UMLS:C0024312 - FACTA Search

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Query: UMLS:C0024312 (lymphopenia)
4,859 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The rat diabetes susceptibility gene, Lyp or Lymphopenia, has been localized to RNO4. Proximal to Lyp are the genes caspase-2 (Casp2) and pancreatic trypsin 1 (Prss1), while neuropeptide Y (Npy) is the closest distally positioned gene. In human, the three genes are syntenic on HSA7, but they are not on a conserved segment: CASP2 and PRSS1 are localized to 7q35, while NPY is localized to 7p15.1. This raises the question whether the human homologue of Lyp is linked to CASP2/PRSS1 or to NPY. We present a comparative map of the Lyp region in rat and human, assigning the gene to a 1.3-Mb segment between RNY3 and ABP1 at 7q35.
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PMID:Comparative mapping of the human homologue of the rat diabetes susceptibility gene lyp to a 1.3-Mb segment on HSA7. 1077 70

The Lyp locus controls diabetes development in rats. The diabetogenic allele in diabetes-prone BB rats is responsible for T cell lymphopenia characterized by the absence of regulatory T cells. We present refined genetic and radiation hybrid maps of the Lyp region on rat chromosome 4, a single 800-kb rat yeast artificial chromosome and a rat P1-derived artificial chromosome (PAC) contig corresponding to approximately 550 kb, both encompassing the entire candidate region. The contig, consisting of 48 PACs, gives 3- to 12-fold coverage. Genetic, radiation hybrid, and physical data were all in agreement and supported the same marker order. Nine genes and ESTs were identified in the contig in addition to a rat EST from the University of Iowa rat EST database-all possible candidate genes for Lyp. Alignment of our rat PAC contig with sequenced human PAC/BAC contigs confirms the position within the region of 3 of the 10 candidates and identifies an additional 8 genes/ESTs as candidates. These data will facilitate identification of Lyp.
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PMID:A sequence-ready PAC contig of a 550-kb region on rat chromosome 4 including the diabetes susceptibility gene Lyp. 1105 48

Diabetes-prone (BBDP) BB rats develop spontaneous autoimmune diabetes mellitus. They are lymphopenic and severely deficient in ART2+ T-cells. Diabetes-resistant BB (BBDR) rats do not develop spontaneous diabetes and have normal numbers of ART2+ T-cells. T-cell lymphopenia in BBDP rats results from hematopoietic stem cell defects leading to abnormal intrathymic T-cell maturation. To study this process, we established rat fetal thymic organ cultures (FTOC). Like mouse FTOC, cultures of BBDR rat thymi yielded approximately 10(5) cells per lobe. The majority of cells were CD8+ART2+ T-cells. In contrast, BBDP rat FTOC yielded 60% fewer cells (approximately 0.3 x 10(5)/lobe), a smaller percentage of CD8+ and TcRalphabeta+ T-cells, and almost no detectable ART2+ T-cells. ART2 mRNA was detectable in BBDR but not BBDP FTOC. In contrast, expression of mRNAs encoding bcl-2 and a panel of cytokines was comparable in BBDP and BBDR FTOC. Addition of anti-ICAM-1 (CD54) antibody reduced T-cell number in BBDR rat FTOC by approximately 70%, but addition of IL-7 or IL-1beta had no effect. The data demonstrate that BBDP thymocytes fail to generate mature ART2+ T-cells in rat FTOC, a system that can now be used to study the mechanism of this process.
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PMID:Fetal thymi from diabetes-prone but not diabetes-resistant BB/Wor rats fail to generate mature ART2+ T-cells in organ culture. 1129 61

The induction of immunological self-tolerance begins in the thymus during fetal life. The random recombination of gene segments coding for TCR is followed by the negative selection of T cells bearing a TCR directed against self-antigens presented by thymic MHC. Insulin-like growth factor type 2 (IGF-2) is the dominant gene of the insulin family that is transcribed and translated in the thymus of different species. Contrary to the other members of the insulin gene family, IGF-2 gene (IGF2) is not transcribed in the thymus of diabetes-prone BB rats. The absence of thymic IGF2 expression is associated with the diabetogenic autoimmune process in BB rats. This defect could not only contribute to the lymphopenia of BB rats, but also to the absence of central self-tolerance of the insulin family in this animal.
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PMID:[Role of the thymus in the pathophysiology of autoimmune diabetes type 1]. 1130 59

