Your search keyword '"Gelatin immunology"' showing total 10 results

1. Intraoperative anaphylaxis likely due to Gelfoam in a pediatric patient undergoing liver biopsy.

Author

Robbins KA and Keet CA

Subjects

Biopsy adverse effects, Child, Collagen adverse effects, Edema immunology, Epiglottis immunology, Epiglottis pathology, Female, Gelatin adverse effects, Gelatin immunology, Heart Transplantation adverse effects, Humans, Liver surgery, Lymphoproliferative Disorders complications, Pharynx immunology, Pharynx pathology, Anaphylaxis diagnosis, Anaphylaxis etiology, Anaphylaxis genetics, Collagen immunology, Gelatin Sponge, Absorbable adverse effects, Intraoperative Complications diagnosis, Intraoperative Complications etiology

Published

2015

2. The role of collagen receptors Endo180 and DDR-2 in the foreign body reaction against non-crosslinked collagen and gelatin.

Author

Ye Q, Harmsen MC, Ren Y, and Bank RA

Subjects

Animals, Collagen chemistry, Discoidin Domain Receptors, Foreign-Body Reaction immunology, Gelatin chemistry, Giant Cells immunology, Giant Cells metabolism, Immunohistochemistry, Macrophages immunology, Macrophages metabolism, Male, Matrix Metalloproteinase 13 metabolism, Matrix Metalloproteinase 14 metabolism, Mice, Mice, Inbred C57BL, Microscopy, Fluorescence, Neutrophils immunology, Neutrophils metabolism, Tissue Scaffolds, Collagen immunology, Foreign-Body Reaction metabolism, Gelatin immunology, Receptor Protein-Tyrosine Kinases metabolism, Receptors, Mitogen metabolism

Abstract

Despite the use of collagen-derived scaffolds in regenerative medicine, little is known about the degradation mechanisms of these scaffolds in vivo. Non-crosslinked dermal sheep (NDSC) and gelatin disks were implanted subcutaneously in mice. NDSC disks showed a very low degradation rate, despite the presence of high numbers of macrophages and the influx of neutrophils. This was attributed to the presence of the matrix metalloproteinase inhibitor TIMP-1. The limited degradation occurred mainly in the later stages of the foreign body reaction, and could be attributed to (1) phagocytosis by macrophages due to a co-expression of Endo180 and MT1-MMP on these cells (intracellular degradation) and (2) the presence of MMP-13 due to an upregulation of the expression of the DDR-2 receptor (extracellular degradation). In contrast, gelatin disks degraded quickly, due to the efficient formation of large giant cells as well as the presence of MMP-13; the inhibitor TIMP-1 was absent. The DDR-2 receptor was not expressed in the gelatin disks. Endo180 and MT1-MMP were expressed, but at most times no co-expression was seen. We conclude that the physical state of collagen (native or denatured) had a dramatic outcome on the degradation rate and provoked a completely different foreign body reaction., (Copyright © 2010 Elsevier Ltd. All rights reserved.)

Published

2011

3. Immune response against polyester implants is influenced by the coating substances.

Author

Wilhelm L, Zippel R, von Woedtke T, Kenk H, Hoene A, Patrzyk M, and Schlosser M

Subjects

Animals, Antibodies immunology, Antibody Specificity immunology, Binding, Competitive, Humans, Immunoglobulin G blood, Male, Rats, Time Factors, Antibody Formation immunology, Coated Materials, Biocompatible metabolism, Collagen immunology, Gelatin immunology, Polyesters metabolism, Prostheses and Implants, Serum Albumin immunology

Abstract

The aim of this study was to evaluate the influence of the coating of polymer implants upon the individual humoral immune response to the polymer matrix. Intramuscular implantation and explantation of samples from three different polyester vascular prostheses coated with collagen, gelatin, or human serum albumin was performed in LEW.1A rats and subsequently compared to sham operated control animals. Antibodies in serum samples were detected by means of enzyme immunoassays employing particles of pure polyester and the respective prosthesis, or solid phase bound coating substances as targets. In contrast to the controls, all animals with implants demonstrated a high antipolyester antibody response with a broad individual variability graduated according to the prosthesis coatings: gelatin > albumin > collagen. This was further significantly increased after the second implantation/first explantation and declined following the last explantation. Only animals with albumin-coated implants revealed specific antibodies to the coating as well as the strongest overall immunological reaction against the prosthesis already on day 8. Specificity of polymer antibodies was demonstrated by competitive inhibition of median antibody binding. Our results showed a specific immune reaction as a result of the applied polymer, which varied due to the surface-coating and individual factors.

