Your search keyword '"Ferrara, GB"' showing total 15 results

1. Characterization of a new HLA-DRB1*01 allele (HLA-DRB1*010203) in a Caucasian Italian family by using sequence-based typing.

Author

Bontadini A, Manfroi S, Delfino L, Fruet F, Iannelli S, Parodi AM, Ferrara GB, and Conte R

Subjects

Alleles, Codon, DNA Primers, HLA-DRB1 Chains, Humans, Point Mutation, Sequence Analysis, DNA, HLA-DR Antigens genetics

Abstract

We report the identification of an HLA-DRB1*01 nucleotide sequence variant in three members of a Caucasian Italian family by using sequence-based typing. The nucleotide sequence of exon 2 observed in the new allele is identical to that of HLA-DRB1*010201 except in position 189 (codon 34) where the adenine of the consensus was replaced by a guanine and it was designated officially as HLA-DRB1*010203* by the WHO Nomenclature Committee.

Published

2004

2. Alport syndrome: HLA association and kidney graft outcome.

Author

Barocci S, Fiordoro S, Santori G, Valente U, Mossa M, Antonelli P, Ferrara GB, Cannella G, and Nocera A

Subjects

Adult, Cohort Studies, Female, Gene Expression, Graft Survival, HLA-DR Antigens analysis, HLA-DRB1 Chains, Humans, Male, Nephritis, Hereditary genetics, Phenotype, HLA-DR Antigens genetics, Kidney Transplantation, Nephritis, Hereditary immunology, Nephritis, Hereditary surgery

Abstract

Alport syndrome (AS) is a genetic disease of type IV collagen involving non-homogeneous patterns of inheritance characterized clinically by the presence of progressive haematuric nephritis leading to end-stage renal disease (ESRD), hearing loss and/or ophthalmologic abnormalities. The aim of this study was to investigate, in a cohort of AS patients who had undergone a kidney graft (KG) or who were still on a waiting list for a KG, (a) whether there is a correlation between AS and HLA antigen expression, and (b) long-term graft outcome in transplant patients. The AS cohort was represented by 34 ESRD patients, of whom 25 received a KG and the remaining nine were still on a waiting list. AS transplant patients represented 2.78% of 899 first KGs performed at our centre (Transplantation Department at S. Martino Hospital, Genoa) between 1983 and 2002. Grafts were procured from cadaveric donors in 18 cases and from living, related donors in seven cases. All AS transplant patients had a post-transplant follow-up period of at least 12 months. Results showed that: (i) the frequency of the HLA-DRB1*16 antigen was significantly increased in the whole AS cohort as compared to 128 healthy subjects (HS) (corrected P-value 0.0026; relative risk 7.20) as well as to 232 non-AS ESRD patients on a waiting list for KG (corrected P-values 0.0156; relative risk 4.67); (ii) 5- and 10-year graft survivals in the AS transplant patients were 80 and 73%, respectively, and did not differ from those of a control group represented by 25 non-AS KG recipients matched for sex, age, number of HLA mismatches and immunosuppressive treatment. Increased frequency of HLA-DRB1*16 in AS patients may reflect a linkage disequilibrium with genes coding for collagen synthesis.

Published

2004

3. Identification of ricin A-chain HLA class II-restricted epitopes by human T-cell clones.

Author

Tommasi M, Castelletti D, Pasti M, Fracasso G, Lorenzetti I, Sartoris S, Pera C, Ferrara GB, Tridente G, and Colombatti M

Subjects

Amino Acid Sequence, Clone Cells, Epitopes, Genes, T-Cell Receptor alpha, HLA-DR3 Antigen immunology, HLA-DRB1 Chains, Humans, Immunotoxins, Molecular Sequence Data, Peptide Fragments immunology, T-Lymphocytes, Helper-Inducer, Vaccination, HLA-DR Antigens immunology, Ricin immunology, T-Lymphocytes immunology

