IMMUNOPRINTING EXCLUDES MANY POTENTIAL SUSCEPTIBILITY GENES AS PREDISPOSING TO EARLY ONSET PAUCIARTICULAR JUVENILE CHRONIC ARTHRITIS EXCEPT HLA CLASS II AND TNF

DNA profiles (immunoprints) were generated for 120 patients suffering from early onset pauciarticular chronic arthritis (EOPA‐JCA) and <500 healthy controls utilizing highly polymorphic microsatellites in the vicinity of immunorelevant genes. Six T cell receptor (TCR) markers for the CD3D, TCRDVAJ, TEA, TCRBV6S1, BV6S3, BV6S7 and BV13S2 genes were analysed. Furthermore markers for the cell surface molecule CD40L, for cytokine genes (IL‐1A, IL‐2, IFN‐α, FGF‐α, TNF‐α), the chromosomal region of the 1RF2 and the cytokine receptor gene IL5RA were studied as well as two polymorphisms within the promotor region of the TNF‐α gene. Coding region polymorphisms were evidenced indirectly by repeat length variation or they were predicted from the microsatellite distribution profiles and then confirmed by direct sequence analysis. Statistical evaluations were performed with respect to known predispositions, predominance of females (<80%) and HLA‐DR and ‐DQ haplo‐types. Cell surface molecules (TCR, CD40L, IL5RA) as well as almost all cytokines (IL‐1 A, IFNα, FGFA, IRF2 region) were excluded as predisposing in our JCA panel. The TNF‐a microsatellite alleles (GT)10–12 contribute considerably to manifestation of the disease, in HLA‐DRB1*11(12) individuals (RR = 12.8). The TNF‐α allele is not found in linkage disequilibrium with HLA‐DRB1*11(12) and may be present on either chromosome 6. Thus, a novel susceptibility factor probably within the TNFAITNFB gene region has been identified via linkage with the TNF‐α microsatellite allele. Apparently complex compositions of the genetic background rather than single genes provide the precondition for manifestation of the autoimmune disease EOPA‐JCA. Immunoprinting unravels the variability of the immunological genome via the semi‐directed microsatellite approach efficiently.

[1]  T. Sasazuki,et al.  Early-onset pauciarticular juvenile chronic arthritis is associated with a mutation in the Y-box of the HLA-DQA1 promoter. , 1995, Tissue antigens.

[2]  D. Kwiatkowski,et al.  Variation in the TNF-α promoter region associated with susceptibility to cerebral malaria , 1994, Nature.

[3]  J. Epplen,et al.  Dinucleotide repeat polymorphism in the human IL1A gene. , 1994, Human molecular genetics.

[4]  P. Charmley,et al.  HLA and T cell receptor beta-chain DNA polymorphisms identify a distinct subset of patients with pauciarticular-onset juvenile rheumatoid arthritis. , 1994, Arthritis and rheumatism.

[5]  A. Silman,et al.  "Homozygosity" for the HLA-DR shared epitope contributes the highest risk for rheumatoid arthritis concordance in identical twins. , 1994, Arthritis and rheumatism.

[6]  P. Nürnberg,et al.  Dinucleotide repeat polymorphism in the IL2 and IL5RA genes. , 1994, Human molecular genetics.

[7]  T. Taniguchi,et al.  Structure and regulation of the human interferon regulatory factor 1 (IRF-1) and IRF-2 genes: implications for a gene network in the interferon system , 1994, Molecular and cellular biology.

[8]  L. Deaven,et al.  Characterization of a human chromosome 4 flow-sorted cosmid library. , 1994, Cytogenetics and cell genetics.

[9]  J. Banchereau,et al.  The CD40 antigen and its ligand. , 1994, Annual review of immunology.

[10]  D. Kwiatkowski,et al.  Variation in the TNF-alpha promoter region associated with susceptibility to cerebral malaria. , 1994, Nature.

[11]  A. Kimura,et al.  Polymorphism in the upstream regulatory region of DQA1 genes and DRB1, QAP, DQA1, and DQB1 haplotypes in the German population. , 1994, Human Immunology.

[12]  J. Belmont,et al.  Dinucleotide repeat polymorphism in the human CD40 ligand gene. , 1993, Human molecular genetics.

[13]  D. Chaplin,et al.  Highly informative typing of the human TNF locus using six adjacent polymorphic markers. , 1993, Genomics.

[14]  F. Pociot,et al.  An allelic polymorphism within the human tumor necrosis factor alpha promoter region is strongly associated with HLA A1, B8, and DR3 alleles , 1993, The Journal of experimental medicine.

[15]  A. Cambon-Thomsen,et al.  Association of tumor necrosis factor (TNF) and class II major histocompatibility complex alleles with the secretion of TNF‐a and TNF‐0 by human mononuclear cells: a possible link to insulin‐dependent diabetes mellitus , 1993 .

[16]  G. Nepom,et al.  THE HUMAN MAJOR HISTOCOMPATIBILITY COMPLEX AND DISEASE SUSCEPTIBILITY , 1993, Immunology and Allergy Clinics of North America.

[17]  D. Kwiatkowski,et al.  Dinucleotide repeat polymorphism at the IFNA locus (9p22). , 1992, Human molecular genetics.

[18]  C. Julier,et al.  Identification of a CA repeat at the TCRA locus using yeast artificial chromosomes: a general method for generating highly polymorphic markers at chosen loci. , 1992, Genomics.

[19]  E. Jabs,et al.  Dinucleotide repeat polymorphism in the human fibroblast growth factor acidic (FGFA) gene on chromosome 5. , 1992, Human molecular genetics.

[20]  D. Kipling,et al.  Beginning or end? Telomere structure, genetics and biology , 1992 .

[21]  Anne E. Kwitek,et al.  Dinucleotide repeat polymorphisms at the D11S419 and CD3D loci , 1990, Nucleic Acids Res..

[22]  M. Robinson,et al.  Allelic variations in the human T cell receptor V beta 6.7 gene products [published erratum appears in J Exp Med 1990 Mar 1;171(3):973] , 1990, The Journal of experimental medicine.

[23]  C. Benoist,et al.  Regulation of major histocompatibility complex class-II genes: X, Y and other letters of the alphabet. , 1990, Annual review of immunology.

[24]  J. Weber,et al.  Abundant class of human DNA polymorphisms which can be typed using the polymerase chain reaction. , 1989, American journal of human genetics.

[25]  Mark M. Davis,et al.  T-cell antigen receptor genes and T-cell recognition , 1988, Nature.

[26]  Shirley A. Miller,et al.  A simple salting out procedure for extracting DNA from human nucleated cells. , 1988, Nucleic acids research.

[27]  J. Fries,et al.  A study of classification criteria for a diagnosis of juvenile rheumatoid arthritis. , 1986, Arthritis and rheumatism.

[28]  A. Svejgaard,et al.  HLA and Disease 1982 ‐ A Survey , 1983, Immunological reviews.