Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UNIPROT:P14784 (IL-2 receptor)
 3,849 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Acute graft-versus-host disease (GVHD) and chronic GVHD remain the major barriers to successful haematopoietic cell transplantation. The induction of GVHD may be divided into three phases: recipient conditioning, donor T cell activation and effector cells mediating GVHD. This review examines GVHD prevention and treatment using this conceptual model as framework. The various pharmacological agents discussed impact on different phases of the GVHD cascade. For example, keratinocyte growth factor and IL-11 are cytokines that may be useful in disrupting Phase I of the GVHD cascade by blocking gastrointestinal tract damage and lowering serum levels of lipopolysaccharide and TNF-alpha. Cyclosporin, FK506 and sirolimus are some of the main agents that disrupt Phase II (donor T cell activation). Mycophenolate mofetil likely acts on this phase as well. Other novel drugs that affect Phase II are tolerance-induction agents such as cytotoxic T lymphocyte antigen (CTLA)-4 Ig and anti-CD40 ligand, and preliminary results using CTLA-4 Ig in GVHD prevention are encouraging. Two exciting agents that appear to affect only activated lymphocytes are ABX-CBL and visilizumab. Examples of agents that disrupt Phase III are the IL-2 receptor antagonist daclizumab and the anti-TNF-alpha monoclonal antibody infliximab. These anticytokine antibodies have shown promising results in early studies. The most effective approach to GVHD prevention will likely be a combination regimen where the three phases of the GVHD cascade are disrupted. Once GVHD has occurred, all three phases of the cascade are activated. Developments of combination therapy for treatment of both acute and chronic GVHD will likely yield better results than monotherapy. The numerous new treatment modalities presented should improve the outlook for acute and chronic GVHD.
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PMID:Novel therapeutics for the treatment of graft-versus-host disease. 1222 48

Tacrolimus inhibits lymphocyte responses by blocking calcium-dependent signalling pathways important in IL-2 generation. Daclizumab, a humanized monoclonal antibody, binds with high affinity to the Tac subunit of the IL-2 receptor complex. We reasoned therefore that the absence of IL-2R should permit lower doses of tacrolimus and thereby less toxicity. Twenty-eight patients were randomized and followed for 6 months: Group 1, high dose (HD) tacrolimus (trough 12-17 ng/mL; n = 13); Group 2, low dose (LD) tacrolimus (trough 5-10 ng/mL; n = 15). All patients received daclizumab induction (2 mg/kg) on days 0 and 14, mycophenolate mofetil (2 g/d except for one patient who received 1 g) and rapid prednisone taper. Serious infections were minimal in both groups. Hospitalizations, for various reasons, were HD (n = 12) and LD (n = 6). All patients and grafts survived for the 6-month study period. There was one rejection episode in a non-compliant patient at 101 d. LD tacrolimus appears equally effective as HD tacrolimus in preventing rejection episodes and may be associated with fewer adverse events.
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PMID:Daclizumab induction/tacrolimus sparing: a randomized prospective trial in renal transplantation. 1237 41

Graft rejections as well as tolerance are true representation of the specificity, sophistication and redundancy of an elegantly and meticulously designed immune system. Tolerance is in a way similar to the process of self-recognition where lymphoid clones, during development, baring self-reactive receptor are eliminated or rendered in active by "clonal deletion" leading to a state of accommodation and acceptance (anergic). On the other hand, both acute and chronic rejections are manifestation of the purpose of existence of the immune system, which is to defend the host against foreign invaders. Thus, in order to treat (control) graft rejection it is necessary to determine and understand the steps leading to recognition, stimulation, activation, and amplification of the immune system. The first step leading to the initiation of the immune system cascade is recognition. Which can either be direct where donor antigens of the major histocompatibility complex (MHC) expressed on the donor cells (passenger leukocytes) or tissues are recognised by the host immune system. The direct recognition pathway initiates acute graft rejection. Alternatively processed donor MHC peptides presented by the recipient antigen presenting cells (APC) initiate the indirect pathway of immune response, which is as important as the direct recognition especially in chronic rejection. Recognition is followed by the ligation of a series of adhesion molecules starting with an antigen to its specific T-cell receptor (TCR)/cluster of differentiation (CD) complex, expressed on the surface of the T cell. In order for the activation to precede additional costimulatory signals, such as ligation of the CD28/B7, CD4/HLA class II and CD/HLA class I antigens are required. The activation process is accompanied by an increase of cytokines production such as interleukin (IL)-2, IL-12, interferon (INF) and tumour necrosis factor (TNF) by the primed T cell. The complexity and the polymorphic nature of the immune system have necessitated designing agents that inhibit the immune system at different levels. Cyclosporine and Tacrolimus, collectively known as calcineurin inhibitors, seems to act on the IL-2 by inhibiting its production thus leading to a decrease in the proliferation of the activated lymphocyte. Rapamycin, which is similar to Tacrolimus, inhibits graft rejection by blocking IL-2 activation and phosphorylation of 70 S6 kinase thus inhibiting the progression of T-cell from G to S phase. While Cellcept (MMF) reduce the proliferation of T cell by inhibiting purine synthesis and by its action on ionosine monophosphate dehydrogenase. Anti-lymphocyte antibodies (ATG) deplete circulating lymphocytes while selective monoclonal antibodies are directed against IL-2 receptor thus reducing the rate of proliferation of activated T cells. Recently, antibodies to the CD40/CD40 ligand have been shown to induce long-term graft survival with the inhibition of the Th1 cytokines (INF), IL-2 and IL-12 and upregulating the Th2 cytokines IL-4 and IL-10. Lastly graft rejection can be reduced by blockade of the B7/CD28 costimulation pathway with the fusion protein CTLA-4Ig. With the availability of such potent and diverse agents it is now possible to develop multi drug regiments that can depress the immune system at the different steps of the activation cascade, with minimal side effects, thus improving graft and patient survival rates.
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PMID:The mosaic of immunosuppressive drugs. 1283 79

