Cécile Julier scite author profile

Type 1 diabetes (T1D) is a common autoimmune disorder that arises from the action of multiple genetic and environmental risk factors. We report the findings of a new genome-wide association study of T1D, combined in a meta-analysis with two previously published studies. The total sample set included 7,514 cases and 9,045 reference samples. Forty-one distinct genomic locations provided evidence for association to T1D in the meta-analysis (P < 10-6). After excluding previously reported associations, 27 regions were further tested in an independent set of 4,267 cases, 4,463 controls and 2,319 affected sib-pair (ASP) families. Of these, 18 regions were replicated (P < 0.01; overall P < 5 × 10-8) and four additional regions provided nominal evidence of replication (P < 0.05). The many new candidate genes suggested by these results include IL10, IL19, IL20, GLIS3, CD69 and IL27.

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Strategies for multilocus linkage analysis in humans.

Lathrop¹,

Lalouel²,

Julier³

et al. 1984

Proc. Natl. Acad. Sci. U.S.A.

2,116

1,074

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The increasing number of DNA polymorphisms characterized in humans will soon allow the construction of fine genetic maps of human chromosomes. This advance calls for a reexamination of current methodologies for linkage analysis by the family method. We Just as molecular hybridization has given a new power to methods for physical assignments (1), the new wealth of DNA polymorphisms (2, 3) will elicit the development of new strategies for linkage analysis by family methods. When only about 30 genetic markers were available at arbitrary locations, affording a very partial coverage of the human genome, a natural approach for the detection of linkage between a disease locus and a battery of markers consisted in the pairwise analysis of the disease phenotype and each marker in turn. Two-locus linkage analysis by the now classical method of lod-scores (4) or related techniques was originally restricted to simple Mendelian traits and nuclear families; later it was extended to complex phenotypes and general pedigrees through the development of appropriate algorithms and computer programs (5-7).More than 200 DNA polymorphisms have been defined in recent years (8), and there is no doubt that the number required to span the human genome (2, 9) will be reached soon.This inevitably raises questions regarding the relative merits of two-point and multipoint linkage analysis. Although the advantages of multipoint tests, as opposed to pairwise tests, seems generally intuitive (10), a systematic investigation is necessary before new approaches can be proposed.Need for a multilocus analysis is evident for the calculation of genetic risks when several linked markers are available; otherwise there would be no general way of combining pedigree calculations involving each marker singly. For detection of linkage, estimation of recombination, and construction of genetic maps, the merit of multipoint tests has yet to be established. Although Meyers et al. (11) considered three-point tests in restricted situations, most procedures for estimation of recombination and genetic mapping in humans have been based on the assumption that results from independent two-point linkage tests are combined (12)(13)(14).The determination of a genetic map from results of linkage analyses requires assumptions about the mathematical relationships between map distance, expressed in units of crossing-over, or morgans, and recombination frequency, thus defining a mapping function. This relation is complex because recombination results from an odd number of points of exchange between loci, and evidence points to their nonindependence-i.e., interference in crossing-over (15). Various mapping functions have been proposed embodying specific assumptions regarding interference (15). Statistical methods have been proposed that assume a mapping function or a specific process of chiasma formation (12)(13)(14) or that infer a genetic map solely from the rank-order constraints implied by pairwise recombination estimates (16).As the genetic map is developed, it is...

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EIF2AK3, encoding translation initiation factor 2-α kinase 3, is mutated in patients with Wolcott-Rallison syndrome

et al. 2000

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Wolcott-Rallison syndrome (WRS) is a rare, autosomal recessive disorder characterized by permanent neonatal or early infancy insulin-dependent diabetes. Epiphyseal dysplasia, osteoporosis and growth retardation occur at a later age. Other frequent multisystemic manifestations include hepatic and renal dysfunction, mental retardation and cardiovascular abnormalities. On the basis of two consanguineous families, we mapped WRS to a region of less than 3 cM on chromosome 2p12, with maximal evidence of linkage and homozygosity at 4 microsatellite markers within an interval of approximately 1 cM. The gene encoding the eukaryotic translation initiation factor 2-alpha kinase 3 (EIF2AK3) resides in this interval; thus we explored it as a candidate. We identified distinct mutations of EIF2AK3 that segregated with the disorder in each of the families. The first mutation produces a truncated protein in which the entire catalytic domain is missing. The other changes an amino acid, located in the catalytic domain of the protein, that is highly conserved among kinases from the same subfamily. Our results provide evidence for the role of EIF2AK3 in WRS. The identification of this gene may provide insight into the understanding of the more common forms of diabetes and other pathologic manifestations of WRS.

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Mutations in GLIS3 are responsible for a rare syndrome with neonatal diabetes mellitus and congenital hypothyroidism

et al. 2006

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We recently described a new neonatal diabetes syndrome associated with congenital hypothyroidism, congenital glaucoma, hepatic fibrosis and polycystic kidneys. Here, we show that this syndrome results from mutations in GLIS3, encoding GLI similar 3, a recently identified transcription factor. In the original family, we identified a frameshift mutation predicted to result in a truncated protein. In two other families with an incomplete syndrome, we found that affected individuals harbor deletions affecting the 11 or 12 5'-most exons of the gene. The absence of a major transcript in the pancreas and thyroid (deletions from both families) and an eye-specific transcript (deletion from one family), together with residual expression of some GLIS3 transcripts, seems to explain the incomplete clinical manifestations in these individuals. GLIS3 is expressed in the pancreas from early developmental stages, with greater expression in beta cells than in other pancreatic tissues. These results demonstrate a major role for GLIS3 in the development of pancreatic beta cells and the thyroid, eye, liver and kidney.

