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Query: UMLS:C0024312 (
lymphopenia
)
4,859
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Caspase-2 is a member of the caspase family of cystein proteases involved in programmed cell death or apoptosis. Functional and genetic data suggest it as a candidate gene for
lymphopenia
(
Lyp
)-a susceptibility gene for rat
diabetes
-which is responsible for the T-cell
lymphopenia
in the
diabetes
-prone BB rat. Firstly, there is a higher frequency of apoptosis among recent thymic emigrants in the
diabetes
-prone BB rat than in the non-lymphopenic
diabetes
-resistant BB rat. Secondly, caspase-2 maps close to Tcrb on mouse Chromosome (Chr) 6, while
Lyp
is closely linked to Tcrb on the homologous rat Chr 4. In this paper, we report genetic fine-positioning and radiation hybrid mapping of caspase-2 in the rat. Both methods positioned caspase-2 to rat Chr 4 between markers Prss1 and D4Mit5. Since
Lyp
maps distally to D4Mit5, between markers D4Rat75 and Npy, we exclude caspase-2 as a candidate gene for
Lyp
.
...
PMID:Mapping of caspase-2 in the rat and its exclusion as a candidate gene for lymphopenia. 1005 19
One of the
diabetes
susceptibility genes of the BB/W (Biobreeding/Worcester) rat maps to the lyp locus on chromosome 4. The BB/W lyp allele is responsible for a severe peripheral T
lymphopenia
. Correction of this
lymphopenia
by transfer of normal, histocompatible T cells prevents
diabetes
, providing T cell reconstitution is initiated before insulitis. We have analyzed this time-dependent regulation of the diabetogenic process by normal T cells. We demonstrate that T cell reconstitution after the initiation of insulitis precipitates the onset of
diabetes
through the recruitment of donor T cells to the autoimmune process. This inability of normal T cells to regulate primed diabetogenic BB/W T cells and their own autoreactive potential were observed when normal T cells outnumbered pathogenic T cells by approximately 1000-fold. Analysis of donor-derived T cells recovered from BB/W rats that were reconstituted before insulitis, and hence protected from
diabetes
, demonstrates that early T cell reconstitution of BB/W rats does not result in a long term physical or functional depletion of islet cell-specific T cell precursors among donor cells or in the expansion of T cells that can regulate the activation and expansion of diabetogenic T cells.
...
PMID:T cell reconstitution of BB/W rats after the initiation of insulitis precipitates the onset of diabetes. 1022 84
T cell fate following antigen encounter is determined by several intracellular signals generated by the interaction of the T cell with an antigen-presenting cell. In the periphery activation requires T cell receptor signaling (signal one) in combination with costimulatory signals (signal two), usually provided through the cognate interaction of CD28 and B7 molecules. Provision of signal one alone to purified murine peripheral T cells in vitro induces apoptosis or anergy rather than promoting activation. These T cells can be rescued from apoptosis if they are provided with costimulation supplied, for example, by engaging the CD28 co-receptor with an anti-CD28 monoclonal antibody or by adding an exogenous source of interleukin-2. However, a majority of peripheral T cells from autoimmune,
diabetes
-prone Biobreeding (BB) rats exhibited different responses to these stimuli. T cells from these rats could not be rescued from apoptosis by costimulation. This was not due to the inability of BB-DP T cells to upregulate CD28 and the IL-2 receptor in response to TCR crosslinking. The failure of these costimulatory interactions to rescue BB-DP T cells segregated with the
diabetes
-susceptibility gene iddm1. Iddm1 in the rat causes peripheral T cell
lymphopenia
, which is associated with a dramatically shortened peripheral T cell life span. Our results indicate that a diabetogenic gene may contribute to autoimmunity by negating costimulatory signals important for the survival of long-lived peripheral T cells.
...
PMID:A diabetogenic gene prevents T cells from receiving costimulatory signals. 1035 84
BB rats develop autoimmune
diabetes mellitus
at a high frequency. A key factor in the development of the disease is an autosomal recessive mutation determining peripheral T cell lymphocytopenia. Previous studies have suggested that the
lymphopenia
could be caused by increased cell death. Here we demonstrate that the lyp mutation dramatically reduces the in vitro lifespan of the TCRhi single-positive thymocytes and peripheral T cells, without abolishing their capacity to proliferate. The reduced lifespan is due to an increased rate of apoptosis, and is detected in single-positive thymocytes displaying characteristics of cells which have undergone positive selection. The cell death defect does not affect the in vitro lifespan of peripheral B cells. Interestingly, stimulation can rescue peripheral lyp/lyp T cells from immediate cell death. We propose that the
lymphopenia
mutation prevents the accumulation of a normal T cell pool, including regulatory subsets, without preventing the activation and proliferation of reactive T cells, thereby creating conditions appropriate for the development of uncontrolled autoimmune responses.
