EC:2.7.10.2 - FACTA Search

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

Telomerase activity, telomere length, stem/progenitor cell production, and function of CD34+ cells from cord blood (CB), bone marrow, and mobilized peripheral blood were evaluated in long-term cultures. CB cells were cultured either on OP-9 stromal cells transduced with an adenovector expressing thrombopoietin (TPO) or stimulated by a cytokine cocktail in the absence of stroma, with, in one method, CD34+ cells reisolated at monthly intervals for passage. Continuous expansion of stem cells as measured by in vitro cobblestone area and secondary colony-forming assays was noted for 18 to 20 weeks and by severe combined immunodeficiency (SCID)-repopulating cells (SRCs), capable of repopulating and serially passage in nonobese diabetic/SCID mice, for 16 weeks. Despite this extensive proliferation, telomere length initially increased and only at late stages of culture was evidence of telomere shortening noted. This telomere stabilization correlated with maintenance of high levels of telomerase activity in the CD34+ cell population for prolonged periods of culture. Cytokine-stimulated cultures of adult CD34+ cells showed CD34+ and SRC expansion (6-fold) for only 3 to 4 weeks with telomere shortening and low levels of telomerase. There is clearly a clinical value for a system that provides extensive stem cell expansion without concomitant telomere erosion.
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PMID:Elevated telomerase activity and minimal telomere loss in cord blood long-term cultures with extensive stem cell replication. 1472 71

Severe combined immunodeficiency (SCID) is an inherited immune disorder characterized by T-cell lymphopenia (TCLP), a profound lack of cellular (T-cell) and humoral (B-cell) immunity and, in some cases, decreased NK-cell number and function. Affected children develop severe bacterial and viral infections within the first 6 months of life and die before 1 year of age without treatment. Mutations in any of eight known genes: IL2RG, ARTEMIS, RAG1, RAG2, ADA, CD45, JAK3, and IL7R cause SCID. Mutations in unidentified genes may also cause SCID. Population-based genotype and allelic frequencies of these gene defects have not been measured. Some minimal estimates of SCID prevalence are presented. Currently, hematopoietic stem cell transplants are the standard treatment. In clinical trials, gene therapy has been used to reconstitute immune function in patients with IL2RG and ADA defects. The availability of effective therapies, plus the short asymptomatic period after birth, (when stem-cell transplantation is most effective), make SCID a potentially good candidate for newborn screening. Dried blood spots are currently collected from all infants at birth for newborn metabolic screening. Tests for TCLP on dried blood spots could be developed as a screen for SCID. Because SCID may be unrecognized, with infant deaths from infection attributed to other causes, newborn screening is the only way to ascertain true birth prevalence. Validated tests and pilot population studies are necessary to determine newborn screening's potential for identifying infants with SCID.
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PMID:Mutations in genes required for T-cell development: IL7R, CD45, IL2RG, JAK3, RAG1, RAG2, ARTEMIS, and ADA and severe combined immunodeficiency: HuGE review. 1472 5

High gene transfer efficiencies have been difficult to achieve in hematopoietic progenitor cells (HPCs) but are important to therapeutic success of HPC gene therapy. Efficient gene transfer is especially challenging with use of column-purified vector for clinical application, as opposed to centrifuged vector commonly used for research. We investigated novel approaches to increase transduction by using a clinically applicable protocol and quantities of column-purified lentiviral vector. Recognizing the association of adenosine 5'-triphosphate (ATP)-binding cassette (ABC) transporters with HPC biology, we investigated the effect of transporter inhibitors on transduction. We found the ABC transporter inhibitor verapamil improved transduction efficiency 2- to 6-fold into CD34(+) cells isolated from mobilized peripheral blood, bone marrow, and cord blood. Verapamil also improved transduction in human SCID (severe combined immunodeficient) repopulating cell (SRC) transduction 3- to 4-fold, resulting in 80% to 90% transduction levels in mice receiving primary and secondary transplants without alterations in multilineage reconstitution. Additional ABC transporter substrate inhibitors like quinidine, diltiazem, and ritonavir also enhanced transduction 2- to 3-fold, although ABC transporter inhibitors that are not substrates did not. Enhanced transduction was not observed in mature hematopoietic cells, neurospheres, mesenchymal stem cells, or hepatocytes. Enhancement of transduction in HPCs was observed with vesicular stomatitis virus-G (VSV-G)-pseudotyped lentiviral vector but not with vector pseudotyped with RD114. Thus, we present a new approach for efficient delivery to primitive HPCs by VSV-G-pseudotyped lentiviral vectors.
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PMID:ABC transporter inhibitors that are substrates enhance lentiviral vector transduction into primitive hematopoietic progenitor cells. 1505 41

