Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UMLS:C0024312 (lymphopenia)
 4,859 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The discovery that Jak3 mutations are a significant cause of severe combined immunodeficiency (SCID), a rare inherited defect characterized by lymphopenia, has provided valuable insights into the functions of Jak3 in lymphoid development and function. The current therapy for patients suffering from Jak3 SCID is hematopoetic stem cell transplantation, although gene therapy trials have also been performed. In lieu of crystal structure data, these patient-derived mutations have aided in the elucidation of the functions of various structural components of Jak3. By virtue of its requirement for lymphoid functions, Jak3 makes a tantalizing target for immunosuppression and anti-cancer therapy. Herein, we discuss the normal actions of the gammac cytokines, the pathogenesis and treatment protocols for SCID, and finally, the production of a new, selective Jak3 inhibitor capable of preventing transplant rejection in two animal models. Further study of Jak3 will hopefully provide insights into the clinical treatment of patients suffering from immune-mediated diseases.
Mol Immunol 2004 Jul
PMID:Jak3 and the pathogenesis of severe combined immunodeficiency. 1522 7

Severe acute respiratory syndrome (SARS) is a new human infectious disease. The causative agent of SARS is a novel coronavirus (SARS-CoV). This report summarizes the hematological findings in SARS patients and proposes the possible mechanisms of SARS-CoV related abnormal hematopoiesis. Hematological changes in patients with SARS are common and include lymphopenia, thrombocytopenia and occasionally leukopenia. A significant decrease was also observed in peripheral CD4+ and CD8+ T lymphocyte subsets and it was related to onset of SARS. A number of potential mechanisms may be involved. The development of auto-immune antibodies or immune complexes triggered by viral infection may play a major role in inducing lymphopenia and thrombocytopenia. Moreover, SARS-CoV may also directly infect hematopoietic stem/progenitor cells via CD13 or CD66a inducing their growth inhibition and apoptosis. The receptor for group I and III CoV is aminopeptidase N (CD13). CD13 has been identified in human bone marrow CD34+ cells, platelets, megakaryocytes, myeloid cells, and erythroid cells, but not in lymphocytes. The common receptor for group II CoV is CEACAM1a (CD66a). CD66a is an adhesion molecule expressed on bone marrow CD34+ cells, platelets, granulocytes and activated lymphocytes. In addition, glucocorticoids could induce lymphopenia and the use of steroids may account for the decrease of lymphocytes in some SARS patients. The increased consumption of platelets and/or the decreased production of platelets in the damaged lungs are a potential alternative but often overlooked mechanism that can contribute to thrombocytopenia in severe critical pulmonary conditions.
Int J Mol Med 2004 Aug
PMID:Hematological findings in SARS patients and possible mechanisms (review). 1525 84

Outcomes for infants with severe combined immunodeficiency (SCID) would be improved by universal newborn screening, but there are not yet screening tests of sufficient accuracy for the disorder. In a pilot study, we assessed the ability of a two-tiered strategy to improve accuracy. Dried blood samples from patients were assessed with two tests for lymphopenia: interleukin-7, a T-cell growth cytokine, and TRECs, a byproduct of T-cell receptor recombination. IL-7 screening has a specificity of 96.1% and TRECs have a specificity of 92.3%. Combining these tests in a two-tiered strategy increases specificity to 100% (97-100% CI). Sensitivity was 85% for IL-7 screening and 100% for TREC screening. A two-tiered strategy may be of sufficient accuracy to enable universal SCID screening, and should be assessed in a prospective trial.
Mol Genet Metab 2005 Dec
PMID:Two-tiered universal newborn screening strategy for severe combined immunodeficiency. 1626 Jan 63

L-alanosine (SDX-102) exerts its cytotoxicity through inhibition of de novo purine biosynthesis, an effect potentiated by methylthioadenosine phosphorylase (MTAP) deficiency. The relevance of circadian dosing time was investigated for chronotherapeutic optimization of SDX-102. Toxicity was assessed in healthy mice following single (1,150, 1,650, or 1,850 mg/kg/d) or multiple doses (250 or 270 mg/kg/d). Efficacy was tested in mice with P388 leukemia receiving multiple doses (225 or 250 mg/kg/d). SDX-102 was administered at six circadian times 4 hours apart in mice synchronized with 12 hours of light alternating with 12 hours of darkness. MTAP expression was determined in liver, bone marrow, small intestinal mucosa, and P388 cells. Dosing at 19 hours after light onset reduced lethality 5-fold after single administration and 3-fold after multiple doses as compared with worst time [P < 0.001 and P < 0.01, respectively (chi2 test)]. Neutropenia, lymphopenia, and bone marrow hemorrhagic lesions were significantly less in mice dosed at 19 hours after light onset as compared with 7 hours after light onset. SDX-102 at 7 hours after light onset transiently ablated the 24-hour patterns in body temperature and activity. A circadian rhythm characterized small intestinal MTAP expression with a maximum at 6:30 hours after light onset (P = 0.04). A minor survival improvement was found in MTAP-deficient P388 mice receiving SDX-102 at 7 or 23 hours after light onset as compared with other times (P = 0.03, log-rank test). In conclusion, the therapeutic index of SDX-102 was improved by the delivery of SDX-102 in the mid to late activity span. These results support the concept of chronomodulated infusion of SDX-102 in cancer patients.
Mol Cancer Ther 2006 Feb
PMID:Circadian pharmacology of L-alanosine (SDX-102) in mice. 1650 7

