UMLS:C0409974 - FACTA Search

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Query: UMLS:C0409974 (lupus)
22,386 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The grey wolf (Canis lupus) was numerous on the Scandinavian peninsula in the early 19th century. However, as a result of intense persecution, the population declined dramatically and was virtually extinct from the peninsula by the 1960s. We examined historical patterns of genetic variability throughout the period of decline, from 1829 to 1979. Contemporary Finnish wolves, considered to be representative of a large eastern wolf population, were used for comparison. Mitochondrial DNA (mtDNA) variability among historical Scandinavian wolves was significantly lower than in Finland while Y chromosome variability was comparable between the two populations. This may suggest that long-distance migration from the east has been male-biased. Importantly though, as the historical population was significantly differentiated from contemporary Finnish wolves, the overall immigration rate to the Scandinavian peninsula appears to have been low. Levels of variability at autosomal microsatellite loci were high by the early 1800s but declined considerably towards the mid-20th century. At this time, approximately 40% of the allelic diversity and 30% of the heterozygosity had been lost. After 1940, however, there is evidence of several immigration events, coinciding with episodes of marked population increase in Russian Karelia and subsequent westwards migration.
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PMID:Two centuries of the Scandinavian wolf population: patterns of genetic variability and migration during an era of dramatic decline. 1275 8

By interval mapping of a backcross progeny between New Zealand White (NZW) and C57BL/6 (B6) mice bearing the Y chromosome-linked autoimmune acceleration gene Yaa, we previously identified a genetic locus on mid-chromosome 13, here designated as Sgp3, showing a major effect on the expression of a nephritogenic autoantigen, gp70. In this study, the NZW-derived Sgp3 region was transferred by backcross procedure and marker-assisted selection on the B6 background to produce three independent congenic strains B6.NZW-Sgp3/1, -Sgp3/2, and -Sgp3/3. We show that NZW homozygosity at a single 3 centiMorgans ( approximately 12 megabases (Mb)) interval between markers D13Mit142 and D13Mit254 mediates increased basal serum levels of gp70 in B6.NZW-Sgp3/1 and B6.NZW-Sgp3/2 mice and with a higher degree in males ( approximately 15 micro g/ml) than in females ( approximately 9 micro g/ml) as compared with B6 ( approximately 2 micro g/ml), revealing a gender effect. However, their gp70 levels are still lower than that of NZW mice ( approximately 60 micro g/ml). In addition, B6.NZW-Sgp3/1 and B6.NZW-Sgp3/2 mice showed a moderate 2- to 3-fold increase in serum gp70 in response to LPS, which contrasted with over a 10-fold increase in NZW mice. Although both B6.NZW-Sgp3/1 and B6.NZW-Sgp3/2 mice failed to produce significant amounts of gp70 anti-gp70 immune complexes, unexpectedly, aged B6.NZW-Sgp3/2 congenic males bearing the Yaa gene developed increased titers of IgG autoantibodies to DNA and chromatin. Our data indicate that Sgp3 is involved in a complex process of gp70 production under polygenic control and may provide a significant contribution to lupus susceptibility not only through up-regulation of gp70 autoantigen production but also predisposition to autoimmunity.
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PMID:The Sgp3 locus on mouse chromosome 13 regulates nephritogenic gp70 autoantigen expression and predisposes to autoimmunity. 1450 Jun 89

F(1) hybrids among New Zealand Black (NZB), New Zealand White (NZW), and BXSB lupus-prone strains develop accelerated autoimmunity in both sexes regardless of the specific combination. To identify BXSB susceptibility loci in the absence of the Y chromosome accelerator of autoimmunity (Yaa) and to study the genetics of this complementation, genome-wide quantitative trait locus (QTL) mapping was performed on female (BXSB x NZW)F(2) mice. Six QTL were identified on chromosomes 1, 4, 5, 6, 7, and 17. Survival mapped to chromosomes 5 and 17, anti-chromatin Ab to chromosomes 4 and 17, glomerulonephritis to chromosomes 6 and 17, and splenomegaly to chromosomes 1, 7, and 17. QTL on chromosomes 4 and 6 were new and designated as Lxw1 and -2, respectively. Two non-MHC QTL (chromosomes 1 and 4) were inherited from the BXSB and the rest were NZW-derived, including two similar to previously defined loci. Only two of 11 previously defined non-MHC BXSB QTL using male (Yaa(+)) crosses were implicated, suggesting that some male-defined BXSB QTL may require coexpression of the Yaa. Findings from this and other studies indicate that BXSB and NZB backgrounds contribute completely different sets of genes to complement NZW mice. Identification of susceptibility genes and complementing genes in several lupus-prone strain combinations will be important for defining the epistatic effects and background influences on the heterogeneous genetic factors responsible for lupus induction.
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PMID:Genetic complementation in female (BXSB x NZW)F2 mice. 1466 43

