophilia A genetics, Immune Tolerance, Male, Mice, Mice, Knockout, CD40 Antigens immunology, CD40 Ligand immunology, Factor VIII immunology, Hemophilia A immunology, Recombinant Proteins immunology
Abstract

A factor VIII-deficient knockout mouse was used as a model for severe hemophilia A to characterize the immune response to recombinant human factor VIII (fVIII) and to study new approaches for induction of immune tolerance to fVIII. Mice initially received periodic injections of fVIII in doses similar to those used for the treatment of human hemophilia A. To induce immune tolerance, a hamster monoclonal antibody specific for murine CD40 ligand (CD40L or CD154) was injected with fVIII. Control mice received fVIII alone or fVIII and hamster immunoglobulin G. After treatment, humoral and cellular immune responses were evaluated. Ninety-five percent of anti-CD40L-treated mice had lower titers of anti-fVIII antibody (less than 1 microg/mL) compared with fVIII-injected control mice (mean, 18 microg/mL). To determine whether anti-CD40L treatment induces long-term immune tolerance, mice were rechallenged 3 times with fVIII alone. At 150 days after treatment, 12 of 22 anti-CD40L-treated mice remained tolerant to fVIII (anti-fVIII antibody titers less than 1 microg/mL). However, tolerant mice immunized with tetanus toxoid (TT) developed high anti-TT antibody, demonstrating that tolerance is fVIII specific. T cells from tolerant mice showed impaired proliferative responses after stimulation with fVIII in vitro and lack of production of the cytokines interleukin-2 (IL-2), IL-4, interferon gamma, and IL-10. These results demonstrate that long-term immune tolerance to fVIII was effectively induced after early blockade of CD40-CD40L interaction. In addition, the lack of tolerance in this model was associated with the expression of a Th2 phenotype.

Published
2001
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41. Characterization of antibodies to factor VIII in hemophilia A patients treated by immune tolerance therapy.

Author

Scandella D, Reyes H, Felch M, and Sakurai Y

Subjects
Antibody Specificity, Factor VIII administration & dosage, Hemophilia A complications, Hemophilia A immunology, Humans, Immunodominant Epitopes, Precipitin Tests, Factor VIII immunology, Hemophilia A drug therapy, Immune Tolerance, Isoantibodies blood
Abstract

The treatment of hemophilia A patients has improved in this decade by production of recombinant factor VIII (FVIII) in mammalian cells, which has significantly reduced contamination by infectious agents. A remaining serious problem in 25-30% of patients with severe hemophilia A is the appearance of antibodies that inactivate FVIII. The present therapy for this condition is frequent treatment with high doses of FVIII to induce tolerance, which is defined as a negative Bethesda assay. Serial plasma samples from 50 evaluable patients in a large study of 72 previously untreated patients were tested to determine whether tolerized patients have actually lost all their anti-FVIII by using a 10 fold more sensitive immunoprecipitation (IP) method of measuring all anti-FVIII antibodies. Six of the 22 patients with inhibitors were given tolerance therapy, and 3 of them were only partially tolerized as determined by IP assay. Seven patients with 1-11 BU/mL lost their inhibitor spontaneously, while 5 non-inhibitor patients with low level immune responses similarly became antibody negative. In a smaller study, a tolerized patient with 0 BU/mL had remaining non-inhibitory antibody levels high enough to reduce the FVIII half-life significantly. Plasmas from 2 patients who were not tolerized, were tested by the IP assay for the A2 and/or C2 domain specificity of the anti-FVIII over time. The antibodies detected were directed against both the heavy and light chains of FVIII, and they increased and decreased at the same rate before and during tolerance therapy.

Published
2000

42. An alloantibody recognizing the FVIII A1 domain in a patient with CRM reduced haemophilia A due to deletion of a large portion of the A1 domain DNA sequence.