Published

2007

4. Mysterious disappearance of an allogenic anterior cruciate ligament graft--a case of allergy against altered collagen.

Author

Karrer S, Ascher G, Landthaler M, and Szeimies RM

Subjects

Anterior Cruciate Ligament immunology, Gelatin immunology, Humans, Male, Middle Aged, Transplantation, Homologous, Anterior Cruciate Ligament transplantation, Collagen immunology, Graft Rejection immunology, Hypersensitivity immunology

Published

2006

5. Analysis of the major epitope of the alpha2 chain of bovine type I collagen in children with bovine gelatin allergy.

Author

Hori H, Hattori S, Inouye S, Kimura A, Irie S, Miyazawa H, and Sakaguchi M

Subjects

Amino Acid Sequence genetics, Animals, Binding Sites, Antibody, Cattle, Child, Preschool, Collagen genetics, Collagen Type I, Humans, Immunoglobulin E analysis, Infant, Molecular Sequence Data, Recombinant Proteins immunology, Collagen immunology, Epitopes analysis, Gelatin immunology, Hypersensitivity immunology

Abstract

Background: Anaphylaxis to measles, mumps, and rubella vaccines has been reported. It has been found that most of these reactions to live vaccines are caused by type I allergy with the bovine gelatin present in the vaccines as an allergen. Gelatin mainly includes denatured type I collagen, which consists of alpha1 and alpha2 chains. We previously reported that allergic reactions to gelatin are caused by the type I collagen alpha2 (alpha2[I]) chain., Objective: To aid in the development of gelatin that has little or no allergenicity in human subjects, we investigated epitopes of bovine alpha2(I) chain with use of IgE in gelatin-sensitive children., Methods: Serum samples were collected from 15 patients who had systemic allergic reactions to vaccines and high levels of specific IgE to bovine gelatin. Eleven overlapping recombinant proteins that cover bovine alpha2(I) were prepared with a bacterial expression vector. We examined IgE reactivity to these recombinant proteins by means of ELISA. Fifteen peptides covering a major reactive recombinant protein were synthesized. The IgE-reacting epitope was identified by means of IgE-ELISA inhibition with these synthetic peptides and pooled serum from the patients., Results: We found that of the 15 patients, 13 showed IgE reactivity to a recombinant protein (no. 3) spanning the central region of the collagenous domain ((418)Gly-(662)Pro). Furthermore, all 13 patients showed IgE reactivity to the 4-kd recombinant protein (no. 3a) spanning the region from (461)Pro to (500)Glu. In IgE-ELISA inhibition we found that a minimum IgE epitope of gelatin allergen was composed of the 10-amino-acid sequence (485)Ile-Pro-Gly-Glu-Phe-Gly-Leu-Pro-Gly-Pro(494). This sequence is not observed in the human type I collagen alpha1 and alpha2 chains, nor is it found in the bovine type I collagen alpha1 chain., Conclusions: We found that Ile-Pro-Gly-Glu-Phe-Gly-Leu-Pro-Gly-Pro is a major IgE epitope of the alpha2 chain of bovine type I collagen in patients with gelatin allergy. The degree of anaphylaxis to gelatin in vaccines might be reduced by digestion of this IgE-binding site in gelatin.

Published

2002

6. IgE antibody to fish gelatin (type I collagen) in patients with fish allergy.

Author

Sakaguchi M, Toda M, Ebihara T, Irie S, Hori H, Imai A, Yanagida M, Miyazawa H, Ohsuna H, Ikezawa Z, and Inouye S

Subjects

Adolescent, Adult, Animals, Antibodies, Antigens immunology, Cattle, Collagen isolation & purification, Cross Reactions immunology, Dermatitis, Atopic immunology, Enzyme-Linked Immunosorbent Assay, Female, Gelatin immunology, Humans, Immunoglobulin E chemistry, Immunoglobulin E immunology, Male, Meat, Middle Aged, Skin immunology, Collagen immunology, Fishes immunology, Food Hypersensitivity immunology