...
PMID:The lymphopenia mutation of the BB rat causes inappropriate apoptosis of mature thymocytes. 1038 45
Diabetes mellitus
in Long-Evans Tokushima Lean (LETL) rats closely resembles type 1 diabetes in human beings, e.g., no gender differences in the incidence of
diabetes
and no T
lymphopenia
. Although the LETL rats have been established as an inbred strain, the incidence of
diabetes
is only approximately 20%. In the present study, we established two substrains, one a
diabetes
-prone (KDP) and the other a non-diabetic (KND) from the original inbred LETL rats. The features of KDP rats are a high incidence of
diabetes
(over all approximately 70%) without
lymphopenia
and 100% development of mild to severe insulitis at 120-220 days of age. In contrast, the KND substrain is characterized by the complete absence of
diabetes
incidence. Among 165 SSLP marker loci throughout all rat chromosomes, no loci showed variation among KDP and KND substrains and their parental LETL rats. In this regard, the genetic background of these two substrains, KDP and KND, appears to be uniform except for the major gene(s) that is responsible for the
diabetes
. In this context, these two substrains of LETL rats should serve as useful tools for research on the pathogenesis and for the genetic analysis of type 1 diabetes. In this report, we have not only established, but also characterized these two substrains, and provided their fundamental data.
...
PMID:Establishment of two substrains, diabetes-prone and non-diabetic, from Long-Evans Tokushima Lean (LETL) rats. 1039 28
Lyp controls
lymphopenia
and T-cell mediated autoimmune
diabetes
in the BioBreeding (BB) rat possibly by interacting with T-cell maturation in the thymus. The protooncogene vav (p95) is involved in T-cell activation and in the intrathymic selection of developing T cells. We have previously reported increased production of IFN-gamma of self reactive thymocytes in the thymus medulla of Lyp/Lyp BB rats.
Lymphopenia
and
diabetes
may therefore be linked to an increase in thymocyte activation leading to a bias in thymocyte development. The purpose of this study was therefore to investigate whether the expression of p95"a" in primary lymphoid tissues from congenic Lyp/Lyp, Lyp/+ and +/+ BB rats was correlated to the Lyp genotype using in situ hybridization and reverse transcription (RT)-PCR. It was found that the expression of vav mRNA in the thymus was increased in Lyp/Lyp compared to Lyp/+ and +/+ rats (p < 0.05). Western blot analysis revealed that the amount of p95 vav protein in Lyp/Lyp thymus was also increased. The results show that vav expression correlates with the
lymphopenia
phenotype and
diabetes
development in congenic Lyp/Lyp BB rats. An increase in the availability of p95vav during the development and activation of thymocytes in Lyp/Lyp BB rats may therefore contribute to the generation of islet autoreactivity,
lymphopenia
or both.
...
PMID:Differential expression of p95vav in primary lymphoid tissue of BB rats congenic for the lymphopenia gene. 1043 93
The genetic etiology of Type 1 (insulin-dependent)
diabetes mellitus
is complicated by the apparent presence of several
diabetes
susceptibility genetic regions. Type 1
diabetes
in the inbred BioBreeding (BB) rat closely resembles the human disorder and was previously shown to involve two genes: the
lymphopenia
(lyp) region on Chromosome (Chr) 4 and RT1(u) in the major histocompatibility complex (MHC) on Chr 20. In addition, a segregation analysis of an F(2) intercross between the
diabetes
-prone congenic BB DR(lyp/lyp, u/u) and F344(+/+,)(lv/lv) rats indicated that at least one more genetic factor was responsible for Type 1
diabetes
. In this study, we generated F(2)N(2) progeny in a cross between non-diabetic F(2)(DR(lyp/lyp,u/u) x F344)(lyp/lyp,u/u) and diabetic DR(lyp/lyp, u/u) rats. In a subsequent total genome scan, a third factor was mapped to the 21.3-cM region on Chr 2 between D2Mit14 and D2Mit15 (peak LOD score 4.7 with 67% penetrance). Interestingly, the homozygosity of the BB allele (b/b) for the Chr 2 region was significantly associated with a greater weight reduction after fasting than the homozygosity of the F344 allele (f/f, p < 0.008). In conclusion, the development of Type 1
diabetes
in the congenic DR(lyp/lyp) rat is controlled by at least three genes:
lymphopenia
, MHC, and a third factor that may play a role in metabolism and body weight regulation.
...