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A variant in the CD209 promoter is associated with severity of dengue disease

et al. 2005

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Dengue fever and dengue hemorrhagic fever are mosquito-borne viral diseases. Dendritic cell-specific ICAM-3 grabbing nonintegrin (DC-SIGN1, encoded by CD209), an attachment receptor of dengue virus, is essential for productive infection of dendritic cells. Here, we report strong association between a promoter variant of CD209, DCSIGN1-336, and risk of dengue fever compared with dengue hemorrhagic fever or population controls. The G allele of the variant DCSIGN1-336 was associated with strong protection against dengue fever in three independent cohorts from Thailand, with a carrier frequency of 4.7% in individuals with dengue fever compared with 22.4% in individuals with dengue hemorrhagic fever (odds ratio for risk of dengue hemorrhagic fever versus dengue fever: 5.84, P = 1.4 x 10(-7)) and 19.5% in controls (odds ratio for protection: 4.90, P = 2 x 10(-6)). This variant affects an Sp1-like binding site and transcriptional activity in vitro. These results indicate that CD209 has a crucial role in dengue pathogenesis, which discriminates between severe dengue fever and dengue hemorrhagic fever. This may have consequences for therapeutic and preventive strategies.

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Genetics of Type 1 Diabetes: What's Next?

et al. 2010

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Insulin-IGF2 region on chromosome 11p encodes a gene implicated in HLA-DR4-dependent diabetes susceptibility

Julier

Hyer

Davies

et al. 1991

Nature

356

206

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A class of alleles at the VNTR (variable number of tandem repeat) locus in the 5' region of the insulin gene (INS) on chromosome 11p is associated with increased risk of insulin-dependent diabetes mellitus (IDDM), but family studies have failed to demonstrate linkage. INS is thought to contribute to IDDM susceptibility but this view has been difficult to reconcile with the lack of linkage evidence. We thus investigated polymorphisms of INS and neighbouring loci in random diabetics, IDDM multiplex families and controls. HLA-DR4-positive diabetics showed an increased risk associated with common variants at polymorphic sites in a 19-kilobase segment spanned by the 5' INS VNTR and the third intron of the gene for insulin-like growth factor II (IGF2). As INS is the major candidate gene from this region, diabetic and control sequence were compared to identify all INS polymorphisms that could contribute to disease susceptibility. In multiplex families the IDDM-associated alleles were transmitted preferentially to HLA-DR4-positive diabetic offspring from heterozygous parents. The effect was strongest in paternal meioses, suggesting a possible role for maternal imprinting. Our results strongly support the existence of a gene or genes affecting HLA-DR4 IDDM susceptibility which is located in a 19-kilobase region of INS-IGF2. Our results also suggest new ways to map susceptibility loci in other common diseases.

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Chromosomal mapping of two genetic loci associated with blood-pressure regulation in hereditary hypertensive rats

Hilbert

Lindpaintner

Beckmann

et al. 1991

Nature

586

218

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The spontaneously hypertensive rat and the stroke-prone spontaneously hypertensive rat are useful models for human hypertension. In these strains hypertension is a polygenic trait, in which both autosomal and sex-linked genes can influence blood pressure. Linkage studies in crosses between the stroke-prone spontaneously hypertensive rat and the normotensive control strain Wistar-Kyoto have led to the localization of two genes, BP/SP-1 and BP/SP-2, that contribute significantly to blood pressure variation in the F2 population. BP/SP-1 and BP/SP-2 were assigned to rat chromosomes 10 and X, respectively. Comparison of the human and rat genetic maps indicates that BP/SP-1 could reside on human chromosome 17q in a region that also contains the angiotensin I-converting enzyme gene (ACE). This encodes a key enzyme of the renin-angiotensin system, and is therefore a candidate gene in primary hypertension. A rat microsatellite marker of ACE was mapped to rat chromosome 10 within the region containing BP/SP-1.

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Cécile Julier

Genome-wide association study and meta-analysis find that over 40 loci affect risk of type 1 diabetes

Strategies for multilocus linkage analysis in humans.

EIF2AK3, encoding translation initiation factor 2-α kinase 3, is mutated in patients with Wolcott-Rallison syndrome

Mutations in GLIS3 are responsible for a rare syndrome with neonatal diabetes mellitus and congenital hypothyroidism

A variant in the CD209 promoter is associated with severity of dengue disease

Genetics of Type 1 Diabetes: What's Next?

Insulin-IGF2 region on chromosome 11p encodes a gene implicated in HLA-DR4-dependent diabetes susceptibility

Chromosomal mapping of two genetic loci associated with blood-pressure regulation in hereditary hypertensive rats

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