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)

In a comparative study congenic rat strains bearing either the genetic background of diabetic BB/OK rats and the MHC (RTla) of diabetes-resistant LEW.1A rats (BB.1A/OK) or vice versa carrying the genetic background of LEW.1A rats in combination with the MHC (RTlu) of diabetic BB/OK rats (LEW.1BB/OK) and their parental rat strains BB/OK and LEW.1A were checked for insulin secretion of pancreatic islets, for the number of splenic and peripheral blood mononuclear cells (MNC) as well as for the mitogenic response of splenic MNC. Glucose stimulated insulin secretion of isolated islets of Langerhans was not different in 50, 70 and 100 day-old congenic rats and the progenitor rat strains excluding an impact of the genotype on this beta-cell-specific function. The number of splenic and peripheral blood MNC was reduced in BB/OK and BB.1A/OK rats compared to LEW.1A and LEW.1BB/OK rats. Splenic MNC from BB/OK and BB.1A/OK rats displayed a strongly decreased total [3H]thymidine incorporation under basal conditions as well as upon mitogenic stimulation by ConA in comparison with MNC from LEW.1A and LEW.1BB/OK rats. Thus, the occurrence of lymphopenia and the impairment of mononuclear cell proliferation in BB/OK rats is not related to the RTlu haplotype of the MHC but is linked to non-MHC genes as indicated by the phenotypic expression of these traits in congenic BB.1A/OK rats.
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PMID:Immunological and beta-cell-specific characteristics of diabetes-prone BB/OK rats and their congenic derivatives--a comparative study. 134 99

Previous studies have suggested that the development of diabetes in the BB rats does not require the expression of T lymphopenia. In order to derive non-lymphopenic diabetic rats and define the relationship between the T cell abnormalities, MHC genotype, and diabetes, we performed a cross between BB/H and diabetes resistant BB/control followed by an intercross of the F1. In the F2, the overall incidence of diabetes and lymphopenia was 30% and 27%, respectively. Lymphopenia was strongly associated with diabetes (p less than 0.001) and was seen in 76% of the diabetic F2's. However, 6 of the diabetic were non-lymphopenic (24%) and 3 of the non-diabetics were lymphopenic (5%). In the non-lymphopenic diabetic animals, all T cell levels were within the normal range, but diabetes occurred at an earlier age than their lymphopenic littermates (p less than 0.001). In contrast to the strong association between the inheritance of lymphopenia and diabetes, no relationship between diabetes and Class I MHC restriction fragment length polymorphisms was found. We conclude: 1) Diabetes and lymphopenia are strongly associated inherited abnormalities in the BB rat and are not associated with Class I RFLP defined genotypes within the RTIu haplotype, 2) Animals in whom diabetes occurs in the absence of lymphopenia can be derived using this breeding approach 3) In our non-lymphopenic rats, diabetes occurred at an earlier age possibly reflecting the restoration of quantitative or qualitative T cell defects found in lymphopenic BB rats.
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PMID:Derivation of non-lymphopenic BB rats with an intercross breeding. 257 92

We have studied the occurrence of two phenotypic components (pancreatic lymphocytic infiltration [PLI] of the pancreas and T lymphocytopenia) of the spontaneous insulin-dependent diabetic syndrome (IDDM) in the progeny of hybrids obtained by crossing BB diabetic rats with rats of inbred strains differing from the BB rat at the major histocompatibility complex, RT1. Both PLI and T lymphopenia were seen in animals with all three possible genotypes in both (BUF x BB) and (LEW x BB) lines. PLI was seen in all IDDM animals. T lymphopenia was strongly associated with overt IDDM in both lines (chi 2 = 22.28, p = 0.00002 and chi 2 = 19.28, p less than 0.00001). In addition, T lymphopenia was associated with PLI with and without IDDM in both lines (chi 2 = 8.32, p = 0.0039 an chi 2 = 3.95, p = 0.0467). Not all animals exhibiting PLI without overt IDDM had depressed T cells. Not all animals with T lymphopenia had PLI with or without IDDM. In both lines, the overt IDDM occurred only in animals with at least one RT1 u haplotype derived from the BB rat, confirming our previously reported association of IDDM and RT1. We interpret this evidence to suggest that the overt IDDM syndrome requires one MHC-linked gene and at least two non-MHC-linked genes, which determine susceptibility to PLI and to circulating T lymphocyte depression.
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PMID:Spontaneous diabetes mellitus syndrome in the rat. II. T lymphopenia and its association with clinical disease and pancreatic lymphocytic infiltration. 633 14

