Your search keyword '"Idiotypic Antibody"' showing total 23 results

1. Anti-idiotypic Antibodies against BP-IgG Prevent Type XVII Collagen Depletion

Author

Mayumi Kamaguchi, Hiroaki Iwata, Yuiko Mori, Ellen Toyonaga, Hideyuki Ujiie, Yoshimasa Kitagawa, and Hiroshi Shimizu

Subjects

bullous pemphigoid, type XVII collagen, intravenous immunoglobulin, idiotypic antibody, depletion, autoantibody, Immunologic diseases. Allergy, RC581-607

Abstract

Bullous pemphigoid (BP) mainly targets type XVII collagen (COL17). Intravenous immunoglobulin (IVIg) is used to treat numerous autoimmune diseases, including BP. The major mechanism of action for IVIG is thought to be its immunomodulatory effect. However, little is known about the precise mechanisms of IVIg in BP. We investigate the cellular effects of IVIg, toward treatments for BP. Keratinocytes were treated with IgG from BP patients (BP-IgG) and with IVIg, and then the COL17 expression was detected by Western blotting. Cell adhesion and ex vivo dermal–epidermal separation were also investigated for the condition with BP-IgG and IVIg. BP-IgG targeting the non-collagenous 16A domain induces the depletion of COL17 in cultured keratinocytes (DJM-1 cells). The COL17 levels in DJM-1 cells were decreased by 50% after 4 h of BP-IgG stimulation as determined by Western blotting. By contrast, BP-IgG with IVIg was found to result in 70–90% increases in COL17 and to restore adhesion to the plate. Interestingly, IVIg significantly inhibited the binding of BP-IgG to the COL17-enzyme-linked immunosorbent assay plate, and this was due to anti-idiotypic antibodies against BP-IgG. When anti-idiotypic antibodies against BP-IgG in 0.02% of IVIg were depleted from IVIg, those antibodies did not exhibit inhibitory effects on COL17 depletion. When cryosections of human skin were incubated with BP-IgG in the presence of leukocytes, dermal–epidermal separation was observed. BP-IgG treatment with IVIg or anti-idiotypic antibodies did not induce such separation. These findings strongly suggest the presence of anti-idiotypic antibodies against anti-COL17 IgG in IVIg. This mechanism of IVIg could be a target for therapies against BP.

Published

2017

2. Structural Mimicry of the Dengue Virus Envelope Glycoprotein Revealed by the Crystallographic Study of an Idiotype–Anti-idiotype Fab Complex.

Author

Yee Hwa Wong, Boon Chong Goh, She Yah Lim, En Wei Teo, Lim, Angeline P. C., Dedon, Pete C., Hanson, Brendon J., MacAry, Paul A., and Lescar, Julien

Subjects

*DENGUE viruses, *IDIOTYPIC networks, *GLYCOPROTEINS, *ANTIGENS, *IMMUNE system, *X-ray crystallography, *PHYSIOLOGY

Abstract

A detailed understanding of the fine specificity of serotype-specific human antibodies is vital for the development and evaluation of new vaccines for pathogenic flaviviruses such as dengue virus (DENV) and Zika virus. In this study, we thoroughly characterize the structural footprint of an anti-idiotype antibody (E1) specific for a potent, fully human DENV serotype 1-specific antibody, termed HM14c10, derived from a recovered patient. The crystal structure at a resolution of 2.5 Å of a complex between the Fab fragments of E1 and HM14c10 provides the first detailed molecular comparison of an anti-idiotype paratope specific for a human antibody with its analogous epitope, a discontinuous quaternary structure located at the surface of the viral particle that spans adjacent envelope (E) proteins. This comparison reveals that the footprints left by E1 and E on HM14c10 largely overlap, explaining why the formation of binary complexes is mutually exclusive. Structural mimicry of the DENV E epitope by the E1 combining site is achieved via the formation of numerous interactions with heavy chain complementarity domain regions (CDRs) of HM14c10, while fewer interactions are observed with its light chain than for the E protein. We show that E1 can be utilized to detect HM14c10-like antibodies in sera from patients who recovered from DENV-1, infection suggesting that this is a public (common) idiotype. These data demonstrate the utility of employing an anti-idiotype antibody to monitor a patient's specific immune responses and suggest routes for the improvement of E "mimicry" by E1 by increasing its recognition of the Fab HM14c10 light chain CDRs. IMPORTANCE A chimeric yellow fever-dengue live-attenuated tetravalent vaccine is now being marketed. Dengue remains a significant public health problem, because protection conferred by this vaccine against the four circulating serotypes is uneven. Reliable tools must be developed to measure the immune responses of individuals exposed to DENV either via viral infection or through vaccination. Anti-idiotypic antibodies provide precision tools for analyzing the pharmacokinetics of antibodies in an immune response and also for measuring the amount of circulating anti-infective therapeutic antibodies. Here, we characterize how an anti-idiotypic antibody (E1) binds antibody HM14c10, which potently neutralizes DENV serotype 1. We report the crystal structure at a resolution of 2.5 Å of a complex between the Fab fragments of E1 and HM14c10 and provide the first detailed molecular comparison between the anti-idiotype surface and its analogous epitope located at the surface of the dengue virus particle. [ABSTRACT FROM AUTHOR]