HTLV-I is the causative agent of adult T-cell leukemia (ATL). However, the precise mechanism underlying the neoplastic cell growth of ATL remains unclear. In this study, we established a leukemic cell line, termed SYK-11L(+), from tumor cells (S-YU) in an in vivo cell proliferation model of ATL using severe combined immunodeficiency (SCID) mice. Unexpectedly, SYK-11L(+) was found to have no tumorigenicity in SCID mice. Flow cytometric analysis showed that S-YU expressed cell adhesion molecules including CD44, ICAM-1 and OX40, whereas SYK-11L(+) had lost the expression of these molecules. The administration of anti-OX40 monoclonal antibody inhibited the engraftment of S-YU cells into SCID mice, suggesting that OX40 is a potential target for immunotherapy. Significant differences in responsiveness to IL-2 and IL-15 were observed between the two cell types. To better understand the molecular basis of tumorigenicity, cDNA microarray analysis was performed using tumorigenic S-YU and non-tumorigenic SYK-11L(+) cells. We obtained several candidate genes differentially overexpressed in S-YU compared with SYK-11L(+). Interestingly, one such gene, regulator of G protein signaling 1 (RGS1), was shown to be overexpressed in most ATL patients. Further characterization of the differentially expressed molecules, such as OX40 and RGS1, would provide useful information not only to elucidate the mechanism of ATL cell growth in vivo, but also to develop novel molecularly targeted therapies.
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PMID:Identification of differentially expressed molecules in adult T-cell leukemia cells proliferating in vivo. 1513 68

Using the intra-bone marrow injection (IBMI) technique, we recently identified human cord blood-derived CD34- severe combined immunodeficiency (SCID)-repopulating cells (SRCs) with extensive lymphomyeloid reconstituting ability. In this study, we further investigated the hematopoietic stem cell (HSC) characteristics of these cells in terms of proliferative and migratory potentials. The absolute numbers of CD45+ and CD34+ cells generated by 1 CD34- SRC are significantly higher than those generated by 1 CD34+ SRC. It is interesting that CD34- SRCs have significantly higher migratory and proliferative abilities than CD34+ SRCs. Moreover, only 2 CD34- SRCs transplanted to primary recipients consistently showed secondary reconstituting capacity. This finding suggested the more homogenous nature of CD34- SRCs than that of the population of CD34+ SRCs. These results provided further evidence that CD34- SRCs are functionally different from CD34+ SRCs and that they are a distinct class of primitive HSCs.
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PMID:Proliferative and migratory potentials of human cord blood-derived CD34- severe combined immunodeficiency repopulating cells that retain secondary reconstituting capacity. 1521 59