Author

Shibata M, Shima M, Morichika S, McVey J, Tuddenham EG, Tanaka I, Suzuki H, Nogami K, Minamoto Y, Hato T, Saenko EL, Scandella D, and Yoshioka A

Subjects
Adult, Antigen-Antibody Reactions, Base Sequence, Binding Sites, DNA Mutational Analysis, Deamino Arginine Vasopressin administration & dosage, Deamino Arginine Vasopressin pharmacology, Factor VIII chemistry, Factor VIII genetics, Gene Deletion, Hemophilia A immunology, Hemostatics administration & dosage, Hemostatics pharmacology, Humans, Male, Molecular Sequence Data, Precipitin Tests, RNA, Messenger chemistry, Epitopes genetics, Factor VIII immunology, Hemophilia A genetics, Isoantibodies blood
Abstract

We report the development of a FVIII inhibitor in a patient with severe, cross reacting material reduced (CRM(R)) haemophilia A. The level of Factor VIII antigen (FVIII:Ag) measured by ELISA using anti-C2 monoclonal and alloantibodies was 1.9 U/dl. This baseline FVIII:Ag level was increased to 8.3 U/dl after administration of DDAVP. The anti-FVIII inhibitor titer was 2.9 Bethesda U/ml. DNA analysis showed a large deletion of the FVIII gene from exon 4 to 7, corresponding to amino acid residues 111-317 included within the A1 domain. The size of the gene deletion was approximately 28 kb. 5' and 3' breakpoints were identified by sequencing in intron 3 and intron 7, respectively. FVIII mRNA was detected in the patient's peripheral lymphocytes and the deletion spanning exon 4 to 7 was confirmed at the RNA level. Immunoprecipitation experiments using 125I labeled A1, A2 and light chain demonstrated that the inhibitor reacted only with the 54 kDa A1 domain. The inhibitor activity was more than 95% neutralized by A1 domain polypeptide. Our findings suggest a close relationship between the inhibitor epitope and the specific gene deletion with regard to the pathogenesis of the inhibitor in this patient.

Published
2000

43. Antibodies to the FVIII light chain that neutralize FVIII procoagulant activity are present in plasma of nonresponder patients with severe hemophilia A and in normal polyclonal human IgG.

Author

Moreau A, Lacroix-Desmazes S, Stieltjes N, Saenko E, Kaveri SV, D'Oiron R, Sultan Y, Scandella D, and Kazatchkine MD

Subjects
Autoantibodies blood, Autoimmune Diseases immunology, Chromatography, Affinity, Enzyme-Linked Immunosorbent Assay, Humans, Immunoglobulin G isolation & purification, Immunoglobulins, Intravenous, Isoantibodies pharmacology, Kinetics, Reference Values, Antibodies pharmacology, Autoimmune Diseases blood, Factor VIII immunology, Factor VIII metabolism, Hemophilia A blood, Immunoglobulin G blood
Abstract

We have analyzed the properties of anti-factor VIII (FVIII) immunoglobulin (Ig) G recovered by affinity chromatography on FVIII-Sepharose from the IgG fraction of the plasma of healthy individuals and nonresponder patients with hemophilia A. Affinity-purified anti-FVIII antibodies were found to neutralize FVIII activity and to bind to FVIII with an affinity similar to that of anti-FVIII IgG that had been affinity-purified from the plasma of inhibitor-positive hemophilia patients and of patients with anti-FVIII autoimmune disease. The antibodies also exhibited patterns of reactivity with thrombin-digested FVIII similar to those of FVIII inhibitors and preferentially recognized epitopes located in the light chain of FVIII. These observations suggest that FVIII inhibitors occurring in hemophilia A and in patients with anti-FVIII autoimmune disease originate from the expansion of preexisting natural anti-FVIII clones that exhibit FVIII-neutralizing properties.

Published
2000

44. Reduction of the antigenicity of factor VIII toward complex inhibitory antibody plasmas using multiply-substituted hybrid human/porcine factor VIII molecules.

Author

Barrow RT, Healey JF, Gailani D, Scandella D, and Lollar P

Subjects
Animals, Cross Reactions, Dimerization, Factor VIII genetics, Factor Xa metabolism, Hemophilia A immunology, Humans, Macromolecular Substances, Protein Multimerization, Recombinant Proteins chemistry, Recombinant Proteins immunology, Reference Values, Swine, Thrombin metabolism, Factor VIII chemistry, Factor VIII immunology, Hemophilia A blood
Abstract