The diabetes-prone biobreeding (BB-DP) rat contains the lyp mutation which results in lymphopenia and promotes the progression of a T cell-mediated autoimmune attack of the pancreas in certain rat strains. This mutation has been mapped to a gene which bears homology to human Gimap5/Ian5 and results in the truncation and loss of activity of this protein. The lymphopenic state induced by the loss of this protein has led to the proposal that Gimap5 has an anti-apoptotic function. Previously we described an additional phenotype of incomplete activation mediated by the loss of Gimap5 function. Here we further characterize this incomplete activation phenotype and map a potential signal transduction pathway leading to activation. We show that CD5 expression on peripheral T cells is elevated in Gimap5 animals, while thymocyte expression remains similar between the two strains. Additionally, we show that NF-kappaB but not NFAT is activated in unstimulated Gimap5 mutant T cells as compared to unstimulated wild type T cells. Mapping this activation to its upstream source we show that activation of NF-kappaB is correlated with an activation of IKK. Using a variety of kinase inhibitors we further map this increase in IKK to an increase in MEK activation. Finally, to counter the possibility that activation is an indirect consequence of the lymphopenic environment, we created bone marrow chimeras in which Gimap5 mutant T cells developed in a normal environment and show that these cells retain their activated phenotype. Together, we interpret these data as demonstrating that the activation caused by loss of Gimap5 is a cell intrinsic phenomenon caused, in part, by a MEK-dependent activation of IKK. This, in turn, would suggest that Gimap5 functions to promote both T cell survival and quiescence and that these pathways are biochemically linked.
Mol Immunol 2007 Jan
PMID:Loss of a gimap/ian gene leads to activation of NF-kappaB through a MAPK-dependent pathway. 1658 74

Tolerance induction induced by monoclonal antibodies or co-receptor blockade is robust enough to resist breakdown by adoptive transfer of lymphocytes. Such resistance, the hallmark of dominant tolerance, is mediated by CD4+ regulatory T cells. CD4+CD25+ T cells inhibit lymphopenia-mediated accumulation of T cells in vivo, but caution should be exerted when investigating antigen-specific regulation in replete mice. A number of different deletional and tolerogenic processes following antibody-induced tolerance are discussed in this chapter, including activation-induced cell death, immunosuppressive cytokines, and immunoprivileged sites. The possibility of spreading tolerance to other cells, including parenchymal cells, is also discussed. This chapter emphasizes recent evidence that shows that self-tolerance does not rely on several mechanisms running independently, but rather a continuum of synergistic and overlapping mechanisms.
Methods Mol Biol 2006
PMID:Reprogramming the immune system using antibodies. 1679 Aug 55

Ets1 is a member of the Ets transcription factor family. Alternative splicing of exon VII results in two naturally occurring protein isoforms: full-length Ets1 (p51-Ets1) and Ets1(DeltaVII) (p42-Ets1). These isoforms bear key distinctions regarding protein-protein interactions, DNA binding kinetics, and transcriptional target specificity. Disruption of both Ets1 isoforms in mice results in the loss of detectable NK and NKT cell activity and defects in B and T lymphocytes. We generated mice that express only the Ets1(DeltaVII) isoform. Ets1(DeltaVII) homozygous mice express no p51-Ets1 and elevated levels of the p42-Ets1 protein relative to the wild type and display increased perinatal lethality, thymomegaly, and peripheral lymphopenia. Proliferation was increased in both the thymus and the spleen, while apoptosis was decreased in the thymus and increased in the spleen of homozygotes. Significant elevations of CD8(+) and CD8(+)CD4(+) thymocytes were observed. Lymphoid cell (CD19(+), CD4(+), and CD8(+)) reductions were predominantly responsible for diminished spleen cellularity, with fewer memory cells and a failure of homeostatic proliferation to maintain peripheral lymphocytes. Collectively, the Ets1(DeltaVII) mutants demonstrate lymphocyte maturation defects associated with misregulation of p16(Ink4a), p27(Kip1), and CD44. Thus, a balance in the differential regulation of Ets1 isoforms represents a potential mechanism in the control of lymphoid maturation and homeostasis.
Mol Cell Biol 2007 May
PMID:Thymomegaly, microsplenia, and defective homeostatic proliferation of peripheral lymphocytes in p51-Ets1 isoform-specific null mice. 1733 35