Abstract

The identification of ricin toxin A-chain (RTA) epitopes and the molecular context in which they are recognized will allow strategies to be devised that prevent/suppress an anti-RTA immune response in patients treated with RTA-based immunotoxins. RTA-specific human T-cell lines and T-cell clones were produced by in vitro priming of PBMC. The T-cell clones used a limited set of Vbeta chains (Vbeta1, Vbeta2 and Vbeta8) to recognize RTA epitopes. The use of RTA deletion mutants demonstrated that T-cell lines and T-cell clones from three out of four donors responded to RTA epitopes within the domain D124-Q223, whereas one donor recognized the region I1-D124. The response to RTA peptides of T-cell lines and T-cell clones from two donors allowed the identification of immunogenic segments (D124-G140 and L161-T190) recognized in the context of different HLA-DRB1 alleles (HLA-DRB1*0801, and HLA-DRB1*11011 and B1*03011, respectively). The response to L161-T190 was investigated in greater detail. We found that the HLA-DRB1*03011 allele presents a minimal epitope represented by the sequence I175-Y183 of RTA, whereas the HLA-DRB1*11011 allele presents the minimal epitope M174-I184. RTA peptides and an I175A RTA point mutant allowed us to identify I175 as a crucial residue for the epitope(s) recognized by the two HLA-DRB1 alleles. Failure of T-cell clones to recognize ribosome inactivating proteins (RIPs) showing sequences similar but not identical to RTA further confirmed the role of I175 as a key residue for the epitope recognized in the context of HLA-DRB1*11011/03011 alleles.

Published

2001

4. Identification of a new DRB3*02 allelic variant (DRB3*0209) by high-resolution sequence-based typing.

Author

Morabito A, Pera C, Longo A, Delfino L, and Ferrara GB

Subjects

Base Sequence, Female, HLA-DRB3 Chains, Haplotypes, Humans, Male, Molecular Sequence Data, Polymerase Chain Reaction, Polymorphism, Genetic, Sequence Alignment, Alleles, HLA-DR Antigens genetics, Histocompatibility Testing methods

Abstract

The HLA-DRB3/B4/B5 sequence-based typing method developed in this study in combination with PCR-SSP, enabled us to identify a new DRB3*02 allele, that was named as DRB3*0209 (GenBank accession number AF148518). This name has been officially assigned by the WHO Nomenclature Committee in May 1999. The new allele differs from DRB3*0207 by one substitution in codon 51 from AGG to ACG and another in codon 60 from TAC to TCC, resulting in aminoacid changes from Arg-->Thr (codon 51) and from Tyr-->Ser (codon 60). The DRB3*0209 allele was discovered in two related North Italian families. The fact that it was present in an hemizygous situation in three members of the paternal family and in one member of the secondary related family enabled us to isolate and sequence the new DRB3 allele without cloning, to identify its association with the DRB1 locus, and to generate an Epstein-Barr virus (EBV)-transformed cell line, now present in our ECBR (European Collection for Biomedical Research) Cell Line Bank.

Published

2000

5. HLA class II alleles associations of anticardiolipin and anti-beta2GPI antibodies in a large series of European patients with systemic lupus erythematosus.

Author

Galeazzi M, Sebastiani GD, Tincani A, Piette JC, Allegri F, Morozzi G, Bellisai F, Scorza R, Ferrara GB, Carcassi C, Font J, Passiu G, Smolen J, Papasteriades C, Houssiau F, Nebro AF, Ramon Garrido ED, Jedryka-Goral A, and Marcolongo R

Subjects

Adolescent, Adult, Aged, Alleles, DNA analysis, DNA Probes chemistry, Enzyme-Linked Immunosorbent Assay, Europe, Female, Histocompatibility Testing, Humans, Immunoglobulin Isotypes immunology, Male, Middle Aged, Polymerase Chain Reaction, beta 2-Glycoprotein I, Antibodies, Anticardiolipin immunology, Glycoproteins immunology, HLA-DQ Antigens genetics, HLA-DR Antigens genetics, Lupus Erythematosus, Systemic genetics, Lupus Erythematosus, Systemic immunology