PMID:BB rat diabetes susceptibility and body weight regulation genes colocalize on chromosome 2. 1044 39
Diabetes
-prone (DP) BB rats develop autoimmune type 1 diabetes spontaneously. At least five loci are linked to disease expression: the major histocompatibility complex (iddm2), two susceptibility loci (iddm4, iddm5), and, possibly, a resistance locus (iddm3). Spontaneous disease also requires homozygosity for lyp/iddm1, which causes
lymphopenia
. It has not been determined whether lyp/iddm1 is required for predisposition to
diabetes
autoimmunity in addition to being required for its spontaneous expression. We analyzed backcross rats segregating for
diabetes
but not
lymphopenia
using Wistar-Furth (WF) and
diabetes
-resistant (DR) BB animals. The latter are nonlymphopenic (lyp+/+) and develop
diabetes
only in response to immunological perturbants. Treatment of (DR-BB x WF)F1 x WF animals (all lyp+/+) using a standard induction protocol caused type 1 diabetes in 58% of progeny. Expression of type 1 diabetes was strongly linked to iddm4. The results suggest that lyp/iddm1 does not determine the predisposition to autoimmunity in BB rats and that iddm4 is a major diabetogenic locus in both DP- and DR-BB animals. The iddm4 gene maps to a region containing several major autoimmunity loci, including aia2, aia3, and cia3. We propose that BB rat
diabetes
requires 1) class II RT1u (iddm2) for susceptibility, 2) additional loci for disease initiation and progression in response to perturbants, and 3) lyp for spontaneous disease.
Diabetes
1999 Nov
PMID:Diabetes-prone and diabetes-resistant BB rats share a common major diabetes susceptibility locus, iddm4: additional evidence for a "universal autoimmunity locus" on rat chromosome 4. 1053 46
Cyclophosphamide (CY), an alkylating cytostatic drug, is known for its ability to accelerate a number of experimental autoimmune diseases including spontaneous
diabetes
in NOD mice. The mechanism(s) by which CY renders autoreactive lymphocytes more pathogenic is largely unknown, but it has been postulated that the drug preferentially depletes regulatory (suppressor) T cells. It has been suggested that in cell-mediated autoimmune diseases, Th2-like lymphocytes secreting IL-4 and/or IL-10 provide protection, while Th1-like cells secreting IFN-gamma are pathogenic. In this study, we analysed the effects of CY on autoimmune
diabetes
and cytokines in two mouse models: the spontaneous
diabetes
of NOD mice and the
diabetes
induced in C57BL/KsJ mice by multiple injections of low dose streptozotocin (LD-STZ). In both models, CY induced severe
lymphopenia
and accelerated the progression to hyperglycemia. This was associated with changes in splenic cytokine patterns indicating a shift towards the IFN-gamma-secreting phenotype. We provide here evidence that IFN-gamma producers are relatively resistant to depletion by CY and that Th0 clones can be shifted towards Th1. However, direct exposure of T lymphocytes to CY may not be a necessary condition for exacerbation of
diabetes
; NOD.scid mice treated with CY before adoptive transfer of NOD splenocytes developed
diabetes
at a higher rate than did controls. Thus, the acceleration of
diabetes
by CY seems to be a complex event, which includes the relatively high resistance of IFN-gamma producers to the drug, their rapid reconstitution, and a Th1 shift of surviving T cell clones.
...
PMID:Acceleration of autoimmune diabetes by cyclophosphamide is associated with an enhanced IFN-gamma secretion pathway. 1058 54
Thymocytes and peripheral lymphocytes of BioBreeding (BB)
diabetes
-prone (BBDP) and
diabetes
-resistant (BBDR) rat were analysed by fluorescence-activated cell sorter (FACS). The number of CD4- CD8-, CD4+ CD8-, CD4- CD8+ and CD4+ CD8+ subsets was not different between BBDP and BBDR rat thymocytes, whereas spleen and lymph nodes in BBDP rats undergo severe T-cell
lymphopenia
. Notably, mature CD4- CD8+ [T-cell receptor (TCR)-alphabeta+ and CD5+] cells are certainly present in the BBDP rat thymus, unlike some previous reports, suggesting that the differentiation of CD4- CD8+ from CD4+ CD8+ cells occurs normally in the BBDP rat thymus. As a cause of peripheral T-cell
lymphopenia
we suspected apoptosis of recent thymic emigrants. By FACS analysis with fluorescein isothiocyanate-labelled annexin V, elevated apoptosis was evident in BBDP rat peripheral lymphocytes. Furthermore, terminal deoxynucleotidyl transferase-mediated dUTP-biotin nick end labelling (TUNEL) staining in BBDP rat splenic sections revealed that a number of TUNEL-positive cells were observed in the T-lymphocyte-rich area. From these results, we postulate that an abnormally elevated apoptosis of peripheral T lymphocytes, but not impaired thymocyte differentiation, is a cause of the peripheral T-cell
lymphopenia
in BBDP rats.
...
PMID:Elevated apoptosis of peripheral T lymphocytes in diabetic BB rats. 1059 93
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