Genetics of clinical expression in SLE.

Systemic lupus erythematosus (SLE) is the prototype of complex autoimmune diseases and is characterized by extreme breakdown of self-tolerance which results in a wide range of immunologic abnormalities and immune complex formation. Genetic, hormonal and environmental factors are known to contribute to the expression of the disease. SLE is very heterogeneous in clinical manifestations and different autoantibodies may predict different set of clinical outcome, however, despite considerable accumulated knowledge, the detailed pathogenesis of SLE still remains unknown. In genetic studies, recent findings in gene expression analyses strongly support the direct role of cytokines and interferons in various immune dysregulations described in SLE. By recent advances in high-throughput SNP genotyping, the association studies of this complex disease have become more practical and for the first time new genetic association results can be confirmed in different population.

Linkage at 5q14.3-15 in multiplex systemic lupus erythematosus pedigrees stratified by autoimmune thyroid disease.

OBJECTIVE: To identify genetic effects potentially shared between systemic lupus erythematosus (SLE) and autoimmune thyroiditis (AITD). METHODS: Families from the Lupus Multiplex Registry and Repository were studied in which there was at least 1 member who had both SLE and AITD (Graves' disease or Hashimoto thyroiditis). Genome scan genotyping findings in these pedigrees were evaluated for evidence of genetic linkage, by the maximum-likelihood parametric method. Nineteen pedigrees were used in the initial genome scan. Subsequently, an independent sample of 16 pedigrees was used to replicate findings. RESULTS: Studies of the first set of 19 pedigrees yielded a 2-point parametric logarithm of odds (LOD) of 4.97, which was independently confirmed in the replication sample of 16 pedigrees (LOD 2.89). For all 35 pedigrees together, the 2-point LOD was 7.86, under a dominant model used for screening with 90% penetrance and a disease allele frequency of 10%. The multipoint locus homogeneity LOD in the 35 pedigrees was 6.90 (alpha = 1.0) at 5q14.3-15 between D5S1725 and D5S1453, a 12-cM interval, with the peak at D5S1462 at 96.64 cM (nonparametric linkage P = 0.00002). Fine mapping further confirmed the genetic linkage effect and narrowed the region likely to contain the gene to approximately 5 Mb. CONCLUSION: These results suggest that stratifying SLE pedigrees by the presence of other autoimmune disorders may facilitate the discovery of genes related to SLE and that 5q14.3-15 harbors a susceptibility gene shared by SLE and AITD.

Genetics of human systemic lupus erythematosus: the emerging picture.

Systemic lupus erythematosus (SLE) is a systemic autoimmune inflammatory disease with partially understood etiology, which can affect virtually any organ. Despite suggestions to the contrary, SLE is proving to be a reliable phenotype for genetic studies. Similar to many other autoimmune diseases, SLE demonstrates a complex pattern of inheritance that is consistent with the involvement of multiple susceptibility genes as well as environmental risk factors. During the past several years, some new candidate genes have been implicated in induction of SLE through association studies, and multiple susceptibility regions have been detected through genome-wide linkage studies. Many of the susceptibility effects have been confirmed by independent studies.

A candidate region on 11p13 for systemic lupus erythematosus: a linkage identified in African-American families.

Systemic Lupus Erythematosus (SLE), a chronic, complex disease, is the prototype for systemic human autoimmune diseases. Although environmental factors are crucial in triggering the condition, twin and family studies, as well as genetic linkage and association studies, have established its strong genetic predisposition. During the past few years, there has been considerable interest in identifying genomic segments linked to SLE through either a whole genome scan or a candidate gene approach. The discoid lupus erythematosus (DLE) skin lesion is one of the major, and discriminating, manifestations in SLE, especially in African American patients. In this study we have identified 58 multiplex families--27 African American, 26 European American, and 5 others--where at least one SLE patient is also reported to be afflicted with DLE. These families were chosen from the collection of families that are part of our ongoing linkage study for SLE. A genome-wide parametric and nonparametric linkage analysis was conducted with 320 markers. Significant evidence of linkage was identified in only one chromosomal location, 11p13, in the African American families. The maximum 2-point linkage was 5.6 in these pedigrees, obtained at a marker located 47 CM away from the pterminal end of chromosome 11. The peak multipoint LOD score of 4.6 was obtained very nearby. The segregation of this gene suggests dominant inheritance. These results reveal an important genetic effect related to discoid rash at 11p13 in African Americans with SLE, and demonstrate, through increasing genetic homogeneity, the power of pedigree stratification to detect linkage in complex diseases.

Linkage at 12q24 with systemic lupus erythematosus (SLE) is established and confirmed in Hispanic and European American families.

Systemic lupus erythematosus (SLE) is a chronic, complex, and systemic human autoimmune disease, with both an environmental component and a heritable predisposition. Clinical studies, reinforced by epidemiology and genetics, show impressive variation in disease severity, expression, prevalence, and incidence by ethnicity and sex. To identify the novel SLE susceptibility loci, we performed a genomewide scan with 318 markers on 37 multiplex Hispanic families, using a nonparametric penetrance-independent affected-only allele-sharing method. Three chromosomal regions (12q24, 16p13, and 16q12-21) exceeded our predetermined threshold (Zlr>2.32; nominal P<.01) for further evaluation. Suspected linkages at 12q24, 16p13, and 16q12-21 were tested in an independent data set consisting of 92 European American (EA-1) and 55 African American (AA) families. The linkage at 12q24 was replicated in EA-1 (Zlr=3.06; P=.001) but not in AA (Zlr=0.37; P=.35). Although neither the 16p13 nor the 16q12-21 was confirmed in EA-1 or AA, the suggestive linkage (Zlr=3.06; P=.001) at 16q12-21 is sufficient to confirm the significant linkage, reported elsewhere, at this location. The evidence for linkage at 12q24 in the 129 combined (Hispanic and EA-1) families exceeded the threshold for genomewide significance (Zlr=4.39; P=5.7x10-6; nonparametric LOD=4.19). Parametric linkage analyses suggested a low-penetrance, dominant model (LOD=3.72). To confirm the linkage effect at 12q24, we performed linkage analysis in another set of 82 independent European American families (EA-2). The evidence for linkage was confirmed (Zlr=2.11; P=.017). Therefore, our results have detected, established, and confirmed the existence of a novel SLE susceptibility locus at 12q24 (designated "SLEB4") that may cause lupus, especially in Hispanic and European American families.