The spontaneously diabetic BB rat is an excellent and well studied model for human insulin-dependent diabetes (IDDM), sharing many important features with the human disease. Similarities include an equal frequency of IDDM in males and females, production of antibodies against pancreatic cell antigens, and an MHC disease association. In addition, the BB rat shares with human IDDM patients an increased frequency of autoantibodies against the parietal cells of the stomach and colloid cells of the thyroid gland. Here we investigate the genetic basis of thyroiditis in the BB rat. Based on crosses between BB, Lewis and Fischer rats, we show that two susceptibility factors for diabetes--the lymphopenia trait present in diabetes prone BB rats and the MHC--also appear to be risk factors for thyroiditis. However, the nature of the susceptibility was different for the two autoimmune diseases, with lymphopenia being absolutely required for diabetes although it only conferred increased risk for thyroiditis. Also, in contrast to IDDM, the MHC conferred dominant susceptibility to thyroiditis. Despite these shared risk factors, diabetes per se did not show significant correlation with thyroiditis.
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PMID:Thyroiditis in the BB rat is associated with lymphopenia but occurs independently of diabetes. 749 46

The spontaneously diabetic BB rat is a well-established animal model of human insulin-dependent diabetes mellitus. Besides the lymphopenia gene (Iddm 1) and the MHC class-II genes of the RT1u haplotype (Iddm 2), at least one other non-MHC gene (Iddm 3) is considered essential for diabetes development. To investigate the participation of this third gene in the development of diabetes in our BB/OK rat subline, we analysed 119 [(BB/OK x DA)F1 x BB/OK] first backcross hybrids phenotypically and genotypically. Genotyping with 5 classical and 28 polymorphic microsatellite markers indicated that the third gene is located on chromosome 18, about 22 +/- 7 cM distal from the Olf locus (Iod score = 2.33). Significantly more diabetics than Iddm 1 and Iddm 2 homozygous nondiabetic subjects were homozygous for this locus. Interacting genes located on chromosomes X and/or 1 seem to be involved.
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PMID:Locus on chromosome 18 cosegregates with diabetes in the BB/OK rat subline. 858 50

Acute muscular exercise induces an increased neutrophil count concomitant with recruitment of natural killer (NK), B and T cells to the blood as reflected by an elevation in the total lymphocyte count. Meanwhile, following intense exercise of long duration the lymphocyte count declines, non-MHC-restricted cytotoxicity is suppressed, but the neutrophil concentration increases. In relation to eccentric exercise involving muscle damage, the plasma concentrations of interleukin-1, interleukin-6 and the tumor necrosis factor are elevated. In this review we will propose a model based on the possible roles that stress hormones play a mediating the exercise- related immunological changes: adrenaline and to a lesser degree noradrenaline are responsible for the immediate effects of exercise on lymphocyte subpopulations and cytotoxic activities. The increase in catecholamines and growth hormone mediate the acute effects of exercise on neutrophils, whereas cortisol may be responsible for maintaining lymphopenia and neutrocytosis after exercise of long duration. Lastly, the role of beta-endorphin is less clear, but the cytokine response is closely related to muscle damage and stress hormones do not seem to be directly involved in the elevated cytokine level. Other possible mechanisms of exercise-induced immunomodulation may include the so-called glutamine hypothesis, which is based on the fact that skeletal muscle is an important source of glutamine production and that lymphocytes are dependent on glutamine for optimal growth. Furthermore, physiological changes during exercise, e.g. increased body temperature and decreased oxygen saturation may also in theory contribute to the exercise-induced immunological changes.
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PMID:Exercise-induced immunomodulation--possible roles of neuroendocrine and metabolic factors. 912 58

The Long-Evans Tokushima Lean (LETL) rat, characterized by rapid onset of insulin-dependent (type I) diabetes mellitus (IDDM), no sex difference in the incidence of IDDM, autoimmune destruction of pancreatic beta cells, and no significant T cell lymphopenia, is a desirable animal model for human IDDM. We have established a diabetes-prone substrain of the LETL rat, named Komeda Diabetes-Prone (KDP) rat, showing a 100% development of moderate to severe insulitis within 220 d of age. The cumulative frequency of IDDM was 70% at 120 d of age, and reached 82% within 220 d of age. Here, we performed the first genome-wide scan for non-MHC IDDM susceptibility genes in this strain. The analysis of three crosses has led to the revelation of a major IDDM susceptibility gene, termed Iddm/kdp1, on rat chromosome (Chr) 11. Homozygosity for the KDP allele at this locus is shown to be essential for the development of moderate to severe insulitis and the onset of IDDM. Comparative mapping suggests that the homologues of Iddm/ kdp1 are located on human Chr 3 and mouse Chr 16 and would therefore be different from previously reported IDDM susceptibility genes.
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PMID:A non-MHC locus essential for autoimmune type I diabetes in the Komeda Diabetes-Prone rat. 932 65