HIV infection of primary human T cells requires T cell activation signals. However, how strength, duration, and quality of TCR signals affect susceptibility of resting human T cells to HIV infection remains poorly understood. We found that the same threshold and duration of antigen signals that lead to optimal T cell activation are required for HIV to progress beyond the level of reverse transcription within resting T cells. Remarkably, sustained cytokine signaling from the IL-2 receptor following TCR triggering was critical in establishing productive infection. While blockade of TCR signaling pathways with inhibitors of the phosphatidylinositol 3-kinase pathway caused a partial pre-integration block, another inhibitor, rapamycin, completely suppressed the infection. In contrast, cyclosporin A or FK506, inhibitors of NFAT, failed to block infection if the T cells were pre-activated. Collectively, these results bring to light significant parallels between successful HIV infection and optimal thresholds of T cell activation. Furthermore, our results underscore the critical role of IL-2 signaling in establishing productive HIV infection. These findings have important implications for our understanding of the complex interplay of HIV with host factors induced upon T cell activation.
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PMID:HIV infection of primary human T cells is determined by tunable thresholds of T cell activation. 1516 41

Uveitis, or intraocular inflammation, remains an ongoing challenge to ophthalmologists and patients alike. In most patients, uveitis is limited to the anterior ocular structures and is readily managed with topical steroids. The inflammatory process can extend behind the lens to involve the pars plana, the vitreous cavity, the choroid and the retina. These intermediate and posterior uveitides are relatively rare but contribute disproportionately to visual morbidity and present serious diagnostic and therapeutic difficulties. Systemic steroids constitute the first line of treatment for most sight-threatening uveitides. Their long term use is limited by universal and debilitating adverse effects. Second-line, steroid-sparing agents allow a reduction in steroid dosage. Cyclosporin and azathioprine are the main steroid-sparing agents currently in use. However, these compounds are limited by a narrow therapeutic window and significant adverse effects. This paper offers a brief discussion of some of the immune mechanisms involved in the pathogenesis of uveitis and reviews categories of investigational compounds. Inhibitors of T cell function: tacrolimus (previously FK506), licensed for use in liver transplantation, and sirolimus (rapamycin) are macrolide antibiotics. Sirolimus is a functional cytokine antagonist and in vitro studies suggest it could be up to 100 times more potent than cyclosporin. Drug synergy between sirolimus and cyclosporin has been demonstrated, resulting in immunosuppression at lower drug doses and with fewer adverse effects. Nucleotide synthesis inhibitors: mycophenolate mofetil (MMF) and leflunomide. Human lymphocytes are only able to synthesise nucleic acids de novo. Having no alternative or 'salvage' pathway, they are exquisitely sensitive to interference with the de novo nucleotide synthesis enzymatic pathway. MMF is a purine synthesis inhibitor. Compared to other purine inhibitors, early data suggest that MMF is more efficacious and less toxic than azathioprine. Leflunomide is an inhibitor of pyrimidine synthesis. Monoclonal surface receptor antibodies and immunoadhesins: the IL-2 receptor is essential for clonal expansion of activated T cells; this has led to the development of anti-IL-2 receptor antibodies. Daclizumab is a genetically engineered humanised IgG1 monoclonal antibody. In conjunction with cyclosporin, it significantly reduces renal allograft rejection rates and is also showing promise in the treatment of T cell mediated autoimmune disorders. The mechanism of action of monoclonal antibodies to other pro-inflammatory cytokines such as TNFalpha and IL-12 and data from animal and human uveitis trials are also discussed. Finally, new avenues of research in immunopharmaco-modulation are mentioned.
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PMID:The potential of newer immunomodulating drugs in the treatment of uveitis: a review. 1803 46

The nuclear factor of activated T cells (NFAT) family of transcription factors, which includes NFAT1, NFAT2, and NFAT4, are well-known to play important roles in T cell activation. Most of NFAT proteins are controlled by calcium influx upon T cell receptor and costimulatory signaling results increase of IL-2 and IL-2 receptor. NFAT3 however is not shown to be expressed in T cells and NFAT5 has not much highlighted in T cell functions yet. Recent studies demonstrate that the NFAT family proteins involve in function of lineage-specific transcription factors during differentiation of T helper 1 (Th1), Th2, Th17, regulatory T (Treg), and follicular helper T cells (Tfh). They have been studied to make physical interaction with the other transcription factors like GATA3 or Foxp3 and they also regulate Th cell signature gene expressions by direct binding on promotor region of target genes. From last decades, NFAT functions in T cells have been targeted to develop immune modulatory drugs for controlling T cell immunity in autoimmune diseases like cyclosporine A, FK506, etc. Due to their undesirable side defects, only limited application is available in human diseases. This review focuses on the recent advances in development of NFAT targeting drug as well as our understanding of each NFAT family protein in T cell biology. We also discuss updated detail molecular mechanism of NFAT functions in T cells, which would lead us to suggest an idea for developing specific NFAT inhibitors as a therapeutic drug for autoimmune diseases.
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PMID:Revisiting the Concept of Targeting NFAT to Control T Cell Immunity and Autoimmune Diseases. 3053 3


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