Thrombocytopenia identifies a severe familial phenotype of systemic lupus erythematosus and reveals genetic linkages at 1q22 and 11p13.

Systemic lupus erythematosus (SLE) is a complicated autoimmune disease with a definite genetic predisposition. Thrombocytopenia predicts severe disease and death in SLE, making the identification of the related genetic risk factors especially important. We selected the 38 pedigrees that had an SLE patient with thrombocytopenia (platelets, < 10 x 10(9)/L [< 100,000/microL]) from a collection of 184 pedigrees multiplex for SLE. Linkages were established at 1q22-23 (maximum logarithm of odds [lod(max)] = 3.71) in the 38 pedigrees and at 11p13 (lod(max) = 5.72) in the 13 African American pedigrees. Nephritis, serositis, neuropsychiatric involvement, autoimmune hemolytic anemia, anti-double-stranded DNA, and antiphospholipid antibody were associated with thrombocytopenia. Other results show that SLE is more severe in the families with a thrombocytopenic SLE patient, whether or not thrombocytopenia in an individual patient is considered. These results are consistent with thrombocytopenia being a component of a severe familial form of SLE and with genes at 1q22-23 and 11p13 contributing to this severe phenotype and to the subsequent high mortality associated with thrombocytopenia in SLE.

Stratification of pedigrees multiplex for systemic lupus erythematosus and for self-reported rheumatoid arthritis detects a systemic lupus erythematosus susceptibility gene (SLER1) at 5p15.3.

OBJECTIVE: Arthritis is a common manifestation in systemic lupus erythematosus (SLE), appearing in approximately 85% of patients. Often, the polyarthritis at presentation of SLE cannot be distinguished from rheumatoid arthritis (RA) by physical examination or history. Indeed, physicians initially tell many SLE patients that they have RA (one source of "self-reported RA"), only to have SLE established later. In addition, RA aggregates in families with an SLE proband. We predicted that pedigrees multiplex for both SLE and for self-reported RA would better isolate particular genetic effects. If this proved to be true, we would then use the increased genetic homogeneity to more easily reveal genetic linkage. METHODS: From a collection of 160 pedigrees multiplex for SLE, we selected 36 pedigrees that also contained >or=2 members with self-reported RA (19 pedigrees were African American, 14 were European American, and 3 were of other ethnic origin). Data from a genome scan of 307 microsatellite markers were evaluated for SLE linkage by contemporary genetic epidemiologic techniques. RESULTS: The most significant evidence of linkage to SLE was obtained at 5p15.3 in the European American pedigrees by both parametric (logarithm of odds [LOD] score 6.2, P = 9.3 x 10(-8)) and nonparametric (LOD score 6.9, P = 1.7 x 10(-8)) methods. The best-fitting model for this putative SLE gene in this region was a recessive gene with a population frequency of 5% and with 50% penetrance in females and 15% penetrance in males at virtually 100% homogeneity. CONCLUSION: For a genetically complex disease phenotype, an unusually powerful linkage has been found with SLE at 5p15.3 in European American pedigrees multiplex for SLE and for self-reported RA. This result predicts the presence of a gene at the top of chromosome 5 in this subset of patients that is important for the pathogenesis of SLE.

Evidence for a susceptibility gene (SLEH1) on chromosome 11q14 for systemic lupus erythematosus (SLE) families with hemolytic anemia.

Hemolytic anemia is a forme fruste of systemic lupus erythematosus (SLE), being observed months or even years before the onset of other clinical manifestations in some patients. We hypothesized that hemolytic anemia in those SLE-affected patients would identify a group of SLE pedigrees that share a high degree of genetic homogeneity. From 160 multiplex SLE pedigrees, we sought evidence for linkage in 35 (16 African-American, 17 European-American, and 2 Hispanic) who had at least one SLE-affected patient with hemolytic anemia. Significant linkage was present at 11q14 in the 16 African-American pedigrees, yielding a maximum two-point logarithm of odds (LOD) score of 4.5 at D11S2002. The segregation pattern of SLE in these African-American pedigrees suggested a dominant mode of inheritance and, when maximized across penetrance and disease allele frequencies, produced a multipoint LOD of 4.7. Multipoint analysis yielded a multipoint heterogeneity LOD score of 3.6 (alpha = 0.63), again with maximum LOD at D11S2002. Finally, markers typed 7 centimorgans to either side of D11S2002 achieved LOD scores of 3 or better by using the maximized model, supporting linkage to 11q14. Clearly, pedigree ascertainment based on select clinical manifestations is an important tool, capable of revealing otherwise cryptic genetic linkages in complex genetic diseases. Thus, we show strong evidence for an SLE susceptibility gene, SLEH1, near D11S2002 in African-American pedigrees multiplex for SLE that have at least one SLE-affected patient with hemolytic anemia.