Abstract

The objective of this study was to determine the HLA class II associations of the anticardiolipin (aCL) and anti-beta2GPI (abeta2GPI) antibodies in a large series of European patients with systemic lupus erythematosus (SLE). A cohort of 577 European SLE patients was enrolled. aCL and abeta2GPI were measured by ELISA methods. Molecular typing of HLA-DRB1, DRB3, DRB4, DRB5, DQA1 and DQB1 loci was performed by the polymerase chain reaction-sequence specific oligonucleotide probes (PCR-SSOP) method. aCL of IgG, IgM and IgA isotypes were detected in 22.8%, 14% and 13.9% of patients, respectively. IgG and IgM abeta2GPI were detected in 20% of patients. aCL showed positive association with HLA DRB1*04, DRB1*0402, DRB1*0403, DRB1*07, DRB3*0301, DQA1*0201, DQA1*0301, DQB1*0302, and negative association with DQA1*0501, DRB3*0202. abeta2GPI showed positive association with DRB1*0402, DRB1*0403, DQB1*0302. DRB1*0402 carried the highest relative risk for the presence of both aCL (RR=8. 1) and abeta2GPI (RR=4.6). Our results confirm the already described associations of aCL with HLA DR4 and DR7, but also demonstrate that, among the alleles at the DRB1*04 locus, the *0402 was most represented both in aCL and in abeta2GPI positive patients. In addition, HLA class II associations of abeta2GPI are for the first time extensively examined in a large cohort of European SLE patients.

Published

2000

6. DNA typing of DQ and DR alleles in IgA-deficient subjects.

Author

Fiore M, Pera C, Delfino L, Scotese I, Ferrara GB, and Pignata C

Subjects

Autoantibodies immunology, Child, Gene Frequency, Haplotypes, Histocompatibility Testing, Humans, IgA Deficiency epidemiology, Italy epidemiology, Alleles, DNA Mutational Analysis, Genes, MHC Class II, HLA-DQ Antigens genetics, HLA-DR Antigens genetics, IgA Deficiency genetics

Abstract

IgA deficiency (IgA-D) represents the most common immunodeficiency syndrome of infancy. In most cases IgA-D represents an isolated immunological disorder, while sometimes it is associated with IgG subclass deficiency or with the presence of autoantibodies. We investigated the pattern of association of IgA-D with DRB1 and DQB1 loci of the HLA region by DNA molecular typing, which allows the identification of previously serologically undefined specificities. We also compared the gene frequency of DRB1 and DQB1 allelic variants between IgA-D subjects with or without serum autoantibodies. Our results indicate that the gene frequency of the DRB1*0102 subtype and of the DRB1*0102, DQB1*0501 haplotype is significantly higher in IgA-D than in the general population. Furthermore, the IgA-D subjects with autoantibodies showed a positive association with DR4 and DR13 subtypes, thus supporting the hypothesis that genetic factors are also involved in the association between IgA-D and autoantibodies.

Published

1995

7. Cellular mechanisms of exogenous peptide binding to HLA class II molecules in B cells.

Author

Frumento G, de Totero D, Ferrara GB, Chersi A, and Pernis B

Subjects

Antigen Presentation, Humans, Lymphocyte Activation, Phospholipases pharmacology, Protein Binding drug effects, T-Lymphocytes immunology, B-Lymphocytes immunology, HLA-DR Antigens metabolism, Orthomyxoviridae immunology, Peptide Fragments metabolism, Viral Matrix Proteins immunology

Abstract

We have investigated the ability of APC Class II molecules to bind and release exogenous peptides, two phenomena that are still poorly understood. In order to investigate the half-life of the complex of an exogenous peptide with DR molecules we have evaluated the uptake and release of the radiolabeled peptide 17-29-Tyr of influenza virus matrix protein (MA 17-29-Y) by a B-EBV cell line at different times and under different conditions. We have found that the kinetics of both binding and release of the peptide are very fast in living cells; using glutaraldehyde-fixed cells, the kinetics of the two phenomena are slow, closely resembling those observed with the same peptide and purified, immobilized DR molecules. As confirmed by the study of a specific T-cell clone activation, the Class II-MA 17-29-Y complexes are short-living ones, with an average half-life of 55 min, and the DR molecules that bind exogenous peptides continuously undergo peptidic exchange. These data, taken together, suggest that the APC are endowed with cellular mechanisms that increase the efficiency of both the loading and the unloading of Class II HLA with exogenous peptides. These mechanisms do not appear to require ATP or to involve newly synthesized Class II molecules, intracellular acidic compartments, or the microtubule-microfilament system. On the other hand, an undamaged cell membrane appears to be crucial for an efficient binding.