Published

2017

3. Structural Analysis of Anti-cancer Antibody, CLN-IgG, and Anti-Idiotypic Antibody, Idio-No. 3, for the Study of Idiotope Image Transmission: An Insight into Antigen-Specific Human Monoclonal Antibody Therapy

Author

Hagiwara, Hideaki, Aotsuka, Yasuyuki, and Nagai, Masakatsu, editor

Published

1996

4. Regulation of Lacrimal Gland Immune Responses

Author

Montgomery, P. C., O’Sullivan, N. L., Martin, L. B., Skandera, C. A., Peppard, J. V., Pockley, A. G., and Sullivan, David A., editor

Published

1994

5. Anti-idiotypic Antibodies in the HLA System

Author

Mariani, S. M., Armandola, E. A., Ferrone, S., Solheim, Bjarte G., editor, Ferrone, Soldano, editor, and Möller, Erna, editor

Published

1993

6. Idiotype Vaccines by Antibody Engineering: Structural and Functional Considerations

Author

Zanetti, Maurizio, Billetta, Rosario, Sollazzo, Maurizio, Talwar, G. P., editor, and Cazenave, P.-A., editor

Published

1991

7. Alterations in B Cells and Antibodies of Aged Mice

Author

Klinman, Norman R., Riley, Sylvia C., Zharhary, Dorith, Froscher, Barbara G., Powers, Gordon D., Linton, Phyllis-Jean, Goldstein, Allan L., editor, Kumar, Ajit, editor, and Bailey, J. Martyn, editor

Published

1990

8. Idiotypic antibody immunotherapy of cancer.

Author

Chatterjee, Malaya, Foon, Kenneth, and Köhler, Heinz

Published

1994

9. Anti-idiotypic Antibodies against BP-IgG Prevent Type XVII Collagen Depletion

Author

Kamaguchi, Mayumi, Iwata, Hiroaki, Mori, Yuiko, Toyonaga, Ellen, Ujiie, Hideyuki, Kitagawa, Yoshimasa, Shimizu, Hiroshi, Kamaguchi, Mayumi, Iwata, Hiroaki, Mori, Yuiko, Toyonaga, Ellen, Ujiie, Hideyuki, Kitagawa, Yoshimasa, and Shimizu, Hiroshi

Abstract

Bullous pemphigoid (BP) mainly targets type XVII collagen (COL17). Intravenous immunoglobulin (IVIg) is used to treat numerous autoimmune diseases, including BP. The major mechanism of action for IVIG is thought to be its immunomodulatory effect. However, little is known about the precise mechanisms of IVIg in BP. We investigate the cellular effects of IVIg, toward treatments for BP. Keratinocytes were treated with IgG from BP patients (BP-IgG) and with IVIg, and then the COL17 expression was detected by Western blotting. Cell adhesion and ex vivo dermal-epidermal separation were also investigated for the condition with BP-IgG and IVIg. BP-IgG targeting the non-collagenous 16A domain induces the depletion of COL17 in cultured keratinocytes (DJM-1 cells). The COL17 levels in DJM-1 cells were decreased by 50% after 4 h of BP-IgG stimulation as determined by Western blotting. By contrast, BP-IgG with IVIg was found to result in 70-90% increases in COL17 and to restore adhesion to the plate. Interestingly, IVIg significantly inhibited the binding of BP-IgG to the COL17-enzymelinked immunosorbent assay plate, and this was due to anti-idiotypic antibodies against BP-IgG. When anti-idiotypic antibodies against BP-IgG in 0.02% of IVIg were depleted from IVIg, those antibodies did not exhibit inhibitory effects on COL17 depletion. When cryosections of human skin were incubated with BP-IgG in the presence of leukocytes, dermal-epidermal separation was observed. BP-IgG treatment with IVIg or anti-idiotypic antibodies did not induce such separation. These findings strongly suggest the presence of anti-idiotypic antibodies against anti-COL17 IgG in IVIg. This mechanism of IVIg could be a target for therapies against BP.