Diabetes in BB rats share many common features with human type 1 diabetes. One of them is the complex and polygenic nature of disease. Analysis of cross hybrids of diabetic BB/OK rats and rats of different diabetes-resistant strains has demonstrated that beside the MHC genes, Iddm1 and the lymphopenia, Iddm2, additional non-MHC genes are involved in diabetes development. To study the importance of the non-MHC genes, Iddm4 and Iddm3, two congenic BB.SHR rat strains were generated by recombining a segment of the SHR chromosome 6 (Iddm4; termed BB.6S; 15cM) or chromosome 18 (Iddm3; termed BB.18S; 24cM) into the BB/OK background by serial backcrossing and marker-aided selection. The characterization of both congenic strains demonstrates a drastic reduction of diabetes frequency in comparison to the BB/OK strain (86% vs 14% and 34%). It is supposed that diabetes protective genes of SHR must be located on both chromosomal segments and that these suppress the action of the essential and most important genes of diabetes development in the BB/OK rat, Iddm1, and Iddm2.
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PMID:Genes of SHR rats protect spontaneously diabetic BB/OK rats from diabetes: lessons from congenic BB.SHR rat strains. 1132 15

A case of necrobiotic xanthogranuloma without typical periorbital involvement is described at the ultrastructural level. The patient, a 58-year-old Italian man, presented in 1995 with a brief history of nodulo-papular lesions commencing on the lower limbs, and mild paraproteinemia. During 6 years of follow-up, anemia, neutropenia with marked lymphopenia, and increased ESR were found, while serum cholesterol and triglyceride levels decreased from hyper to hypo values. Systemic diseases, such as diabetes, malignancy, or extracutaneous lesions, often associated with NXG, have not developed. Conventional histology was distinctive for NXG, and immunohistochemistry confirmed that dermal histiocytes were not of Langerhans cell lineage. At ultrastructure, regeneration and degeneration ("regen-degen") features were observed in some individual deep dermal histiocytes, which have not been previously documented in the literature. Identification of giant histiocytes showing 'regen-degen'' aspects might prove to be a useful ultrastructural diagnostic marker for NXG.
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PMID:Necrobiotic xanthogranuloma without periorbital involvement: an ultrastructural investigation. 1178 8

Diabetes-prone (DP) BB rats spontaneously develop insulin-dependent diabetes resembling human type 1 diabetes. They also exhibit lifelong T-cell lymphopenia. Functional and genetic data support the hypothesis that the gene responsible for the lymphopenia, Lyp, is also a diabetes susceptibility gene, named Iddm1. We constructed a 550-kb P1-derived artificial chromosome contig of the region. Here, we present a corrected genetic map reducing the genetic interval to 0.2 cM and the physical interval to 150-290 kb. A total of 13 genes and six GenomeScan models are assigned to the homologous human DNA segment on HSA7q36.1, 8 of which belong to the family of immune-associated nucleotides (Ian genes). Two of these are orthologous to mouse Ian1 and -4, both excellent candidates for Iddm1. In normal rats, they are expressed in the thymus and T-cell regions of the spleen. In the thymus of lymphopenic rats, Ian1 exhibits wild-type expression patterns, whereas Ian4 expression is reduced. Mutational screening of their coding sequences revealed a frameshift mutation in Ian4 among lymphopenic rats. The mutation results in a truncated protein in which the COOH-terminal 215 amino acids-including the anchor localizing the protein to the outer mitochondrial membrane-are replaced by 19 other amino acids. We propose that Ian4 is identical to Iddm1.
Diabetes 2002 Jun
PMID:The diabetes-prone BB rat carries a frameshift mutation in Ian4, a positional candidate of Iddm1. 1203 88