Published

1994

8. Shared epitopes of the HLA-DR10 molecule recognized by murine and human mAbs.

Author

Pistillo MP, Sun PF, Mantero S, and Ferrara GB

Subjects

Animals, Antibody Specificity, B-Lymphocytes immunology, Cell Line, Cross Reactions, Epitopes genetics, Histocompatibility Testing, Humans, L Cells, Mice, Species Specificity, Transfection, Antibodies, Monoclonal, HLA-DR Antigens genetics

Abstract

In order to produce mAbs directed specifically against HLA-DR10 molecule, transfected mouse L cells, expressing the DRB1*1001 allele, were used to immunize C3H mice over a period of 4 weeks. Two mAbs, 2C12 and 4B6, derived from this fusion were found to recognize, with different affinity, polymorphic epitopes of DR10 that are shared with DR1, 3, 7, and 9. These mAbs were screened on a large panel of homozygous B lymphoblastoid cell lines using microlymphocytotoxicity and the results were confirmed by flow cytometry. The reactive pattern of 2C12 and 4B6 was compared to that of MP10 human mAb also recognizing the DR10 specificity in addition to DR1, 2 and 9. Based on serologic specificity and cellular absorption experiments, we conclude that the epitopes the murine and human mAbs respectively recognize on the DR10 molecule, are probably different.

Published

1993

9. Matching for HLA-DPB1 alleles in zero mismatched HLA-A, -B, and -DR renal transplants.

Author

Middleton D, Mytilineos Y, Savage D, Ferrara GB, Angelini G, Amoroso A, Trainor F, Gaweco A, Mazzola G, and Delfino L

Subjects

Cadaver, Follow-Up Studies, Graft Rejection genetics, Graft Rejection immunology, Graft Rejection mortality, HLA-A Antigens immunology, HLA-B Antigens immunology, HLA-DP Antigens immunology, HLA-DP beta-Chains, HLA-DR Antigens immunology, Humans, Polymorphism, Restriction Fragment Length, Postoperative Complications immunology, Postoperative Complications mortality, Survival Rate, Alleles, HLA-A Antigens genetics, HLA-B Antigens genetics, HLA-DP Antigens genetics, HLA-DR Antigens genetics, Histocompatibility Testing methods, Kidney Transplantation immunology

Published

1992

10. Critical role of HLA-DR beta 1 residue 58 in multiple polymorphic epitopes recognized by xenogeneic and allogeneic antibodies.

Author

Klohe E, Pistillo MP, Ferrara GB, Goeken NE, Greazel NS, and Karr RW

Subjects

Alanine immunology, Amino Acid Sequence, Antibodies, Monoclonal, Cell Line, Cells, Cultured, Fibroblasts, Glutamic Acid, HLA-DR Antigens genetics, Humans, Molecular Sequence Data, Mutagenesis, Site-Directed, Structure-Activity Relationship, Transfection, Antibodies, Heterophile immunology, Epitopes immunology, Glutamates immunology, HLA-DR Antigens immunology, Immunoglobulin Allotypes immunology, Polymorphism, Genetic

Abstract

In a previous study, we identified glutamic acid at position 58 in DR (beta 1*1101) as critical for the epitopes recognized by the DRw11-specific mAb GS88.2, as well as the I-LR1 mAb that recognizes a polymorphic epitope on DR(alpha,beta 1*1101) and some DP molecules. The purpose of this study was to determine whether other polymorphic residues contribute to these epitopes and whether DR beta glutamic acid or alanine 58 and DP beta glutamic acid 56, the analogous position in DP beta, contribute to epitopes recognized by other anti-class-II mAb and allosera. Site-directed mutagenesis and transfection were used to produce cells bearing wild-type or mutant class II molecules that were analyzed with mAbs by flow cytometry and with human allosera by absorption and subsequent microcytotoxicity assays. These studies demonstrate that the residue at DR beta position 58 plays a central role in at least three different mAb epitopes and an epitope recognized by anti-DRw11 allosera. Substitution of glutamic acid for alanine at position 58 of eight DR beta chains caused gain of binding of four mAbs to all of the mutant molecules, except DR(alpha,beta 4*0101). These data suggest that the side chains of DR beta 58 and DP beta 56 point outward from the alpha-helix and directly contact antibody.