Published

2017

10. Structural mimicry of the dengue virus envelope glycoprotein revealed by the crystallographic study of an idiotype–anti-idiotype Fab complex

Author

Paul A. MacAry, Yee Hwa Wong, En Wei Teo, Boon Chong Goh, She Yah Lim, Angeline P. C. Lim, Peter C. Dedon, Brendon John Hanson, Julien Lescar, Jung, Jae U., School of Biological Sciences, and NTU Institute of Structural Biology

Subjects

0301 basic medicine, Idiotype, Serotype, Immunology, Dengue virus, Immunoglobulin light chain, medicine.disease_cause, 01 natural sciences, Microbiology, Epitope, Dengue fever, 03 medical and health sciences, Virology, 0103 physical sciences, Vaccines and Antiviral Agents, medicine, 010304 chemical physics, biology, Idiotypic Antibody, Dengue Virus, medicine.disease, Science::Biological sciences [DRNTU], 030104 developmental biology, Insect Science, biology.protein, Paratope, Antibody

Abstract

A detailed understanding of the fine specificity of serotype-specific human antibodies is vital for the development and evaluation of new vaccines for pathogenic flaviviruses such as dengue virus (DENV) and Zika virus. In this study, we thoroughly characterize the structural footprint of an anti-idiotype antibody (E1) specific for a potent, fully human DENV serotype 1-specific antibody, termed HM14c10, derived from a recovered patient. The crystal structure at a resolution of 2.5 Å of a complex between the Fab fragments of E1 and HM14c10 provides the first detailed molecular comparison of an anti-idiotype paratope specific for a human antibody with its analogous epitope, a discontinuous quaternary structure located at the surface of the viral particle that spans adjacent envelope (E) proteins. This comparison reveals that the footprints left by E1 and E on HM14c10 largely overlap, explaining why the formation of binary complexes is mutually exclusive. Structural mimicry of the DENV E epitope by the E1 combining site is achieved via the formation of numerous interactions with heavy chain complementarity domain regions (CDRs) of HM14c10, while fewer interactions are observed with its light chain than for the E protein. We show that E1 can be utilized to detect HM14c10-like antibodies in sera from patients who recovered from DENV-1, infection suggesting that this is a public (common) idiotype. These data demonstrate the utility of employing an anti-idiotype antibody to monitor a patient's specific immune responses and suggest routes for the improvement of E “mimicry” by E1 by increasing its recognition of the Fab HM14c10 light chain CDRs. IMPORTANCE A chimeric yellow fever-dengue live-attenuated tetravalent vaccine is now being marketed. Dengue remains a significant public health problem, because protection conferred by this vaccine against the four circulating serotypes is uneven. Reliable tools must be developed to measure the immune responses of individuals exposed to DENV either via viral infection or through vaccination. Anti-idiotypic antibodies provide precision tools for analyzing the pharmacokinetics of antibodies in an immune response and also for measuring the amount of circulating anti-infective therapeutic antibodies. Here, we characterize how an anti-idiotypic antibody (E1) binds antibody HM14c10, which potently neutralizes DENV serotype 1. We report the crystal structure at a resolution of 2.5 Å of a complex between the Fab fragments of E1 and HM14c10 and provide the first detailed molecular comparison between the anti-idiotype surface and its analogous epitope located at the surface of the dengue virus particle.

Published

2017

11. Immunization with Antigen-Bound Antibody: An Experimental Approach to Prevention of Sensitization to Allogeneic Blood Cells

Author

Terness, P., Süsal, C., Opelz, G., Sibinga, Cees Th. Smit, editor, Das, Prakash C., editor, and Engelfriet, C. Paul, editor

Published

1987

12. VH Gene Products Allow Specific Communication among Immunologic Cell Sets

Author

Woodland, Robert T., Cantor, Harvey, Hanna, M. G., Jr., editor, and Warner, Noel L., editor

Published

1980

13. Virus Receptors on Somatic and Immune Cells

Author

Co, Man Sung, Gaulton, Glen N., Matsuzaki, Noboru, Greene, Mark I., and Springer, Timothy A., editor

Published

1985

14. Auto-Anti-Idiotype Production during the Response to Antigen

Author

Thorbecke, G. Jeanette, Siskind, Gregory W., Greene, Mark I., editor, and Nisonoff, Alfred, editor

