Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts:   Target Concepts:
Query: EC:2.7.10.2 (focal adhesion kinase)
 44,029 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The purpose of the present study was to evaluate the effectiveness of targeting Bruton's tyrosine kinase (BTK) with a specific BTK inhibitor, alpha-cyano-beta-hydroxy-beta-methyl-N-(2,5-dibromophenyl)-propenamide (LFM-A13), for prevention of acute fatal graft-versus-host disease (GVHD) in a murine model of allogeneic bone marrow transplantation (BMT). Vehicle-treated control C57BL/6 mice receiving bone marrow/splenocyte grafts from allogeneic BALB/c donors developed severe multi-organ acute GVHD and died after a median survival time (MST) of 40 d. LFM-A13 treatment (25 mg/kg/d) significantly prolonged the MST of the BMT recipients to 47 d. The probability of survival at 2 months after BMT was 2 +/- 2% for vehicle-treated control mice and 22 +/- 6% for mice treated with LFM-A13 (P = 0.0008). Notably, the combination regimen of LFM-A13 plus the standard anti-GVHD drug methotrexate (MTX) (10 mg/m(2)/d) was more effective than LFM-A13 alone, while the combination regimen of LFM-A13 plus the novel anti-GVHD drug JANEX-1 (60 mg/kg/d), targeting Janus kinase 3, was more effective than LFM-A13, JANEX-1 or MTX alone. More than 70% of recipients receiving this most effective GVHD prophylaxis (LFM-A13 + JANEX-1) remained alive throughout the 80-d observation period with an MST of >80 d. Taken together, these results indicate that targeting BTK with the chemical inhibitor LFM-A13 may attenuate the severity of GVHD, especially when it is combined with other anti-GVHD drugs, such as MTX and JANEX-1.
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PMID:Dual targeting of Bruton's tyrosine kinase and Janus kinase 3 with rationally designed inhibitors prevents graft-versus-host disease (GVHD) in a murine allogeneic bone marrow transplantation model. 1535 86

Current immunosuppressive therapy in clinical organ transplantation is based on drugs that suppress various functions of immunocompetent cells but still affect cells and organ compartments other than the immune system. Hence, these drugs have considerable side effects which lead to increased morbidity and reduced life-quality of transplant recipients. A major step forward in the rationale design of clinical immunosuppression resides in the elucidation of molecular targets that play a critical role specifically within the immune system. Recently, Janus kinase 3 (JAK3) has been identified as such a molecule. Genetic absence or ablation of this tyrosine kinase is associated with defective T-cell immunity that results in severe combined immunodeficiency (SCID) without apparent changes in other organ systems. Furthermore, pharmacological inhibition has significantly prolonged allograft survival in several experimental models of organ transplantation. The present review provides an overview of the emerging role of JAK3 in the immune system and the development of JAK3-inhibiting drugs. The potential clinical application of JAK3 inhibitors in organ transplantations is discussed in the light of a recent series of successful kidney transplantations in non-human primates immunosuppressed solely with a novel JAK3 inhibitor.
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PMID:Janus kinase-3 (JAK3) inhibition: a novel immunosuppressive option for allogeneic transplantation. 1536 94

Janus kinase 3 (JAK3) is a cytoplasmic tyrosine kinase associated with the common gamma chain, an integral component of cytokine receptors of the interleukin (IL)-2 family, including IL-4, -7, -9, -15, and -21. CP-690550 is a JAK3 inhibitor with immunosuppressive properties under development for transplantation. We evaluated alterations in circulating lymphocyte subsets in cynomolgus monkey blood following chronic (3-week), oral CP-690550 administration. Natural killer (NK) and CD8+ T cell numbers were reduced in a dose- and time-dependent manner; the latter was a primary effect on memory subsets. CD4+ T and B cell numbers were unaffected or slightly increased, respectively. NK cell numbers were reduced approximately 80% (vs. 35% in vehicle-treated animals) and returned to baseline levels within 3 weeks following treatment cessation. CD8+ T cells declined by a maximum 43% (vs. 25% for vehicle-treated animals) but rebounded significantly (300%) within 2 weeks after the last dose. Although CP-690550 did not result in reduction of CD4+ T cell number, these cells also increased (225%) within 2 weeks of treatment cessation. IL-15 is important for maintaining homeostasis of these cell types, and CP-690550 inhibited IL-15-induced CD69 expression in NK cells [inhibitory concentration 50% (IC50)=48.0+/-8.4 nM] and CD8+ T cells (IC50=16.2+/-1.5 nM).
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PMID:The JAK3 inhibitor CP-690550 selectively reduces NK and CD8+ cell numbers in cynomolgus monkey blood following chronic oral dosing. 1537 89