Brain-reactive auto-antibodies appear as key elements in the progressive CNS disturbances associated with systemic lupus erythematosus. The BxSB lupus prone mice are a model of this pathology, in which a gene located on the Y chromosome provokes a sex specific morbidity in males. This study was aimed to establish and characterize the relationships between behavioral disorders, neurological deficiencies and the aged-related immunological perturbations in this murine model. For this purpose, spatial and motor abilities were evaluated in male and female mice at six and 26 weeks of age. The results showed that the older males were greatly altered in their spatial abilities while the young ones and the females, whatever their age, were not. None of the animals had motor skill and motor learning disabilities. These spatial alterations were associated with modifications of basal neuronal activity measured by the cytochrome oxidase histochemical method in several areas directly or indirectly involved in spatial behavior, such as the hippocampus, the amygdala, the parietal and perirhinal cortex. Immunological study allowed us to correlate the behavioral abnormalities to the appearance of antibodies reactivities against cellular and nuclear components.
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PMID:Effects of systemic lupus erythematosus on spatial cognition and cerebral regional metabolic reactivity in BxSB lupus-prone mice. 1612 63

In the systemic autoimmune/inflammatory lupus erythematosus disease, the involvement of the central nervous system is well recognized and frequently includes deficits in neurological function, cognition, and affect. The (NZW x BXSB)F1 lupus-prone mice are model of this pathology, in which a gene located on the Y chromosome provokes a sex specific morbidity in males. The present study examines whether autoimmune (NZW x BXSB)F1 mice develop impairments in learning and memory that correlate with severity of lupus-like disease. For this purpose, spatial and motor abilities were evaluated in 6- and 20-week-old male and female mice, and the immune status of these behaviorally tested mice was assessed by the presence of anti-nuclear antibodies (ANAbs) in the serum. The results showed that none of the animals had motor skill and motor learning disabilities, but that the older males were greatly impaired in their spatial abilities while the young ones and the females, whatever their age, were not. Besides, the ANAbs levels were similar and low in the young males, the young females and the old females, and very much higher in the old males, showing that spatial alterations were correlated to the anti-nuclear antibodies level.
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PMID:Spatial and motor abilities during the course of autoimmune disease in (NZW x BXSB)F1 lupus-prone mice. 1616 99

Dogs (Canis familiaris) were domesticated from the gray wolf (Canis lupus) at least 14,000 years ago, and there is evidence of dogs with phenotypes similar to those in modern breeds 4000 years ago. However, recent genetic analyses have suggested that modern dog breeds have a much more recent origin, probably <200 years ago. To study the origin of contemporaneous breeds we combined the analysis of paternally inherited Y chromosome markers with maternally inherited mitochondrial DNA and biparentally inherited autosomal microsatellite markers in both domestic dogs and their wild ancestor, the gray wolf. Our results show a sex bias in the origin of breeds, with fewer males than females contributing genetically, which clearly differs from the breeding patterns in wild gray wolf populations where both sexes have similar contributions. Furthermore, a comparison of mitochondrial DNA and Y chromosome diversity in dog groups recognized by the World Canine Organization, as well as in groups defined by the breeds' genetic composition, shows that paternal lineages are more differentiated among groups than maternal lineages. This demonstrates a lower exchange of males than of females between breeds belonging to different groups, which illustrates how breed founders may have been chosen.
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PMID:Unequal contribution of sexes in the origin of dog breeds. 1621 89

Nucleic acid-binding innate immune receptors such as Toll-like receptor 7 (TLR7) and TLR9 have been implicated in the development of some autoimmune pathologies. The Y chromosome-linked genomic modifier Yaa, which correlates with a duplication of Tlr7 and 16 other genes, exacerbates lupus-like syndromes in several mouse strains. Here we demonstrated that duplication of the Tlr7 gene was the sole requirement for this accelerated autoimmunity, because reduction of Tlr7 gene dosage abolished the Yaa phenotype. Further, we described new transgenic lines that overexpressed TLR7 alone and found that spontaneous autoimmunity developed beyond a 2-fold increase in TLR7 expression. Whereas a modest increase in Tlr7 gene dosage promoted autoreactive lymphocytes with RNA specificities and myeloid cell proliferation, a substantial increase in TLR7 expression caused fatal acute inflammatory pathology and profound dendritic cell dysregulation. These results underscore the importance of tightly regulating expression of TLR7 to prevent spontaneous triggering of harmful autoreactive and inflammatory responses.
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PMID:Control of toll-like receptor 7 expression is essential to restrict autoimmunity and dendritic cell proliferation. 1803 93