Abstract

Background: Most children with anaphylaxis to measles, mumps, and rubella vaccines had shown sensitivity to bovine gelatin that was included in the vaccines. Recently, it was found that bovine type I collagen, which is the main content in the gelatin, is a major allergen in bovine gelatin allergy. Fish meat and skin also contain type I collagen., Objective: The present study was designed to investigate IgE antibody to fish gelatin in children with fish allergy., Methods: Serum samples were taken from patients in 3 groups: (1) 10 patients with fish allergy and specific IgE to fish meat; (2) two patients with allergies to both fish meat and bovine gelatin and specific IgE to fish meat and bovine gelatin; and (3) 15 patients with atopic dermatitis and specific IgE to fish meat. Various fish gelatins (type I collagen) were prepared from fish skin. IgE antibody to fish gelatin was analyzed by using ELISA and immunoblotting., Results: Of 10 patients with fish allergy, 3 had specific IgE to fish gelatin. Of two patients with fish allergy and bovine gelatin allergy, all had specific IgE to fish gelatin. Of 15 patients with atopic dermatitis and specific IgE to fish meat, 5 had specific IgE to fish gelatin. Furthermore, IgE from pooled serum of the patients reacted with both the alpha1 and alpha2 chains of fish type I collagen in immunoblots. There is cross-reactivity among gelatins from various fishes, but there is little cross-reactivity between fish and bovine gelatins., Conclusion: Some fish-sensitive patients possessed IgE antibody to fish gelatin. Fish gelatin (type I collagen) might be an allergen in subjects with fish allergy.

Published

2000

7. IgE reactivity to alpha1 and alpha2 chains of bovine type 1 collagen in children with bovine gelatin allergy.

Author

Sakaguchi M, Hori H, Hattori S, Irie S, Imai A, Yanagida M, Miyazawa H, Toda M, and Inouye S

Subjects

Animals, Cattle, Cells, Cultured, Child, Preschool, Excipients, Female, Histamine Release, Humans, Infant, Male, Mast Cells cytology, Mast Cells immunology, Protein Denaturation, Vaccines immunology, Anaphylaxis immunology, Collagen immunology, Gelatin immunology, Immunoglobulin E immunology

Abstract

Background: Anaphylactic reactions to measles, mumps, and rubella vaccines, including gelatin as a stabilizer, have been reported. It had been found that most of these reactions to live vaccines are caused by the bovine gelatin included in these vaccines. Gelatin mainly includes denatured type I collagen, which consists of alpha1 and alpha2 chains., Objective: The current study was designed to investigate the IgE reactivity to alpha1 and alpha2 chains of bovine type I collagen in gelatin-sensitive children., Methods: Serum samples were taken from 10 children who had anaphylaxis to the vaccines and high levels of specific IgE to bovine gelatin. Bovine type I collagen was isolated from bovine skin and then separated to alpha1 and alpha2 chains by column chromatography. IgE reactivity to denatured type I collagen and its alpha1 and alpha2 chains was analyzed by immunoblotting, ELISA, and histamine release from the mast cells passive sensitized with IgE antibodies in pooled serum of the children., Results: All children had specific IgE to bovine type I collagen. Furthermore, IgE antibodies in their sera reacted with the alpha;2 chain but not with the alpha1 chain. Similarly, the mast cells sensitized with pooled sera in the children showed alpha2 chain-specific histamine release but not alpha1 chain-specific histamine release., Conclusion: In gelatin allergy denatured bovine type I collagen is a major allergen and IgE-binding sites exist in the alpha2 chain of type I collagen.

Published

1999

8. Distribution of antibodies against denatured collagen in AIDS risk groups and homosexual AIDS patients suggests a link between autoimmunity and the immunopathogenesis of AIDS.

Author

Grant MD, Weaver MS, Tsoukas C, and Hoffmann GW

Subjects

Antibody Specificity, Gelatin immunology, HIV Seropositivity immunology, Homosexuality, Humans, Immunoglobulin G immunology, Risk Factors, beta 2-Microglobulin analysis, Acquired Immunodeficiency Syndrome immunology, Autoantibodies immunology, Autoimmunity, Collagen immunology