Using a cDNA microarray, we found that suppressor of cytokine signaling 3 (SOCS3) is highly expressed in anaplastic lymphoma kinase (ALK)+ anaplastic large cell lymphoma (ALCL) cell lines. As SOCS3 is induced by activated signal transducer and activator of transcription 3 (STAT3), and ALK activates STAT3, we hypothesized that SOCS3 may play a role in ALK+ ALCL pathogenesis via the Janus kinase 3 (JAK3)-STAT3 pathway. Using ALCL cell lines, we show by coimmunoprecipitation experiments that SOCS3 physically binds with JAK3 in vitro, and that JAK3 inhibition by WHI-P154 downregulates SOCS3 expression. Western blot analysis confirmed expression of SOCS3 and also showed coexpression of phosphorylated (activated) STAT3 (pSTAT3). Direct sequencing of the SOCS3 gene showed no mutations or alternative splicing. In ALCL tumors that were assessed by immunohistochemistry, nine of 12 (75%) ALK+ tumors were SOCS3 positive and eight (67%) coexpressed pSTAT3. In comparison, 18 of 25 (72%) ALK-- tumors were SOCS3 positive and seven (28%) coexpressed pSTAT3. These results show that SOCS3 is overexpressed in ALCL, attributable to JAK3-STAT3 activation and likely related to ALK in ALK+ tumors. However, SOCS3 is also expressed in tumors that lack STAT3 and ALK suggesting alternative mechanisms of upregulation.
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PMID:Suppressor of cytokine signaling 3 expression in anaplastic large cell lymphoma. 1538 32

Vitamin A and the T helper 2 cytokines IL-4 and IL-13 play important roles in the induction of mucin gene expression and mucus hypersecretion. However, the effects of these agents on enzymes responsible for mucin glycosylation have received little attention. Here, we report the upregulation of core 2 beta1,6 N-acetylglucosaminyltransferase (C2GnT) activity both by all-trans retinoic acid (RA) and by IL-4 and IL-13 in the H292 airway epithelial cell line. Northern blotting analysis showed that the M isoform of C2GnT, which is expressed in mucus-secreting tissues and can form all mucin glycan beta1,6-branched structures, including core 2, core 4, and blood group I antigen, was upregulated by both RA and IL-4/13. The L isoform, which forms only the core 2 structure, was moderately upregulated by IL-4/13 but not by RA. Enhancement of the M isoform of C2GnT by RA was abolished by an inhibitor of RA receptor alpha, implicating RA receptor alpha in the effect of RA. Likewise, an inhibitor of the Janus kinase 3 pathway blocked the enhancing effects of IL-4/13 on the L and M isoforms of C2GnT, suggesting a role of this pathway in the upregulation of these two C2GnTs by these cytokines. Taken together, the results suggest that IL-4/13 T helper 2 cytokines and RA can alter the activity of enzymes that synthesize branching mucin carbohydrate structure in airway epithelial cells, potentially leading to altered mucin carbohydrate structure and properties.
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PMID:Mucin biosynthesis: upregulation of core 2 beta 1,6 N-acetylglucosaminyltransferase by retinoic acid and Th2 cytokines in a human airway epithelial cell line. 1559 Oct 39

