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Query: EC:4.6.1.1 (
adenylate cyclase
)
19,190
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
After fractionation of rabbit bone marrow into
erythroid
cells at different developmental stages
adenylate cyclase
activity of membrane ghosts was assayed in the presence of sodium fluoride, catecholamines or prostaglandins E. Both basal and fluoride-stimulated
adenylate cyclase
decreased continuously during differentiation. Only catecholamines having beta 2-adrenergic activity stimulated
adenylate cyclase
and their effect was restricted to the most immature cells, the proerythroblasts and, to a lesser extent, the basophilic erythroblasts. Thus, uncoupling of beta-adrenergic receptors occurs early in erythroblast development and hormone responsiveness is lost before the final cell division. Prostaglandin E receptors and
adenylate cyclase
remain coupled throughout
erythroid
cell development.
...
PMID:Stimulation of adenylate cyclase activity by catecholamines and prostaglandins E during differentiation of rabbit bone marrow erythroid cells. 660 Jan 52
After fractionation of rabbit bone marrow into dividing (early) and non-dividing (late)
erythroid
cells, the
adenylate cyclase
activity of membrane ghosts was assayed in the presence of guanine nucleotides ((GTP and its analogue p[NH]ppG (guanosine 5'-[beta, gamma-imido]triphosphate))), the beta-adrenergic agonist L-isoprenaline (L-isoproterenol) and the antagonist L-propranolol. Both GTP and p[NH]ppG increased the
adenylate cyclase
activity of early and late erythroblasts, whereas the stimulating effect of the beta-adrenergic drug L-isoprenaline was limited to the immature dividing bone-marrow cells. The effect of L-isoprenaline was completely inhibited by the antagonist L-propranolol, confirming that the response was due to stimulation of beta-adrenergic receptors on the plasma membrane. The lack of response of non-dividing erythroblasts to beta-adrenergic stimuli is not due to loss of beta-receptors, since both dividing and non-dividing cells bind the selective ligand [125I]iodohydroxybenzylpindolol with almost equal affinities, the apparent dissociation constants, Kd, being 0.91 X 10(-8)M and 1.0 X 10(-8) M respectively. The number of beta-adrenergic receptors per cell was 2-fold higher in the dividing cells. No significant change in binding affinity for GTP and p[NH]ppG during erythroblast development was observed: the dissociation constants of both guanine nucleotides were almost identical with early and late erythroblast membrane preparations [2-3 (X 10(-7) M]. With dividing cells, however, in the presence of L-isoprenaline the dissociation constants of GTP and p[NH]ppG were lower (6 X 10(-8) M). The dose-response curves for isoprenaline competition in binding of [125I]iodohydroxybenzylpindolol by dividing cells showed that the EC50 (effective concentration for half maximum activity) value for isoprenaline was higher in the presence of p[NH]ppG. With non-dividing cells the EC50 value for isoprenaline was equal in the presence and in the absence of p[NH]ppG and similar to that observed with dividing-cell membranes in the presence of the nucleotide. Thus differentiation of rabbit bone-marrow
erythroid
cells seems to be accompanied by uncoupling of the beta-adrenergic receptors from the
adenylate cyclase
catalytic protein as well as by a decrease in the number of receptors per cell, but not by changes in the catecholamine and guanine-nucleotide-binding affinities.
...
PMID:Characteristics of the beta-adrenergic adenylate cyclase system of developing rabbit bone-marrow erythroblasts. 686 Mar 10
We found that 2',5'-dideoxyadenosine (DDA), a P-site specific
adenylate cyclase
inhibitor, inhibited the growth of K562 cells and caused them to become benzidine positive. The continuous exposure of cells to DDA was needed to recruit cells for growth inhibition and differentiation. Fetal calf or human sera were also necessary for DDA to induce differentiation. DDA at a concentration of 1.5 mM with serum induced 98% of the cells to produce hemoglobin and inhibited their growth to 15% of that of the control. An increase of epsilon-globin mRNA and a decrease of c-myc and c-myb mRNA occurred only during differentiation in the presence of fetal calf serum (FCS). An incubation with DDA and interferon-alpha (IFN-alpha) or hemin synergistically induced more benzidine-positive cells than in the presence of DDA alone, although IFN-alpha did not trigger differentiation by itself. The
erythroid
differentiation and growth inhibition were, however, not related to a decreased intracellular cyclic AMP (cAMP) concentration induced by DDA. The simultaneous incubation with dibutyryl cyclic AMP (dbc-AMP) and DDA enhanced the effects of DDA. Adenine, a possible metabolite of DDA digestion by purine nucleoside phosphorylase (PNP), also induced
erythroid
differentiation in K562 cells. However, it did not act synergistically with IFN-alpha.
...
PMID:Erythroid differentiation and growth inhibition of K562 cells by 2',5'-dideoxyadenosine: synergism with interferon-alpha. 750 Jun 53
Phospholipase D (PLD) is a major enzyme implicated in important cellular processes such as secretion and proliferation. The knowledge of its regulation is essential to understand the control of these phenomena. Several proteins activating PLD have been described in the last years. In this report, we chromatographed bovine brain cytosolic proteins to identify fodrin, the non-
erythroid
spectrin, as the first described inhibitor of PLD. A cytosolic fraction with an inhibitory effect on PLD activity loses its capacity after immunoprecipitation of fodrin. Moreover, at 1 nM, purified fodrin blocks fully and quickly PLD activity, whatever the stimuli used. In contrast, fodrin has no effect on
adenylate cyclase
activity. Fodrin-analogous proteins like dimeric or tetrameric
erythroid
spectrin have the same inhibitory effect on PLD, at higher concentrations. Other cytoskeletal proteins, actin and vimentin, are inefficient on PLD inhibition. The mechanisms implicated in PLD modulation such as post-translational modifications of fodrin and the role of small G-proteins on the cytoskeleton regulation are discussed. In conclusion, this study reveals that fodrin is involved in the control of PLD activity, suggesting that the cytoskeleton could have an active role in control of secretion and proliferation.