Factor VIII (fVIII) circulates as a heavy chain/light chain (A1-A2-B/ap-A3-C1-C2) heterodimer. The 41-residue light chain activation peptide, ap, is cleaved from fVIII during proteolytic activation by thrombin or factor Xa. We constructed 7 active recombinant hybrid B-domainless human/porcine fVIII molecules that contained combinations of porcine sequence replacements within the A2, ap-A3, and C2 domains. The cross-reactivity of 23 high-titer inhibitory antibodies between human fVIII and the hybrids was inversely related to the degree of porcine substitution. In all plasmas, the substitution of all 3 regions yielded cross-reactivities that were not significantly different from those of porcine fVIII. To differentiate between inhibitor binding to the ap region and the A3 domain, we constructed 2 additional hybrids that contained porcine A2 and C2 domain substitutions and either porcine A3 or porcine ap substitutions. The porcine ap segment was less antigenic than the human ap segment in several plasmas that had activity against the ap-A3 region. This indicates that some inhibitor plasmas contain antibodies directed against the fVIII ap segment in addition to A2, A3, and C2 domain epitopes identified in previous studies. Substitution of porcine sequences within the A2, A3, C2, and ap regions of human fVIII is necessary and sufficient to achieve a maximal reduction in antigenicity relative to porcine fVIII with respect to most inhibitory antibody plasmas. (Blood. 2000;95:564-568)

Published
2000

45. Properties of anti-factor VIII inhibitor antibodies in hemophilia A patients.

Author

Scandella DH

Subjects
Animals, Epitopes, Factor VIII therapeutic use, Humans, Isoantibodies chemistry, Factor VIII immunology, Hemophilia A immunology
Abstract

Blood coagulation factor VIII functions in the intrinsic pathway of blood coagulation as a cofactor by enhancing the assembly of its complex with factors IX and X on the surface of activated platelets. This requires factor VIII interaction with these two proteins, von Willebrand factor (vWF), and phospholipids on the platelet surface. Once factor VIII and factor IX are activated by proteolytic cleavage, the complex is able to activate factor X to factor Xa by proteolysis. In hemophilia A patients with severe factor VIII deficiency, about 30% respond to factor VIII infusion therapy immunologically to produce antibodies that inactivate the infused factor VIII and others that are noninhibitory. An assay that measures only the inhibitor antibodies demonstrated that the factor VIII A2, A3, and C2 domains are the most immunogenic, and domains A1 and B are poorly immunogenic or not immunogenic. The specific antibody responses to A2, A3, and C2 vary considerably among individuals, and epitopes for inhibitor antibodies have been determined for all three. The anti-C2 inhibitors prevent factor VIII binding to phospholipids and vWF, and anti-A3 inhibitors prevent binding to factor IX (IXa). An inhibitor binding site for factor X has been localized to the A1 domain acidic region, leading to inhibition of factor VIII/factor X binding by antibodies. This inhibitor mechanism is rare. Because a second binding site for factor IX was localized to the factor VIII A2 domain, it is likely but not proven that prevention of factor IX binding to factor VIII is the inhibitor mechanism for this epitope.

Published
2000
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46. Identification of a factor VIII peptide, residues 2315-2330, which neutralizes human factor VIII C2 inhibitor alloantibodies: requirement of Cys2326 and Glu2327 for maximum effect.

Author

Nogami K, Shima M, Nakai H, Tanaka I, Suzuki H, Morichika S, Shibata M, Saenko EL, Scandella D, Giddings JC, and Yoshioka A

Subjects
Amino Acid Sequence, Epitopes, Factor VIII chemistry, Factor VIII immunology, Humans, Molecular Sequence Data, Factor VIII antagonists & inhibitors, Isoantibodies metabolism, Peptide Fragments metabolism
Abstract