Zygomycosis (mucormycosis) is a relatively uncommon infection in immunocompromised patients most often diagnosed in patients with haematological malignancies and neutropenia. Postmortem series demonstrate a high mortality rate up to 80%. Pulmonary involvement mimicking the more frequently diagnosed invasive aspergillosis is the typical clinical presentation. Other risk factors for the development of zygomycosis that have been described in other patient populations include diabetic ketoacidosis, iron overload, use of deferoxamine and steroids. If these factors are also associated with zygomycosis in patients with haematological malignancies has not been described. In a retrospective case-control study including 13 patients with zygomycosis and 13 control patients with the same underlying diseases, without zygomycosis we determined the frequency of various risk factors. Patients with zygomycosis experienced a longer period of neutropenia (17 vs. 13 days) and lymphopenia (23 vs. 20 days). A relapse of their underlying disease was diagnosed more frequently in patients with zygomycosis (7/13 vs. 3/13) as were a diagnosis of diabetes mellitus (6/13 vs. 3/13) and a cardiovascular disease (6/13 vs. 1/13). The previous use of steroids was more frequent in patients with zygomycosis (8/13 vs. 4/13) as was a systemic antifungal prophylaxis with itraconazole (9/13 vs. 4/13). Knowledge of these risk factors may be of benefit in diagnosing and monitoring zygomycosis in patients with haematological malignancies.
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PMID:[Risk factor for invasive zygomycosis in patients with hematologic malignancies]. 1207 59

RT6 is a developmentally regulated cell-surface membrane adenosine 5'-diphosphate-ribosyltransferase/nicotinamide adenine dinucleotide-glycohydrolase inserted within the membrane by a glycophosphatidylinositol anchor. In the rat it is restricted to mature T lymphocytes and a subpopulation of natural killer cells. With respect to the data now available, three aspects concerning the function of RT6 are discussed: first, the meaning of the marked polymorphisms; second, its enzymatic activity; third, its possible role concerning T-cell survival. The observation that the rat RT6 gene contains two transcription start sites suggests their different use by distinct subpopulations of T cells. The fact that the expression of RT6 is defective in lymphopenic diabetes prone (DP-BB) rats, although the RT6 gene is structurally not grossly altered in these animals, makes this rat strain a promising model to study the biological meaning of RT6. While it mostly is believed that the RT6 expression defect of the DP-BB rat is a consequence of the lymphopenia, the present paper discusses the possibility that the RT6 expression defect is causally involved in the lymphopenia, and that a normal expression of RT6 may protect the recent thymic emigrants from apoptosis.
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PMID:The RT6 system of the rat: developmental, molecular and functional aspects. 1208 24

The BB (BioBreeding) rat is one of the best models of spontaneous autoimmune diabetes and is used to study non-MHC loci contributing to Type 1 diabetes. Type 1 diabetes in the diabetes-prone BB (BBDP) rat is polygenic, dependent upon mutations at several loci. Iddm1, on chromosome 4, is responsible for a lymphopenia (lyp) phenotype and is essential to diabetes. In this study, we report the positional cloning of the Iddm1/lyp locus. We show that lymphopenia is due to a frameshift deletion in a novel member (Ian5) of the Immune-Associated Nucleotide (IAN)-related gene family, resulting in truncation of a significant portion of the protein. This mutation was absent in 37 other inbred rat strains that are nonlymphopenic and nondiabetic. The IAN gene family, lying within a tight cluster on rat chromosome 4, mouse chromosome 6, and human chromosome 7, is poorly characterized. Some members of the family have been shown to be expressed in mature T cells and switched on during thymic T-cell development, suggesting that Ian5 may be a key factor in T-cell development. The lymphopenia mutation may thus be useful not only to elucidate Type 1 diabetes, but also in the function of the Ian gene family as a whole.
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PMID:Lymphopenia in the BB rat model of type 1 diabetes is due to a mutation in a novel immune-associated nucleotide (Ian)-related gene. 1209 39

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