Abstract

Autoimmunity often precedes the onset of AIDS-related complex or AIDS, and a number of autoantibodies have been described in AIDS patients and persons at risk for AIDS. The presence of such antibodies provokes speculation that autoimmunity is a component of AIDS pathogenesis. We report evidence of an autoantibody (anticollagen) common to all homosexual AIDS patients studied. High titer serum reactivity against collagen was detected in all homosexual AIDS patients, and in HIV+ homosexuals (66%), HIV+ i.v. drug users (38%) HIV- homosexuals (32%), HIV+ transfusion recipients (22%), and HIV+ hemophiliacs (13%), but not in HIV- i.v. drug users, HIV- transfusion recipients, HIV- hemophiliacs, rheumatoid arthritis patients, or controls. Anticollagen reactivity does not correlate with serum IgG levels, so it is not merely a reflection of polyclonal B-cell activation. Titration of anticollagen positive sera typically revealed anticollagen antibody titers 100 times those of normal sera. Affinity purification and immunoblot analysis confirmed the antibody nature of the anticollagen reactivity. The anticollagen antibodies react preferentially with primary determinants of types I and III collagen revealed after heat denaturation. Similar antibodies occur infrequently in rheumatoid arthritis patients, more often on SLE, and frequently in graft vs host disease and lepromatous leprosy. Levels of anticollagen activity in HIV+ i.v. drug users and transfusion recipients correlate with serum beta 2-microglobulin levels, suggesting that those persons with anticollagen antibodies are at greater risk of developing AIDS. This correlation, the fact that anticollagen antibodies occurred in all homosexual AIDS patients tested, and the occurrence of antibodies against denatured collagen in immune disorders with features similar to AIDS suggest these antibodies may be related to disease progression. The association of anticollagen autoantibodies with AIDS and certain other infections and immune disorders may reflect common immunopathogenic features in the etiology of these disorders.

Published

1990

9. Similarity of antigelatin factor and cold insoluble globulin.

Author

Dessau W, Jilek F, Adelmann BC, and Hörmann H

Subjects

Amino Acids analysis, Antibody Specificity, Cryoglobulins isolation & purification, Gelatin immunology, Macrophages immunology, Molecular Weight, Antibodies, Collagen immunology, Cryoglobulins immunology, Gelatin antagonists & inhibitors

Abstract

Antigelatin factor, a protein capable of complexing denatured collagen, was separated from human serum by adsorption onto immobilized collagen. Antiserum raised against the material binding to denatured collagen permitted the development of a radioassay for the determination of antigelatin factor in which the complex of antigelatin factor and denatured 125I-labeled collagen is precipitated with this antiserum. Further purification of antigelatin factor was achieved by chromatography on DEAE-cellulose yielding an electrophoretically homogeneous protein. Its migration rate in dodecyl sulfate-polyacrylamide gel electrophoresis was identical with that of cold insoluble globulin (molecular weight approx. 440 000) prepared from human plasma by a published procedure amended by DEAE-cellulose chromatography. Reduction of disulfide bonds yielded subunits of molecular weight approx. 220 000, indistinguishable from those of cold insoluble globulin. The amino acid composition of both proteins was very similar. Immunological identity of both proteins was demonstrated by gel diffusion against monospecific anti-cold insoluble globulin antiserum. Closely related binding curves were obtained if denatured 125I-labeled collagen was reacted with increasing amounts of either cold insoluble globulin or antigelatin factor and the complexes formed were precipitated with anti-cold insoluble globulin antiserum. In addition, antigelatin factor and cold insoluble globulin mediated the fixation of denatured 125I-labeled collagen to trypsinized macrophages in the same way. Therefore, it is concluded that antigelatin factor and cold insoluble globulin are identical or very closely related proteins.

Published

1978

10. Interaction of collagen with serum complement: inhibition of complement-mediated hemolysis.

Author

Takahashi M, KawachiTakahashi S, and Matsuura M

Subjects

Animals, Cattle, Chick Embryo, Complement C1 analysis, Complement C2 analysis, Complement C3 analysis, Edetic Acid, Egtazic Acid, Elastin immunology, Gelatin immunology, Immune Adherence Reaction, Immunoelectrophoresis, Male, Periodic Acid, Rats, Skin immunology, Solubility, Temperature, Tendons immunology, Collagen immunology, Complement System Proteins metabolism, Hemolysis

Abstract

Collagens from various vertebrate tissues were tested for their ability to consume complement (C) activity upon incubation in human serum or with isolated components of complement. 10 of 12 collagens tested had anticomplementary activity. The heat-denatured form of collagen, gelatin, was found weakly anticomplementary, but elastin was found inactive in the interaction with C. Inactivation of C is a reaction which is dependent on the time of incubation and the collagen concentration and partially dependent on the temperature of incubation. Most collagens depleted C from human serum in presence of cation chelators, EDTA and EGTA, whereas the large part of anticomplementary activity of soluble collagens obtained from rat skin was abolished in presence of EDTA. Evidence is presented that two different principles in collagens play a role in inactivation of C. A factor, contained in insoluble collagens and inhibitable by mild oxidation with periodate, inactivates C1 directly even in presence of chelating agents. Another principle, contained in soluble and insoluble collagen and resistant to periodate treatment, depletes C in serum by utilization of C via the alternate pathway (the C3 shunt).

Published

1975