Factor VIII (FVIII) inhibitor alloantibodies react with combinations of the A2, C2 and A3-C1 domains of the FVIII molecule. Some inhibitors block binding of FVIII to both von Willebrand factor (VWF) and phospholipid, and recognize a C2 domain epitope which overlaps both binding sites. In order to determine the essential binding regions for alloantibodies inhibitory for FVIII activity, we have performed inhibitor neutralization assays and competitive inhibition assays using 10 overlapping synthetic peptides spanning the carboxy-terminal region of the C2 domain (residues 2288-2332). We found one peptide (2315-2330, L9) which neutralized the anti-FVIII activity of four out of five different C2 alloantibodies by 50%, 39%, 47% and 57%, respectively. Neutralization of these alloantibodies by recombinant C2 domain (residues 2173-2332) was 68%, 50%, 59%, 86% and >95%, respectively. The inhibitor which was not neutralized by L9 peptide and reacted by immunoblotting with peptide 2218-2307, did not prevent binding of FVIII to VWF and only partially inhibited binding of FVIII to phosphatidylserine. Mutants of the L9 peptide were prepared in which each residue from 2315-2330 was sequentially substituted by glycine. Inhibitor neutralization experiments using these peptides demonstrated that Arg2320 and Cys2326 or Glu2327 are important for the effect of L9 peptide, since their substitution by glycine reduced its neutralizing effect by 60% to >90%, suggesting that they are crucial for formation of the one of the C2 inhibitor epitopes.

Published
1999
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47. Antifactor VIII antibody inhibiting allogeneic but not autologous factor VIII in patients with mild hemophilia A.

Author

Peerlinck K, Jacquemin MG, Arnout J, Hoylaerts MF, Gilles JG, Lavend'homme R, Johnson KM, Freson K, Scandella D, Saint-Remy JM, and Vermylen J

Subjects
Amino Acid Substitution, Antibody Specificity, Antigen-Antibody Reactions, Autoantigens immunology, Child, Preschool, Enzyme-Linked Immunosorbent Assay, Epitopes immunology, Factor VIII chemistry, Factor VIIIa metabolism, Follow-Up Studies, Humans, Immune Tolerance, Immunization, Immunoglobulin G immunology, Infant, Male, Point Mutation, Precipitin Tests, von Willebrand Factor metabolism, Factor VIII genetics, Factor VIII immunology, Hemophilia A immunology, Isoantibodies immunology, Isoantigens immunology
Abstract

Two unrelated patients with the same Arg2150His mutation in the factor VIII (FVIII) C1 domain, a residual FVIII activity of 0.09 IU/mL, and inhibitor titres of 300 and 6 Bethesda Units, respectively, were studied. Further analysis of patient LE, with the highest inhibitor titer, showed that (1) plasma or polyclonal IgG antibodies prepared from LE plasma inhibited the activity of allogeneic (wild-type) but not of self FVIII; (2) the presence of von Willebrand factor (vWF) increased by over 10-fold the inhibitory activity on wild-type FVIII; (3) the kinetics of FVIII inhibition followed a type II pattern, but in contrast to previously described type II inhibitors, LE IgG was potentiated by the presence of vWF instead of being in competition with it; (4) polyclonal LE IgG recognized the FVIII light chain in enzyme-linked immunosorbent assay and the recombinant A3-C1 domains in an immunoprecipitation assay, indicating that at least part of LE antibodies reacted with the FVIII domain encompassing the mutation site; and (5) LE IgG inhibited FVIII activity by decreasing the rate of FVIIIa release from vWF, but LE IgG recognized an epitope distinct from ESH8, a murine monoclonal antibody exhibiting the same property. We conclude that the present inhibitors are unique in that they clearly distinguish wild-type from self, mutated FVIII. The inhibition of wild-type FVIII by LE antibody is enhanced by vWF and is associated with an antibody-dependent reduced rate of FVIIIa release from vWF.

Published
1999

48. Residues Glu2181-Val2243 contain a major determinant of the inhibitory epitope in the C2 domain of human factor VIII.

Author

Healey JF, Barrow RT, Tamim HM, Lubin IM, Shima M, Scandella D, and Lollar P

Subjects
Amino Acid Sequence, Amino Acid Substitution, Animals, Antibodies, Monoclonal immunology, Antibodies, Monoclonal pharmacology, Cross Reactions, Epitopes immunology, Factor VIII antagonists & inhibitors, Factor VIII immunology, Factor VIII metabolism, Hemophilia A blood, Humans, Macromolecular Substances, Molecular Sequence Data, Phospholipids metabolism, Recombinant Fusion Proteins immunology, Sequence Alignment, Sequence Homology, Amino Acid, Species Specificity, Structure-Activity Relationship, Swine, von Willebrand Factor metabolism, Epitopes chemistry, Factor VIII chemistry, Protein Structure, Tertiary
Abstract

