EC:2.7.11.22 - FACTA Search

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Query: EC:2.7.11.22 (cdc2)
8,319 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Lymphomas involving the nasal and nasopharyngeal region mainly include CD56-positive natural killer (NK)/T-cell lymphomas, CD56-negative peripheral T-cell lymphomas (PTL), and B-cell lymphomas. Among these, the CD56-positive lymphoma, presumably of an NK/T-cell nature, is frequently seen in Asian, Mexican, and South American patients. NK cells are proposed to be closer developmentally to T cells than to other lymphoid cells, because bipotential common progenitor cells of NK/T-cell lineage have been isolated. In this study, we collected 47 cases of nasal lymphoma and investigated the phenotypic difference between NK/T-cell lymphoma and PTL by examining the pattern of the developmentally differentially expressed molecules cdk6 (cyclin-dependent kinase 6), CD44, CD117, and by examining the rearrangement of the T-cell receptor gene (TcR-GR). cdk6, an essential regulator of the cell cycle in G1 progression, was over-expressed in a subset of cortical thymocytes, but absent in mature thymocytes. In contrast, CD44, a glycosylated adhesion molecule, was absent in cortical thymocytes, but present in mature thymocytes and peripheral activated T cells. We found both over-expression of nuclear cdk6 (n-cdk6) and frequent absence of CD44 in nasal CD56-positive NK/T-cell lymphomas, in contrast to most nasal CD56-negative PTL, which were CD44-immunoreactive with weak or no expression of n-cdk6. Almost all tested cases of NK/T-cell lymphoma displayed a germ-line configuration of TcR, without evidence of gene rearrangement. Thus, there seems to be a useful distinction between the classical NK/T type of nasal lymphoma (CD56+/n-cdk6+/CD44-/TcR-GR-) and PTL (CD56-/n-cdk6-/CD44+/TcR-GR+) involving the nasal region. The presence of Epstein-Barr virus does not seem to be a good marker for distinguishing between NK/T lymphoma and PTL involving the nasal region.
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PMID:Expression of cyclin-dependent kinase 6 (cdk6) and frequent loss of CD44 in nasal-nasopharyngeal NK/T-cell lymphomas: comparison with CD56-negative peripheral T-cell lymphomas. 1087 40

The RB1 pathway and the p53 pathway represent important, interconnected biochemical units frequently perturbed in human cancer. Essential tumor protective mechanisms, such as cellular growth control and apoptosis, are regulated through these systems. Comprehensive studies of these pathways, including most known pathway components, have not been performed in NHL. We therefore analyzed the involvement of aberrations of these pathways in NHLs from the population-based West-Danish NHL registry, LYFO registry, as well as in a series of neurofibromatosis 1-related tumors. The aim of the studies was to obtain information about extent and interrelation of alterations of pathway components, as well as clinical information such alterations might provide. We found that alteration of components of one or both of these pathways are very common, occurring in the vast majority of DLCLs. Our data suggest that the pathways are not entirely linear in lymphomagenesis. The p53 pathway components MDM2 and p53 were frequently altered in the same lymphoma indicating that the role of MDM2 in lymphomagenesis is not entirely dependent on the downstream target, p53. The linearity of the RB1 pathway was clearer as only 1 of 34 DLCLs showed aberration of more than one of the components cyclin D3, p16INK4A, and pRB. An intriguing novel observation was that p16INK4A inactivation was associated with increased expression of cdk4, a kinase target of p16INK4A inhibitory function. This could indicate the existence of a regulatory feedback loop between p16INK4A and cdk4. Cyclin D3 has yet to be established as an oncoprotein. Our finding of cyclin D3 overexpression in a significant number of DLCLs (including all thyroid lymphomas analyzed), as well as the intimate inverse relation to other RB1 pathway alterations suggest, that cyclin D3 is important in lymphomagenesis. However, further studies are needed to implicate cyclin D3 definitively as an oncoprotein. Our data contain several lines of evidence supporting roles of CDKN2A and MDM2 in progression of neoplastic disease. We found that loss of p16INK4A coincided with transformation of neurofibromas to malignant peripheral nerve sheath tumors in neurofibromatosis 1 patients. Furthermore, one DLCL lost CDKN2A from diagnosis to relapse. MDM2 overexpression was more frequent in aggressive than in indolent lymphomas, and in follicle center lymphomas none of our follicle center grade I/II lymphomas overexpressed MDM2. In contrast, MDM2 was overexpressed in 60% of grade III/diffuse follicle center lymphomas. Clinical correlations revealed novel and interesting findings. Both p53 disruption and low expression of E2F-1 correlated with poor response of aggressive lymphomas to treatment. Chemotherapeutic regimens used in lymphoma treatment are based on apoptosis induction, and as both E2F-1 and p53 are regulators of apoptosis, it is possible that the observed treatment failure is associated with reduced E2F-1- and p53-mediated apoptosis. Survival analyses revealed numerous novel and potentially important findings. Several of the studied cell cycle regulators carried independent prognostic value in various subsets of lymphomas. In DLCL, both p16INK4A inactivation and reduced E2F-1 expression conferred shortened survival. p53 alteration was associated with poor prognosis of both B-cell and, especially, T-cell lymphoma. Low expression of p27, a cell cycle regulator haplo-insufficient for tumor suppression, predicted poor outcome in indolent and aggressive lymphoma, and overexpression of cyclin D3 was associated with poor prognosis in indolent lymphomas. Finally, MDM2 overexpression identified among patients with follicle center lymphomas, extranodal marginal zone lymphomas, and mantle cell lymphomas cases with poor prognosis. While these results must necessarily be confirmed on larger prospective series of patients, the data nonetheless suggest that valuable prognostic information can be provided by studies of these cell cycle regulators.
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PMID:Molecular control of the cell cycle in cancer: biological and clinical aspects. 1281 37

Recurrent chromosomal aberrations in hematopoietic tumors target genes involved in pathogenesis. Their identification and functional characterization are therefore important for the establishment of rational therapies. Here, we investigated genomic amplification at 7q22 in the T-cell lymphoma cell line SU-DHL-1 belonging to the subtype of anaplastic large-cell lymphoma (ALCL). Cytogenetic analysis mapped this amplicon to 86-95 Mb. Copy-number determination quantified the amplification level at 5- to 6-fold. Expression analysis of genes located within this region identified cyclin-dependent kinase 6 (CDK6) as a potential amplification target. In comparison with control cell lines, SU-DHL-1 expressed considerably higher levels of CDK6. Functionally, SU-DHL-1 cells exhibited reduced sensitivity to rapamycin treatment, as indicated by cell growth and cell cycle analysis. Rapamycin reportedly inhibits degradation of the CDK inhibitor p27 with concomitant downregulation of cyclin D3, implying a proliferative advantage for CDK6 overexpression. Amplification of the CDK6 locus was analyzed in primary T-cell lymphoma samples and, while detected infrequently in those classified as ALCL (1%), was detected in 23% of peripheral T-cell lymphomas not otherwise specified. Taken together, analysis of the 7q22 amplicon identified CDK6 as an important cell cycle regulator in T-cell lymphomas, representing a novel potential target for rational therapy.
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PMID:Amplification at 7q22 targets cyclin-dependent kinase 6 in T-cell lymphoma. 1798 12