The recent elucidation of the multiple molecular mechanisms underlying severe combined immunodeficiency (SCID) is an impressive example of the power of molecular medicine. Analysis of patients and the concomitant generation of animal models mimicking these disorders have quickly provided great insights into the pathophysiology of these potentially devastating illnesses. In this review, we summarize the discoveries that led to the understanding of the role of cytokine receptors and a specific tyrosine kinase, Janus kinase 3 (Jak3), in the pathogenesis of SCID. We discuss how the identification of mutations of Jak3 in autosomal recessive SCID has facilitated the diagnosis of these disorders, offered new insights into the biology of this kinase, permitted new avenues for therapy, and provided the rationale for a generation of a new class of immunosuppressants.
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PMID:Jak3, severe combined immunodeficiency, and a new class of immunosuppressive drugs. 1566 Oct 26

Studying the molecular and genetic bases of primary immunodeficiency is valuable at several levels. First, such information directly benefits patients in both short- and long-term management. Sophisticated diagnostic tools based on these studies can be used early and lead to appropriate treatment before potentially fatal infections and complications arise. Genotyping is also critical for future development and implementation of gene therapy. Secondly, investigating primary immunodeficiency helps understand the normal immune system in humans. As described in this report, the roles of zeta-associated protein of 70 kDa (Zap-70), CD25, and CD3delta are substantially different in humans when compared with the roles of homologous molecules in other species. Last, information obtained from these studies can be applied to other fields of investigation. Prominent examples for such applications include the intensive effort to design and produce specific inhibitors of Zap-70 and Janus kinase 3 as specific immunosuppressive agents. Most types of primary immunodeficiency in general and severe combined immunodeficiency in particular are rare and therefore cannot be easily studied by using traditional genetic methodology. Instead, biochemical methods were used to explore for candidate genes as was the case in the discovery of Zap-70 deficiency. Critical to the success of these discoveries was the careful analysis of patients' thymus glands. Detection of abnormalities in the thymus in these patients, which preceded identification of the genetic defect, aided in the assessment of the severity and nature of the immune disorder (primary versus secondary). Such assessment is critical before high-risk bone marrow transplantation. Equally important was the contribution of studies of the thymus to the description of novel phenotype of immunodeficiency as clearly demonstrated in defining CD8 lymphocytopenia, Zap-70 deficiency, and CD25 deficiency. Indeed, analysis of the thymus directly pointed to CD25 as candidate gene. Recently, the study of thymocyte-derived transcripts using DNA microarrays was key to discovering CD3delta deficiency. Finally, immunohistochemical analysis of the thymus was critical in pinpointing the roles of Zap-70, CD25, and CD3delta in the development of human T cells.
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PMID:Studies of patients' thymi aid in the discovery and characterization of immunodeficiency in humans. 1566 Oct 27

We analyzed the effects of the Janus kinase 3 (Jak3)-specific inhibitor WHI-P131 (4-(4'-hydroxyphenyl)-amino-6,7-dimethoxyquinazoline) and the Jak3/Syk inhibitor WHI-P154 (4-(3'-bromo-4'-hydroxyphenyl)-amino-6,7-dimethoxyquinazoline) on the antigen-induced activation of mast cells. In the rat mast cell line RBL-2H3, both WHI-P131 and WHI-P154 inhibited the antigen-induced degranulation and phosphorylation of p44/42 mitogen-activated protein kinase (MAPK), p38 MAPK and c-Jun N-terminal kinase (JNK). The phosphorylation of Gab2, Akt and Vav was also inhibited by WHI-P131 and WHI-P154, indicating that these inhibitors suppress the activation of phosphatidylinositol 3-kinase (PI3K). In bone marrow-derived mast cells (BMMCs) from Jak3-deficient (Jak3-/-) mice, degranulation and activation of MAPKs were induced by the antigen in almost the same extent as in BMMCs from wild-type mice. In addition, the antigen-induced degranulation and activation of MAPKs were inhibited by WHI-P131 and WHI-P154 in both groups of BMMCs, indicating that these compounds inhibit a certain step except for Jak3. The antigen-induced increase in the activity of Fyn, a probable tyrosine kinase of Gab2, was also inhibited by WHI-P131 and WHI-P154 in RBL-2H3 cells. In BMMCs from Jak3-/- mice, the antigen stimulation induced tyrosine phosphorylation of Fyn, which was inhibited by WHI-P131, as well as in BMMCs from wild-type mice and in RBL-2H3 cells. These findings suggest that Jak3 does not play a significant role in the antigen-induced degranulation and phosphorylation of MAPKs, and that WHI-P131 and WHI-P154 inhibit the PI3K pathway by preventing the antigen-induced activation of Fyn, thus inhibiting the antigen-induced degranulation and phosphorylation of MAPKs in mast cells.
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PMID:Inhibition of the antigen-induced activation of rodent mast cells by putative Janus kinase 3 inhibitors WHI-P131 and WHI-P154 in a Janus kinase 3-independent manner. 1585 29