Published

1984

15. Idiotypes of Ir Gene-Controlled Anti-GAT Response

Author

Ju, Shyr-Te, Greene, Mark I., editor, and Nisonoff, Alfred, editor

Published

1984

16. Analysis of 9W Antisera Detecting DR4- and DR2-Associated Epitopes by Use of Anti-idiotypic Antibodies

Author

Reed, E., Rohowsky-Kochan, C., Suciu-Foca, N., Albert, Ekkehard D., editor, Baur, Max P., editor, Mayr, Wolfgang R., editor, Bertrams, J., editor, Goldmann, S., editor, Grosse-Wilde, H., editor, Opelz, G., editor, Rittner, C., editor, Schendel, D. J., editor, Scholz, S., editor, and Wank, R., editor

Published

1984

17. Antibodies as Tools for Studying Tachykinins and Their Receptors

Author

Couraud, J. Y., Frobert, Y., Renzi, D., Lamourette, P., Grassi, J., Conrath, M., Regoli, D., Pradelles, P., Henry, James L., editor, Couture, Rejean, editor, Cuello, A. Claudio, editor, Pelletier, Georges, editor, Quirion, Remi, editor, and Regoli, Domenico, editor

Published

1987

18. The HLA-D Region: Serology, Structure, Tissue Distribution, and Function of Human Class II Molecules and Their Antigenic Determinants

Author

Stastny, P., Capra, J. D., Hurley, C. K., Giles, R., DeMars, R., Nunez, G., Myers, L. K., Ball, E. J., Albert, Ekkehard D., editor, Baur, Max P., editor, Mayr, Wolfgang R., editor, Bertrams, J., editor, Goldmann, S., editor, Grosse-Wilde, H., editor, Opelz, G., editor, Rittner, C., editor, Schendel, D. J., editor, Scholz, S., editor, and Wank, R., editor

Published

1984

19. Serologic Detection of New Polymorphisms on DQ Molecules Distinct from the DQw1, 2, and 3 Specificities

Author

Nunez, G., Latimer, M. J., Ball, E. J., Myers, L. K., Stastny, P., Albert, Ekkehard D., editor, Baur, Max P., editor, Mayr, Wolfgang R., editor, Bertrams, J., editor, Goldmann, S., editor, Grosse-Wilde, H., editor, Opelz, G., editor, Rittner, C., editor, Schendel, D. J., editor, Scholz, S., editor, and Wank, R., editor

Published

1984

20. Interaction studies of idiotypic and antiidiotypic antibodies at experimental tumor targeting

Author

Erlandsson, Ann and Erlandsson, Ann

Abstract

An increasing number of antibodies are being labeled with radionuclides for immunotargeting, but the negative side effects generated on normal tissues by the nuclide remains a significant problem. The clearing of non-tumor-targeted radiolabeled antibodies from the circulation contributes significantly to improved targeting; it has been demonstrated that anti-idiotypic antibodies can be used for this purpose. This thesis describes a study of the interactions between the idiotypic antibody TS1, its intracellular tumor-associated antigen CK8 and anti-idiotypic antibody aTS1 as well as the clearing and metabolism of the complexes formed between TS1 and aTS1. The TS1 epitope on CK8, located at amino acid positions 347–348, 350, 354–355, and 357 in helix 2B, was identified through alanine scanning. Upon chemical modification of TS1 using protective and unprotective approaches, it became apparent that the TS1 interaction sites for aTS1 and CK8 were partially overlapping. Aspartic acid, glutamic acid, and tyrosine residues and primary amino groups are important for the interactions of TS1 with both CK8 and aTS1. One modification of acidic amino acids in TS1 increased the affinity for CK8. Furthermore, TS1 contains one histidine residue that is located in a groove of the interaction surface and, from chemical modification studies; this histidine residue appears to play an important role for the interaction only with aTS1. Using phage display technology, specifically binding peptides having homologies with aTS1 were selected against TS1; site-directed mutagenesis verified the importance of two histidines, one valine, and one tyrosine residue in the homologous region of the light chain of aTS1. Site-directed mutagenesis also demonstrated that Y32 and K50 in the light chain and K33 and Y52 in the heavy chain positioned centrally on the antibody combining site of aTS1 were crucial for the binding to TS1. Two aTS1 mutants having affinities for TS1 similar to that of the wild type