The CD34(+)CD38- phenotype identifies a population in the bone marrow that is enriched in the steady state for hematopoietic stem cells (HSCs). Following ex vivo culture of CD34(+) cells, HSC content is difficult to measure since committed CD34(+)CD38+ progenitors down-regulate CD38 surface expression during culture. In this study, we sought to define the phenotype of human HSCs following ex vivo culture under conditions that support the expansion of human cells capable of repopulating non-obese diabetic/severe combined immunodeficiency (SCID)-repopulating cells (SRCs). Contact coculture of fluorescence-activated cell sorter (FACS)-sorted bone marrow (BM) CD34(+)CD38- cells with human brain endothelial cells (HUBECs) supported a 4.4-fold increase in CD34(+)CD38- cells with a concordant 3.6-fold increase in SRCs over 7 days. Noncontact HUBEC cultures and the addition of thrombopoietin, stem cell factor (SCF), and macrophage colony stimulating factor I receptor (Fms)-like tyrosine kinase 3 (Flt-3) ligand supported further increases in CD34(+)CD38- cells (6.4-fold and 13.1-fold), which correlated with significant increases in SRC activity. Moreover, cell-sorting studies performed on HUBEC-cultured populations demonstrated that SRCs were significantly enriched within the CD34(+)CD38- subset compared with the CD34(-)CD38- population after culture. These results indicate that human HSCs can be identified and characterized by phenotype following expansion culture. These studies also demonstrate that HUBEC-elaborated soluble factors mediate a unique and potent expansion of human HSCs.
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PMID:Soluble factors elaborated by human brain endothelial cells induce the concomitant expansion of purified human BM CD34+CD38- cells and SCID-repopulating cells. 1534 96

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

JAK3, a member of the Janus kinase family, has a crucial role in T-cell development and the homeostasis of the immune system because of its association with the common gamma chain (gammac) of cytokine receptors. Disruption of either JAK3 or gammac expression results in severe combined immunodeficiency disease. Thus, JAK3 has attracted significant attention in recent years as a target for therapeutic intervention in several immune-related diseases. Inhibitors of JAK3 have been developed that might act as either immunosuppressive agents in human organ transplantation or as immunomodulators in autoimmune disorders. We propose that targeting JAK3 offers alternative avenues for the development of new immunomodulatory strategies of therapeutic value. Furthermore, we believe that in addition to the tyrosine kinase domain of JAK3, where inhibitor design efforts are currently focused, non-catalytic regions of JAK3 might represent candidate targets for future drugs.
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PMID:Is JAK3 a new drug target for immunomodulation-based therapies? 1549 77

We have reported previously that the expression of focal adhesion kinase (FAK) is elevated in glioblastomas and that expression of FAK promotes the proliferation of glioblastoma cells propagated in either soft agar or in the C.B.17 severe combined immunodeficiency (scid) mouse brain. We therefore determined the effect of FAK on cell cycle progression in these cells. We found that overexpression of wild-type FAK promoted exit from G(1) in monolayer cultures of glioblastoma cells, enhanced the expression of cyclins D1 and E while reducing the expression of p27(Kip1) and p21(Waf1), and enhanced the kinase activity of the cyclin D1-cyclin-dependent kinase-4 (cdk4) complex. Transfection of the monolayers with a FAK molecule in which the autophosphorylation site is mutated (FAK397F) inhibited exit from G(1) and reduced the expression of cyclins D1 and E while enhancing the expression of p27(Kip1) and p21(Waf1). Small interfering RNA (siRNA)-mediated down-regulation of cyclin D1 inhibited the enhancement of cell cycle progression observed on expression of wild-type FAK, whereas siRNA-mediated down-regulation of cyclin E had no effect. siRNA-mediated down-regulation of p27(Kip1) overcame the inhibition of cell cycle progression observed on expression of FAK397F, whereas down-regulation of p21(Waf1) had no effect. These results were confirmed in vivo in the scid mouse brain xenograft model in which propagation of glioblastoma cells expressing FAK397F resulted in a 50% inhibition of tumor growth and inhibited exit from G(1). Taken together, our results indicate that FAK promotes proliferation of glioblastoma cells by enhancing exit from G(1) through a mechanism that involves cyclin D1 and p27(Kip1).
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PMID:p27Kip1 and cyclin D1 are necessary for focal adhesion kinase regulation of cell cycle progression in glioblastoma cells propagated in vitro and in vivo in the scid mouse brain. 1555 80

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

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