Published

1992

11. Diverse locations of amino acids in HLA-DR beta chains involved in polymorphic antibody binding epitopes on DR(alpha, beta 1*0101), DR(alpha, beta 1*1101), and DR(alpha,beta 3*0202) molecules.

Author

Fu XT, Klohe E, Alber C, Yu WY, Ferrara GB, Pistillo MP, Ballas M, and Karr RW

Subjects

Humans, Structure-Activity Relationship, Amino Acids analysis, Epitopes analysis, HLA-DR Antigens immunology

Abstract

In a previous study, we used transfectants expressing hybrid HLA-DR(beta 1*0403)/DR(beta 1*0701) chains to map sequences involved in polymorphic antibody binding epitopes on DR(alpha, beta 1*0403) or DR(alpha, beta 1*0701) molecules. Amino acids 1-40 of the beta 1 domain were found to make the major contributions to most of the antibody binding epitopes studied. To begin to localize sequences that contribute to polymorphic antibody epitopes on DR(alpha,beta 1*0101), DR(alpha,beta 1*1101) and DR(alpha,beta 3*0202) molecules, we used indirect immunofluorescence and flow cytometry to assess the binding of mAb to transfectants expressing hybrid DR(beta 1*0101)/DR(beta 1*1101) or DR(beta 1*1101)/DR(beta 3*0202) chains that divide the DR beta chain into three segments: amino acids 1-40, 41-97, and the beta 2 domain. The results indicate that amino acids 41-97 of the beta 1 domain on DR(beta 1*0101), DR(beta 1*1101), or DR(beta 3*0202) are critical in most of the epitopes, including those recognized by human antibodies MP4 and MP12, and mouse mAb GS88.2, I-LR1, 21r5, and 7.3.19.1, whereas amino acids 1-40 of DR(beta 1*1101) are critical in the epitope recognized by the MCS-7 mAb, and both segments 1-40 and 41-97 of DR(beta 1*1101) are important in the epitopes recognized by the I-LR2 and UL-52 mAbs. Based on these data and comparison of DR beta allelic protein sequences, the residues that may play critical roles in these antibody binding epitopes are predicted.

Published

1992

12. Production of two human hybridomas secreting antibodies to HLA-DRw11 and--DRw8+w12 specificities.

Author

Pistillo MP, Mazzoleni O, Kun L, Falco M, Tazzari PL, and Ferrara GB

Subjects

Amino Acid Sequence, Animals, Antibodies, Monoclonal biosynthesis, Antibody Specificity immunology, Cell Line, Transformed, Cytotoxicity Tests, Immunologic, Epitopes immunology, Flow Cytometry, HLA-DR Serological Subtypes, Herpesvirus 4, Human genetics, Humans, Mice, Molecular Sequence Data, Transfection, HLA-DR Antigens immunology, Hybridomas immunology

Abstract

In this study we describe the production of two human monoclonal antibodies (mAbs) HMP12 and HMP14, that recognize polymorphic HLA-DR specificities. These mAbs have been produced by hybridization of antibody-secreting Epstein-Barr virus-transformed cells with SHM-D33 human-mouse heteromyeloma. By microcytotoxicity assay HMP12 mAb was found to react with all DRw11-positive cells and HMP14 mAb with all cells bearing the DRw8 or the DRw12 specificity. Cytotoxic activity of HMP14 was completely removed after absorption with DRw8- or DRw12-positive cells and unaffected by absorption with cells carrying different DR specificities. The HLA specificity was further analyzed by cytofluorometry on mouse transfectant cells. The reactivity of the two mAbs was correlated with the presence of a particular polymorphic amino acid residue in the DR beta chain and by this approach the epitopes possibly involved in the antibody binding sites were predicted.