By several crossing studies it has been demonstrated that the MHC class-II genes of the RT1u haplotype, Iddm1, and the lymphopenia, Iddm2, are essential, but not sufficient for diabetes development in the BB rat. Using diabetic BB/OK and diabetes-resistant DA rats it has been shown that a third non-MHC gene, Iddm3, on chromosome 18 cosegregates with diabetes in the BB/OK rat subline. Because mapping results need not be consistent among different crosses, we genetically analysed a new cross population using diabetic BB/OK and diabetes-resistant SHR/Mol rats analysing 73 microsatellite markers. The genetic analysis of Iddm1 and Iddm2 homozygous [(BB/OK x SHR)F1 x BB/OK] first backcross hybrids (BC1) confirmed the action of Iddm3 and one predisposing non-MHC locus, Iddm4, near Ighe/D6Mgh2 on chromosome 6 and one protective locus, Iddm5r(esistance), detected around Igf2/Tnt on chromosome 1. From these novel findings it is concluded that the diabetogenic phenotype of the BB/OK rat subline is the result of the interaction of predisposing and protecting diabetes genes.
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PMID:Mapping of novel genes predisposing or protecting diabetes development in the BB/OK rat. 957 Nov 79

Several crossing studies with diabetic BB rats have shown that in addition to the lymphopenia (Iddm1) and the MHC class II genes of the RT1U haplotype (Iddm2) there are further non-MHC genes essential for diabetes development. Because diabetes-resistant inbred rat strains may be homozygous for one of the diabetogenic non-MHC genes, masking the expression of diabetogenic genes and leading to an underestimation of the number of diabetogenic genes, we crossed wild and diabetic BB/OK rats. The F1 hybrids were backcrossed onto diabetic female (BC1W-F, n=97) and male BB/OK rats (BC1W-M, n=98) transferred to a specified-pathogen-free environment and studied for the frequency and age at onset of diabetes up to an age of 30 weeks. Comparing the results of these BC1 W hybrids with similarly derived hybrids using diabetes-resistant DA rats (BC1DA-F, n=113; BC1DA-M, n=216), the diabetes frequency in total was comparable indicating the action of three recessive genes. The percentage of diabetics in Iddm1 and Iddm2 homozygotes confirmed the existence of the third gene, Iddm3, but there were some sex differences; significantly more male than female BC1W-F and significantly more BC1DA-M than BC1DA-F males were diabetic. Regarding the age at onset, the BC1W-F hybrids manifested not only significantly earlier, but also more uniformly than BC1DA-F and BC1-M hybrids.
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PMID:Crosses between diabetic BB/OK and wild rats confirm that a third gene is essential for diabetes development. 974 65

Several crossing studies using diabetic BB/OK and diabetes-resistant rat strains have clearly shown that the MHC class-II-genes of the RT1u haplotype (Iddm1) and the lymphopenia (Iddm2) are essential but not sufficient for type 1 diabetes development. The search for additional diabetogenic genes revealed predisposing non-MHC genes, Iddm3 and Iddm4, and a diabetes protective gene, Iddm5r, cosegregating with diabetes in the BB/OK rat subline. These findings were based on cosegregation studies comparing allele frequencies between diabetic and non-diabetic cross hybrids. Since, type 1 diabetes is characterised by hyperglycaemia we analysed 22 diabetic and 43 non-diabetic [(BB x SHR)FI x BB] backcross hybrids (28M:37F) which were already homozygous for Iddml and Iddm2 to search for quantitative trait loci (QTLs) affecting blood glucose in BB/OK rats. The QTL analysis using 117 microsatellite markers located on 19 autosomal chromosomes and the X chromosome, revealed suggestive linkage for blood glucose at the same position for diabetics (lod score 3.1) and non-diabetics at an age of 16 weeks at locus D6Mgh2 on chromosome 6 (lod score 1.9). In contrast, the peak for nondiabetics at an age of 28 weeks (lod score 3.1) was located in the region on chromosome 1 flanked by D1Mgh12 and D1Mit14, whereas the peak for diabetics (lod score 1.9) was found between Sa and Igf2. The distance between two peaks is ca. 50 cM. These findings are consistent with previously described results and provide strong evidence on the relevance of the described region for the development of diabetes not only in the rat, but, regarding the chromosomal homology also in human.
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PMID:Quantitative trait loci for blood glucose confirm diabetes predisposing and protective genes, Iddm4 and Iddm5r, in the spontaneously diabetic BB/OK rat. 985 59

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