...
PMID:Inhibition of phospholipase D activity by fodrin. An active role for the cytoskeleton. 879 57
During hexamethylene bisactamide (HMBA)-induced differentiation of murine erythroleukemia (MEL) cells
erythroid
genes are transcriptionally activated while c-myb and several other nuclear proto-oncogenes are down-regulated. Differentiation is inhibited by cAMP analogues and the
adenyl cyclase
-stimulating agent forskolin. We found that these drugs prevented the late down-regulation of c-myb which is known to be critical for MEL cell differentiation. Since the increase in c-myb mRNA levels was due to increased mRNA transcription, we examined the transcription factors NF-kappaB and AP-1 which have been implicated in the regulation of c-myb expression. Binding of MEL cell nuclear proteins to a NF-kappaB recognition sequence in c-myb intron I was strongly induced by 8-Br-cAMP or forskolin; induction was delayed and correlated with the up-regulation of c-myb. The cAMP-induced NF-kappaB complex contained p50 and RelB; in co-transfection assays, p50 and RelB transactivated a reporter construct containing the c-myb intronic NF-kappaB site upstream of a minimal promoter. 8-Br-cAMP and forskolin also increased the DNA binding activity of AP-1 complexes containing JunB, JunD and c-Fos in MEL cells which could cooperate with NF-kappaB. We conclude that inhibition of MEL cell differentiation by pharmacological doses of cAMP can be explained by the up-regulation of c-myb which is mediated, at least in part, by NF-kappaB p50/RelB heterodimers.
...
PMID:cAMP-induced NF-kappaB (p50/relB) binding to a c-myb intronic enhancer correlates with c-myb up-regulation and inhibition of erythroleukemia cell differentiation. 936 53
Adhesive interactions between haemopoietic progenitor cells and stromal elements involve a number of different molecules, some of which may be progenitor- lineage- and stage-specific. CD44 is one such molecule, although little is known about the mechanism(s) by which it is involved. In this study, several anti-CD44 monoclonal antibodies (mAb) increased the adherence of clonogenic cells, without affecting the total number of types of progenitors recoverable from the adhesion cultures. All of these mAb recognized epitopes on the globular head of CD44. In contrast, two mAb that recognized other regions of CD44 reduced progenitor adhesion to stroma. The mechanism by which one of the anti-CD44 mAb (L178) enhanced progenitor adhesion did not involve CD44-crosslinking, and was independent of VLA-4-, VLA-5- or LFA-1-mediated interactions, Ca or Mg cations, or accessory cells. In addition, CD44 expression on both progenitors and stromal cells contributed to L178-enhanced progenitor adhesion. Baseline adherence of
erythroid
progenitors to stroma required tyrosine kinase activity, whereas that of granulopoietic progenitors did not. However, the increase in adhesion did require tyrosine kinase activation. Additional experiments suggested that enhanced adhesion of CFU-GM to stroma may also be
adenylate cyclase
-dependent. Taken together, the present studies indicate both similarities and differences in the mechanisms of CD44-mediated adhesion of
erythroid
and granulopoietic progenitors to stromal cells.
...
PMID:Evidence for differences in the mechanisms by which antibodies against CD44 promote adhesion of erythroid and granulopoietic progenitors to marrow stromal cells. 963 83
Our previous studies demonstrated roles of cyclic nucleotides in gamma-globin gene expression. We recently found that, upon activation of the cAMP pathway, expression of the gamma-globin gene is inhibited in K562 cells but induced in adult erythroblasts. Here we show that c-Myb, a proto-oncogene product that plays a role in cell growth and differentiation, is involved in the cAMP-mediated differential regulation of gamma-globin gene expression in K562 cells and primary erythroblasts. Our studies found that c-Myb is expressed at a high level in K562 cells compared to primary erythroblasts, and that c-Myb expression is further increased following the treatment with forskolin, an
adenylate cyclase
activator. The induction of gamma-globin gene expression was also inhibited in K562 cells by raising the levels of c-Myb expression. Importantly, forskolin-induced
erythroid
differentiation in K562 cells, as determined by the expression of glycophorins and CD71, suggesting that high-level expression of c-Myb may not be sufficient to inhibit the differentiation of
erythroid
cells. In contrast, c-Myb was not expressed in adult erythroblasts treated with forskolin and primary erythroblasts may lack the c-Myb-mediated inhibitory mechanism for gamma-globin gene expression. Together, these results show that the cAMP pathway blocks gamma-globin gene expression in K562 cells by increasing c-Myb expression and c-Myb plays a role in defining the mode of response of the gamma-globin gene to fetal hemoglobin inducers in
erythroid
cells.
...
PMID:cAMP differentially regulates gamma-globin gene expression in erythroleukemic cells and primary erythroblasts through c-Myb expression. 1663 97
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