FTY720 (Fingolimod) is a novel type of immunosuppressive agent inhibiting lymphocyte egress from secondary lymphoid tissues thereby causing peripheral lymphopenia. FTY720 can inhibit macrophage infiltration into inflammatory lesions under pathological conditions. FTY720 has been clinically evaluated for prophylaxis of allograft rejection and treatment of multiple sclerosis, showing promising immunosuppressive effects. A robust inflammatory response after traumatic brain injury (TBI) plays an important role in the secondary or delayed injuries of TBI. Here we have investigated by immunohistochemistry in a rat TBI model the effects of FTY720 on early cell accumulation into the inflammatory tissue response and on expression of major histo-compatibility complex class II (MHC-II) and endothelial-monocyte activating polypeptide II (EMAP-II). Accumulation of MHC-II(+) or EMAP-II(+) cells became significant 1 day after injury and continuously increased during the early time periods. Further, double-staining experiments confirmed that the major cellular sources of MHC-II were reactive macrophages, however MHC-II(+) cells only constituted a small subpopulation of reactive macrophages. Immediately after TBI, peripheral administration of FTY720 (1 mg/kg in 1 mL saline, every second day) significantly attenuated the accumulation of MHC-II(+) macrophages from Day 1 to 4 and significantly attenuated the accumulation of EMAP-II(+) macrophages/microglia at Day 4. Our findings show that FTY720 attenuates early accumulation of EMAP-II(+) and MHC-II(+) reactive monocytes following TBI, indicating that FTY720 might be a drug candidate to inhibit brain inflammatory reaction following TBI.
J Cell Mol Med
PMID:FTY720 attenuates accumulation of EMAP-II+ and MHC-II+ monocytes in early lesions of rat traumatic brain injury. 1748 79

The thymus contributes to the regulation of tolerance and the prevention of autoimmunity at many levels. First, auto-reactive CD4+ and CD8+ T cells are clonally deleted during negative selection in the thymus, establishing central tolerance. The unique expression of the AIRE (autoimmune regulator) gene in medullary thymic epithelial cells results in expression of a broad array of tissue-specific antigens. Thymocytes bearing T-cell receptors that bind to these tissue-specific antigens are clonally deleted. This process removes self-reactive T cells from the repertoire before T cells are exported to the periphery. Second, CD4+CD25 bright regulatory T cells (Treg) develop in parallel with CD4+ and CD8+ effector T cells in the thymus. Unlike T effector cells, Treg fail to be deleted by exposure to tissue antigens during thymic maturation. After export to the periphery, Treg cells play a critical role in the prevention of autoimmunity, suppression of inflammatory responses, and the modulation of T-cell homeostasis. Finally, productive thymopoiesis, in and of itself, may be a factor deterring autoimmunity, The thymus continuously generates stable, resting populations of naive T cells that maintain the numbers and the diversity of the T-cell repertoire. Under conditions of lymphopenia prolonged by inadequate thymopoiesis, compensatory peripheral expansion of T cells occurs to maintain stable T-cell levels. Under circumstances in which the repertoire is limited, Homeostatic proliferation may increase the opportunity for T-cells reactive with self antigens to expand, leading to autoimmune disorders. In all of these respects, the thymus maintains immunologic tolerance to self. Given the importance of the thymus in control of autoimmunity, the gradual age-dependent decline in thymic cytoarchitecture and thymopoietic productivity may, therefore, contribute to the development of auto-reactivity and loss of self-tolerance.
Methods Mol Biol 2007
PMID:Thymic involution: implications for self-tolerance. 1787 7

The mechanism by which locally delivered sphingosine analogs regulate host response to localized viral infection has never been addressed. In this report, we show that intratracheal delivery of the chiral sphingosine analog (R)-2-amino-4-(4-heptyloxyphenyl)-2-methylbutanol (AAL-R) or its phosphate ester inhibits the T-cell response to influenza virus infection. In contrast, neither intraperitoneal delivery of AAL-R nor intratracheal instillation of the non-phosphorylatable stereoisomer AAL-S suppressed virus-specific T-cell response, indicating that in vivo phosphorylation of AAL-R and sphingosine 1-phosphate (S1P) receptor modulation in lungs is essential for immunomodulation. Intratracheal delivery of water-soluble S1P(1) receptor agonist at doses sufficient to induce systemic lymphopenia did not inhibit virus-specific T-cell response, indicating that S1P(1) is not involved in the immunosuppressive activities of AAL-R and that immunosuppression acts independently of naive lymphocyte recirculation. Accumulation of dendritic cells (DCs) in draining lymph nodes was inhibited by intratracheal but not intraperitoneal delivery of AAL-R. Direct modulation of DCs is demonstrated by the impaired ability of virus-infected bone marrow-derived DCs treated in vitro with AAL-R to trigger in vivo T-cell response after adoptive transfer to the airways. Thus, our results suggest that locally delivered sphingosine analogs induce immunosuppression by modulating S1P receptors other than S1P(1) or S1P(2) on dendritic cells in the lungs after influenza virus infection.
Mol Pharmacol 2008 Sep
PMID:Local not systemic modulation of dendritic cell S1P receptors in lung blunts virus-specific immune responses to influenza. 1857 84


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