Published

2005

21. Anti-idiotypic Antibodies against BP-IgG Prevent Type XVII Collagen Depletion.

Author

Kamaguchi M, Iwata H, Mori Y, Toyonaga E, Ujiie H, Kitagawa Y, and Shimizu H

Abstract

Bullous pemphigoid (BP) mainly targets type XVII collagen (COL17). Intravenous immunoglobulin (IVIg) is used to treat numerous autoimmune diseases, including BP. The major mechanism of action for IVIG is thought to be its immunomodulatory effect. However, little is known about the precise mechanisms of IVIg in BP. We investigate the cellular effects of IVIg, toward treatments for BP. Keratinocytes were treated with IgG from BP patients (BP-IgG) and with IVIg, and then the COL17 expression was detected by Western blotting. Cell adhesion and ex vivo dermal-epidermal separation were also investigated for the condition with BP-IgG and IVIg. BP-IgG targeting the non-collagenous 16A domain induces the depletion of COL17 in cultured keratinocytes (DJM-1 cells). The COL17 levels in DJM-1 cells were decreased by 50% after 4 h of BP-IgG stimulation as determined by Western blotting. By contrast, BP-IgG with IVIg was found to result in 70-90% increases in COL17 and to restore adhesion to the plate. Interestingly, IVIg significantly inhibited the binding of BP-IgG to the COL17-enzyme-linked immunosorbent assay plate, and this was due to anti-idiotypic antibodies against BP-IgG. When anti-idiotypic antibodies against BP-IgG in 0.02% of IVIg were depleted from IVIg, those antibodies did not exhibit inhibitory effects on COL17 depletion. When cryosections of human skin were incubated with BP-IgG in the presence of leukocytes, dermal-epidermal separation was observed. BP-IgG treatment with IVIg or anti-idiotypic antibodies did not induce such separation. These findings strongly suggest the presence of anti-idiotypic antibodies against anti-COL17 IgG in IVIg. This mechanism of IVIg could be a target for therapies against BP.

Published

2017

22. Structural Mimicry of the Dengue Virus Envelope Glycoprotein Revealed by the Crystallographic Study of an Idiotype-Anti-idiotype Fab Complex.

Author

Wong YH, Goh BC, Lim SY, Teo EW, Lim APC, Dedon PC, Hanson BJ, MacAry PA, and Lescar J

Abstract

A detailed understanding of the fine specificity of serotype-specific human antibodies is vital for the development and evaluation of new vaccines for pathogenic flaviviruses such as dengue virus (DENV) and Zika virus. In this study, we thoroughly characterize the structural footprint of an anti-idiotype antibody (E1) specific for a potent, fully human DENV serotype 1-specific antibody, termed HM14c10, derived from a recovered patient. The crystal structure at a resolution of 2.5 Å of a complex between the Fab fragments of E1 and HM14c10 provides the first detailed molecular comparison of an anti-idiotype paratope specific for a human antibody with its analogous epitope, a discontinuous quaternary structure located at the surface of the viral particle that spans adjacent envelope (E) proteins. This comparison reveals that the footprints left by E1 and E on HM14c10 largely overlap, explaining why the formation of binary complexes is mutually exclusive. Structural mimicry of the DENV E epitope by the E1 combining site is achieved via the formation of numerous interactions with heavy chain complementarity domain regions (CDRs) of HM14c10, while fewer interactions are observed with its light chain than for the E protein. We show that E1 can be utilized to detect HM14c10-like antibodies in sera from patients who recovered from DENV-1, infection suggesting that this is a public (common) idiotype. These data demonstrate the utility of employing an anti-idiotype antibody to monitor a patient's specific immune responses and suggest routes for the improvement of E "mimicry" by E1 by increasing its recognition of the Fab HM14c10 light chain CDRs. IMPORTANCE A chimeric yellow fever-dengue live-attenuated tetravalent vaccine is now being marketed. Dengue remains a significant public health problem, because protection conferred by this vaccine against the four circulating serotypes is uneven. Reliable tools must be developed to measure the immune responses of individuals exposed to DENV either via viral infection or through vaccination. Anti-idiotypic antibodies provide precision tools for analyzing the pharmacokinetics of antibodies in an immune response and also for measuring the amount of circulating anti-infective therapeutic antibodies. Here, we characterize how an anti-idiotypic antibody (E1) binds antibody HM14c10, which potently neutralizes DENV serotype 1. We report the crystal structure at a resolution of 2.5 Å of a complex between the Fab fragments of E1 and HM14c10 and provide the first detailed molecular comparison between the anti-idiotype surface and its analogous epitope located at the surface of the dengue virus particle., (Copyright © 2017 American Society for Microbiology.)

Published

2017

23. The network theory in autoimmunity: In vitro modulation of DNA-binding cells by antiidiotypic antibody present in inactive lupus sera

Author

Abdou, Nabih I., Wall, Helen, and Clancy, Jr, John

Published

1981