Cytokines are critical in regulating the development and function of diverse cells. Janus kinase 3 (Jak3) is a tyrosine kinase expressed in hematopoietic cells that associates with the common gamma chain (gammac) and is required for signaling for a family of cytokines including interleukin-2 (IL-2), IL-4, IL-7, IL-9, IL-15, and IL-21; deficiency of either Jak3 or gammac results in severe combined immunodeficiency (SCID). While Jak3 is essential for lymphoid-cell development, the potential roles for Jak3 in regulating dendritic cells (DCs) were unclear. Herein, we show that although CD8+CD11c+ splenic DCs are absent in Jak3-/- mice, bone marrow-derived DCs developed normally in vitro from Jak3-/- precursor cells. In fact, the survival of Jak3-/- DCs was enhanced, and they expressed lower levels of proapoptotic proteins. Jak3-/- DCs exhibited normal antigen uptake and up-regulation of costimulatory molecules. However, Jak3-/- DCs produced more IL-12 and IL-10 in response to Toll-like receptor ligands, which correlated with enhanced T helper 1 (Th1) differentiation in vivo. In summary, Jak3 is not essential for DC development but unexpectedly appears to be an important negative regulator. These results may be relevant clinically for patients with SCID who have undergone hematopoietic stem cell transplantation and for patients who might be treated with a Jak3 inhibitor.
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PMID:Jak3 negatively regulates dendritic-cell cytokine production and survival. 1602 May 5

Janus kinase 3 (Jak3) is a tyrosine kinase that activates signal transducer and activator of transcription 3 (Stat3) in response to cytokine stimulation. Stat3 is an oncogene. In previous studies of anaplastic large cell lymphoma (ALCL), we showed that inhibition of Jak3 down-regulates activated/phosphorylated Stat3 (pStat3), decreases anaplastic lymphoma kinase (ALK) enzymatic activity, and induces cell-cycle arrest and apoptosis in ALK-positive ALCL. These findings implicate Jak3 as playing a significant role in the pathogenesis of ALK-positive ALCL; most likely via Stat3 and ALK activation. To assess this possibility, we used immunohistochemical staining to evaluate the frequency of expression of Jak3 and its activated/phosphorylated form (pJak3) in 48 systemic ALCL tumors included in a tissue microarray. pJak3 was detected in 17 (81%) of 21 ALK-positive tumors, compared with 3 (11%) of 27 ALK-negative tumors (P < .0001, Fisher exact test). pStat3 was present in 12 (86%) of 14 ALK-positive tumors and in 10 (40%) of 25 ALK-negative tumors assessed (P = .0078). Of 12 ALK-positive/pStat3-positive tumors, 8 (67%) expressed pJak3, but none of 10 ALK-negative/pStat3-positive tumors expressed pJak3. We conclude that Jak3 activation is predominantly restricted to ALK-positive ALCL tumors. Most likely, Jak3 collaborates with ALK in activating Stat3, leading to cell survival, cell-cycle progression, and tumor growth. In contrast, the mechanism of Stat3 activation in ALK-negative ALCL tumors appears to be independent of Jak3.
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PMID:Jak3 activation is significantly associated with ALK expression in anaplastic large cell lymphoma. 1615 55


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