Chimerism occurs twice as often in the kidneys of women with lupus nephritis as in normal kidneys and may be involved in the pathogenesis of systemic lupus erythematosus. Pregnancy is considered the most important source of chimerism, but the exact relationship between pregnancy, the persistence of chimeric cells and the development of systemic lupus erythematosus has not been investigated. Renal biopsies and clinical data from patients in the First Dutch Lupus Nephritis Study were used. Chimeric cells were identified by in-situ hybridization of the Y chromosome. A questionnaire was used to obtain detailed reproductive data including pregnancy history and miscarriages. Chimerism was found in 12 of 26 (46%) renal biopsies. Of the 12 chimeric women, 5 reported a pregnancy; of 14 women who were not chimeric, 8 reported a pregnancy. Chimeric women who had been pregnant reported significantly more pregnancies than non-chimeric women who had been pregnant (P=0.04). The median age of the youngest child was higher in chimeric women (19 years) than in non-chimeric women (6 years). Despite the attention given to pregnancy histories with respect to chimerism, this study shows that in patients with systemic lupus erythematosus, a clear-cut relationship is not apparent. A considerable number of chimeric women did not report a pregnancy: in these women, other sources of chimerism must be considered. Our data support the theory that only certain subsets of chimeric cells persist into the maternal circulation after pregnancy.
Lupus 2008 Jun
PMID:Pregnancy, chimerism and lupus nephritis: a multi-centre study. 1853 7

Toll-like receptors (TLR), such as TLR7, were first described as innate pathogen recognition receptors that trigger appropriate antimicrobial immune responses upon exposure to pathogen-associated molecules, e.g. viral ssRNA. In parallel to ongoing studies on TLR-biology, mounting experimental evidence suggests that endogenous RNA-related autoantigens may also activate dendritic cells (DC) and B cells through TLR7. TLR7-mediated DC activation, autoantibody secretion, lymphoproliferation, and autoimmune tissue injury, are frequently observed in various murine models of systemic lupus and lupus nephritis. A paper in the current issue of the European Journal of Immunology, provide striking experimental evidence for this concept; the authors show that the Y chromosome-linked autoimmune accelerating (Yaa) translocation from the X-chromosome, consisting of 16 genes including Tlr7, largely mediates the autoimmune phenotype via the duplication of Tlr7. This finding highlights the need to address the significance of TLR7 in human lupus in terms of both genetic risk and as a therapeutic option.
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PMID:Molecular mimicry in innate immunity? The viral RNA recognition receptor TLR7 accelerates murine lupus. 1850 82

The autoimmune-type Fcgr2b with deletion polymorphism in AP-4-binding site in the promoter region is suggested to be one most plausible susceptibility gene for systemic lupus erythematosus (SLE). We previously found that there is a strong epistatic interaction between the autoimmune-type Fcgr2b polymorphism and Y chromosome-linked autoimmune acceleration (Yaa) mutation, thus severe SLE observed in BXSB males neither develops in BXSB females nor in the congenic BXSB.IIB(B6) males carrying wild C57BL/6-type Fcgr2b. Present studies examined whether the wild-type Fcgr2b could suppress SLE in mice carrying Yaa-unrelated SLE susceptibility genes. Comparison of disease features between SLE-prone (NZW x BXSB) F1 females and the congenic (NZW x BXSB.IIB(B6)) F1 females carrying wild-type Fcgr2b showed that, as compared with findings in the former, SLE features including activation/proliferation of not only B cells but also T cells and monocytes/macrophages were all inhibited in the latter. It was concluded that the autoimmune-type Fcgr2b promotes and the wild-type inhibits SLE through mechanisms that promote and suppress activation/proliferation of a wide variety of immune cells, respectively. Thus, the Fcgr2b polymorphism is a key genetic element for not only Yaa-related but also Yaa-unrelated lupus.
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PMID:Inhibitory IgG Fc receptor promoter region polymorphism is a key genetic element for murine systemic lupus erythematosus. 1975 87

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