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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)
It is generally recognized that bcl-2 gene strongly protects cells from apoptosis in various situations. But its function is still to be examined. We analyzed the effect of bcl-2 gene using growth factor dependent cell line, TF-1, derived from an erythroleukemia patient. On
GM-CSF
removal TF-1 (bcl-2) cells which were transfected with bcl-2 cDNA by retrovirus vector system survived and arrested in G0-1 phase of the cell cycle, while TF-1 (mock) cells which were transfected with vector only also arrested in G0-1 but decreased in number in several days and showed typical apoptosis. N-acetylcysteine, one of antioxidants, did not show such anti-apoptotic effect as bcl-2 in the preincubation experiment. By centrifugal elutriation system the G0-1 arrested subfraction of TF-1 (bcl-2) showed time delay at the re-entry into cell after
GM-CSF
re-addition when compared with the G0-1 arrested subfraction of TF-1 (mock). Similar delay in cell cycle progression was observed after 24hs-exposure of staurosporine, a protein kinase C (PKC) inhibitor. The expression of cell cycle genes including cyclin A, C, D1, E,
cdk2
, 4, c-myc, bax and bcl-x showed no difference between these two cell lines upon growth factor removal. These results imply that the functional commitment of bcl-2 into cell cycle progression under the situation of apoptosis especially at the restriction point of G1-S transition.
...
PMID:[Overexpression of bcl-2 suppresses apoptosis in the human leukemia cell line TF-1]. 925 8
Asymmetric segregation of cell-fate determinants during mitosis (spatial asymmetry) is an essential mechanism by which stem cells are maintained while simultaneously giving rise to differentiated progenitors that ultimately produce all the specialized cells in the hematopoietic system. Temporal cell cycle asymmetry and heterogeneity are attributes of cell proliferation that are also essential for maintaining tissue organization. Hematopoietic stem cells (HSCs) are regulated by a complex network of cytokines, some of which have very specific effects, while others have very broad ranging effects on HSCs. Some cytokines, like steel factor (SLF), are known to synergize with other cytokines to produce rapid expansion of progenitor cells. Using the human growth factor-dependent MO7e cell line as a model for synergistic proliferation, we present evidence that links proliferation asymmetry to SLF synergy with
GM-CSF
, and suggests that temporal asymmetry and cell cycle heterogeneity can be regulated by SLF in vitro. We also show that
CDK
-inhibitor and cell cycle regulator, p27kip-1, may be involved in this temporal asymmetry regulation. We propose that SLF/
GM-CSF
synergy is, in part, due to a shift in proliferation pattern from a heterogeneous and asymmetric one to a more synchronous and symmetric pattern, thus contributing dramatically to the rapid expansion that accompanies SLF synergy observed in MO7e cells. This kinetic model of asymmetry is consistent with recent evidence showing that even though SLF synergy results in a strong proliferative signal, it does not increase primary HSC self-renewal, which is believed to be highly dependent on asymmetric divisions. The factor-dependent MO7e/SCF- synergy/asymmetry model described here may therefore be useful for studies of the effects of various cytokines on cell cycle asymmetry.
...
PMID:Steel factor regulates cell cycle asymmetry. 1171 39
Although the role of Jak3 in lymphoid development has been well-characterized, increasing evidence demonstrates that activation of the Jak3 pathway plays an important role in myeloid differentiation as well. Overexpression of Jak3 in murine myeloid 32Dcl3 cells has been shown to result in an acceleration of granulocytic differentiation induced by G-CSF. Early onset of G1 cell cycle arrest along with upregulation of the cyclin dependent kinase inhibitor p27Kip1 and downregulation of
Cdk2
, Cdk4, Cdk6, and Cyclin E has also been observed in Jak3-overexpressing 32Dcl3 cells. In addition, Jak3 overexpression in normal mouse bone marrow cells results in accelerated granulocytic and monocytic differentiation in response to
GM-CSF
, while pharmacological inhibition of Jak3 results in a block to
GM-CSF
-induced colony formation in normal mouse bone marrow cells. Jak3 is unique among the members of the Jak kinase family in that it is inducibly expressed and is a target for regulation at the level of transcription. Recent studies have demonstrated that upregulation of Jak3 during myeloid differentiation is achieved through the cooperative action of Sp1 and STAT3, consistent with evidence indicative of a crucial role for STAT3 in myeloid differentiation. These results suggest that cytokine-inducible activation of Jak3 plays a critical role in integrating the processes of growth arrest and differentiation of myeloid cells.
...
PMID:Activation of the Jak3 pathway and myeloid differentiation. 1562 77
A C6 beta-chemokine, CKbeta8-1, suppressed the colony formation of CD34+ cells of human cord blood (CB). Molecular mechanisms involved in CKbeta8-1-medicated suppression of colony formation of CD34+ cells are not known. To address this issue, the level of various G1/S cell cycle regulating proteins in CKbeta8-1-treated CD34+ cells were compared with those in untreated CD34+ cells. CKbeta8-1 did not significantly alter the expression of the G1/S cycle regulation proteins (cyclin D1, D3, and E),
CDK
inhibitor (p27and Rb), and other cell proliferation regulation protein (p53) in CB CD34+ cells. Here we describe an in vitro system in which CB CD34+ cells were committed to a multipotent progenitor lineage of colony forming units-granulocyte/macrophage (CFU-GM) by a simple combination of recombinant human (rh)
GM-CSF
and rhIL-3. In this culture system, we found that cyclin E protein appeared later and disappeared faster in the CKbeta8-1-treated cells than in the control cells during CFU-GM lineage development. These findings suggested that cyclin E may play a role in suppressing the colony formation of CFU-GM by CKbeta8-1.
...
PMID:CKbeta8-1 alters expression of cyclin E in colony forming units-granulocyte macrophage (CFU-GM) lineage from human cord blood CD34+ cells. 1639 23