The human blood coagulation factor VIII C2 domain (Ser2173-Tyr2332) contains an epitope recognized by most polyclonal inhibitory anti-factor VIII alloantibodies and autoantibodies. We took advantage of the differential reactivity of inhibitory antibodies with human and porcine factor VIII and mapped a major determinant of the C2 epitope by using a series of active recombinant hybrid human/porcine factor VIII molecules. A series of five C2-specific human antibodies and a murine anti-factor VIII monoclonal antibody, NMC-VIII/5, inhibited a hybrid containing a substitution of porcine sequence for Glu2181-Val2243 significantly less than human factor VIII. In contrast, four of the five patient antibodies and NMC-VIII/5 inhibited a hybrid containing a substitution of porcine sequence for Thr2253-Tyr2332 equally well as human factor VIII. Thus, a major factor VIII inhibitor epitope determinant is bounded by Glu2181-Val2243 at the NH2-terminal end of the C2 domain. Because C2 inhibitors block the binding of factor VIII to phospholipid and von Willebrand factor, for which binding sites have been localized to Thr2303-Tyr2332, these results imply that the segment bounded by Glu2181-Val2243 also is involved in these macromolecular interactions.

Published
1998

49. The natural history of the immune response to exogenous factor VIII in severe haemophilia A.

Author

Scandella D, Mondorf W, and Klinge J

Subjects
Factor VIII adverse effects, Factor VIII therapeutic use, Humans, Antibody Formation, Factor VIII immunology, Hemophilia A drug therapy, Hemophilia A immunology
Abstract

The development of inhibitory antibodies to factor VIII (fVIII) in severe haemophilia A patients is a serious therapeutic complication. Using a highly sensitive immunoprecipitation (IP) assay which measures all anti-fVIII antibodies, we have tested severe haemophilic plasmas from two clinical studies. Inhibitor titres in the range of 0.4 to 1 Bethesda units/ml (BU/ml) could not be verified by IP as being due to an immune response to fVIII in 35% of plasmas tested. Low fVIII recoveries were likewise correlated with the presence of antibodies in 29% of plasmas tested. However, 16% of plasmas without inhibitor titres had immune responses as measured by IP. The rapidity of antibody appearance did not allow their effective detection by IP before development of inhibitor titres. These results suggest that the IP assay can provide a valuable confirmation of anti-fVIII antibody production when the Bethesda assay is low or negative and where clinical observations suggest their presence, but they cannot be used reliably to detect early immune responses.

Published
1998
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50. Some human inhibitor antibodies interfere with factor VIII binding to factor IX.

Author

Zhong D, Saenko EL, Shima M, Felch M, and Scandella D

Subjects
Antibodies, Blocking pharmacology, Binding Sites immunology, Epitopes immunology, Factor IX immunology, Factor VIII immunology, Humans, Protein Binding drug effects, Protein Binding immunology, Recombinant Proteins immunology, Recombinant Proteins metabolism, Antibodies, Blocking immunology, Factor IX metabolism, Factor VIII metabolism
Abstract

Factor VIII (fVIII) functions as a cofactor of factor IXa in the intrinsic pathway of blood coagulation. Its absence or abnormality causes the bleeding disorder hemophilia A. About 23% of hemophiliacs who receive therapeutic fVIII infusions develop antibodies that inhibit its activity. We previously showed by inhibitor neutralization assays that the fVIII A2 and C2 domain polypeptides contain common inhibitor epitopes. Often hemophilic inhibitor plasmas were partially neutralized by C2 and more completely neutralized by fVIII light chain (A3-C1-C2), suggesting the presence of an additional major inhibitor epitope(s) within the A3-C1 domains. In immunoprecipitation assays, 17 of 18 inhibitor IgGs bound to recombinant 35S-A3-C1. Amino acids 1811-1818 of the A3 domain comprise a binding site for factors IX and IXa. Three inhibitor IgGs prevented binding of factor IXa to fVIII light chain, and the binding of each IgG to light chain was competed by A3 peptide 1804-1819. The generation of factor Xa by the fVIIIa/fIXa complex in a chromogenic assay was prevented by these inhibitors. Therefore, we propose that another important mechanism of fVIII inactivation by human inhibitors is the prevention of fVIIIa/fIXa association.

Published
1998

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