Published

1991

13. A new allodeterminant on HLA-DQ molecules carrying the DQw3 specificity.

Author

Tanigaki N, Tosi R, Katagiri M, and Ferrara GB

Subjects

HLA-DQ Antigens, HLA-DR Serological Subtypes, HLA-DR4 Antigen, Histocompatibility Antigens Class II analysis, Isoantigens immunology, Epitopes analysis, HLA-DR Antigens, Histocompatibility Antigens Class II immunology, Isoantibodies immunology

Abstract

The la subset that reacts with alloantiserum HON known to possess a strong anti-DRw53 activity was isolated from a 125I-labeled Ia preparation obtained from cells of RPMI 8057 cell line (DR1,4) and was found on peptide mapping to be lacking in the pattern characteristic of DR-like molecules carrying the DRw53 specificity and to display the structural features of DQ molecules, particularly those carrying the DQw3 specificity. Distribution analysis on a panel of selected la-positive cell lines indicated that the specificity involved is associated only with DR4 and DRw9, differing from the known DRw53 pattern (DR4, 7, and w9) and also from the known DQw3 pattern (DR4 and 5). Reciprocal sequential binding experiments demonstrated that the HON-defined specificity resides along with DQw3 specificity on the same molecules. Thus, HON alloantiserum possesses two different antibody activities; one directed to DRw53 specificity and another directed to a new DR4- and w9-associated DQ specificity.

Published

1985

14. Binding of labelled influenza matrix peptide to HLA DR in living B lymphoid cells.

Author

Ceppellini R, Frumento G, Ferrara GB, Tosi R, Chersi A, and Pernis B

Subjects

Amino Acid Sequence, Humans, In Vitro Techniques, Kinetics, Major Histocompatibility Complex, Molecular Sequence Data, Protein Binding, T-Lymphocytes immunology, B-Lymphocytes immunology, HLA-DR Antigens immunology, Influenza A virus immunology, Viral Matrix Proteins immunology

Abstract

T cells recognize protein antigens as fragments (peptides) held in a defined binding site of class I or class II major histocompatibility (MHC) molecules. The formation of complexes between various immunologically active peptides and different MHC molecules has been demonstrated directly in binding studies between the peptides and solubilized, purified molecules of class II MHC. Studies with intact cells, living or fixed, have not directly demonstrated the binding of the peptides to MHC molecules on antigen-presenting cells, but the formation of such complexes has been shown indirectly through the capacity of antigen-presenting cells to stimulate specific T cells. Here we report evidence that supports directly the binding of radiolabelled influenza matrix peptide 17-29 to products of the human class II MHC locus HLA-DR, on living homozygous B-cell lines, and we show that the kinetics of such binding is much faster with living cells than with fixed cells. Furthermore, whereas the peptide reacts with HLA-DR molecules of all alleles, it binds preferentially to DR1, the restricting element in antigen presentation.

Published

1989

15. DNA typing of HLA-DR beta chain genes can discriminate between undetected alleles and real homozygotes.

Author

de Préval C, Angelini G, Boogh B, Ferrara GB, and Mach B

Subjects

Cell Line, DNA analysis, DNA genetics, DNA Restriction Enzymes, Haplotypes, Humans, Nucleic Acid Hybridization, Alleles, Genes, HLA-D Antigens genetics, HLA-DR Antigens genetics, Homozygote, Major Histocompatibility Complex

Abstract

The polymorphism of HLA-DR antigens has been studied by Southern blot hybridization under conditions specific for the detection of the DR beta chain genes. Haplotype-specific patterns were defined with DNA from DR1, 2, 3, 4, 7, w8, w11, w12, and W13 homozygous typing cells, with restriction enzymes Eco RI, Bgl I, and Pvu II. Certain serological specificities, such as DR2, DR3, and DR7, can be encoded by distinct allelic forms of DR beta chain genes. The procedure of "DNA typing" was applied to family analysis of individuals expressing only a single DR specificity upon serological typing. Three cases are described here: (1) in family GR, phenotypic DR 7 homozygotes correspond to genomic heterozygotes, and a novel DR7 allele is described: (2) in family RU, the genes corresponding to a serologically undetected (blank) DR allele were identified by restriction fragment length polymorphism (RFLP); this novel DR haplotype has an RFLP pattern similar to those of the DRw52 family, even though this specificity was not expressed on the DR-blank lymphocytes; (3) in family RG, there is no blank allele, but a homozygote RFLP situation at the DR subregion.

Published

1987