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Query: EC:6.5.1.2 (
DNA ligase
)
2,749
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
When mouse
erythroleukemia
(MEL) cells were induced to differentiate by growth in the presence of dimethyl sulfoxide, hexamethylene bisacetamide (HMBA), or hemin, the apparent activity of
DNA ligase
extractable from inducer-treated cells decreased 70 to 80% when compared to untreated cells. Earlier work had indicated that these changes did not occur in a differentiation-resistant MEL cell variant and suggested that the decrease in the level of
DNA ligase
activity might be related to the differentiation process. Since the MEL cells accumulate high levels of both hemoglobin-bound and non-hemoglobin-bound heme, the effect of both hemoglobin and hemin on
DNA ligase
activity of MEL cell extracts was tested. When cell-free extracts containing
DNA ligase
activity were preincubated with hemin at concentrations up to 150 microM, an 80% or greater inhibition of the
DNA ligase
activity resulted. The ATP-dependent
DNA ligase
from bacteriophage T4 was also inhibited by hemin, but the NAD-dependent
DNA ligase
from Escherichia coli was not sensitive to this treatment. Preincubation of these same extracts with hemoglobin at levels comparable to those present in differentiating cells did not result in inhibition of any of the ATP-dependent DNA ligases tested. Culturing the cells with dimethyl sulfoxide in the presence of imidazole resulted in a marked decrease in globin chain accumulation but did not reverse the dimethyl sulfoxide-related decrease in
DNA ligase
activity. These data suggest the possibility that heme or its metabolites, but not globin or hemoglobin, could serve to modify the process of DNA replication and/or repair in differentiating MEL cells via inhibition of
DNA ligase
activity. These data are consistent with the findings of Lo et al. (S.C. Lo, R. Aft, and G.C. Mueller, Cancer Res., 41: 864-870, 1981) which correlated the onset of differentiation-related terminal cell division in MEL cells with the levels of nonhemoglobin heme present in these cells.
...
PMID:A possible effect of heme on the fate of DNA ligase activity extracted from differentiating mouse erythroleukemia cells. 318 46
The induction of differentiation in several tumor lines serves as a basis for a new approach to cancer treatment. In vitro studies in the mouse
erythroleukemia
(MEL) cell system have identified about 300 agents capable of inducing differentiation by mechanisms that remain to be elucidated. The design of differentiation therapy will depend on the specific tumor cell type, an effective time course, and the synergistic interaction among combinations of two or more inducers. The induction of differentiation may be followed by terminal cell division (TCD) or programmed cell death in several tumor cell systems. This mechanism for the destruction of tumor cells is one goal of differentiation therapy and differs from nonspecific cytotoxic therapy. To evaluate the effect of differentiation therapy, a clear distinction must be made between nonspecific cytotoxicity and the programmed TCD of induced cytodifferentiation. One possible parameter for assessing the commitment to TCD in the MEL cell system is a selective decrease in
DNA ligase
activity, which does not appear to occur following treatment with nonspecific cytotoxic agents. These biological and biochemical parameters should be helpful in designing agents capable of inducing TCD in vivo.
...
PMID:Basic principles for utilizing combination differentiation agents. 352 18
DNA ligase
and DNase levels were measured in cell-free extracts from untreated mouse
erythroleukemia
(MEL) cells and from cells treated with dimethyl sulfoxide (Me2SO) to induce erythroid differentiation. The DNase activity present in the extracts was sensitive to inhibition by G-actin and was, therefore, presumed to be DNase I. When the MEL cells were induced to differentiate by culturing in the presence of 1.8% Me2SO for 3 or 4 days, the apparent activity of the
DNA ligase
decreased to approximately 12% of the value in untreated MEL cells. In contrast, the apparent DNase I activity of the extracts from Me2SO-treated cells increased over that in extracts from untreated cells by a factor of 2. The activity of acid phosphatase, a lysosomal enzyme, remained unchanged. When strain DR-10, a mutant of the MEL cells which does not undergo Me2SO-induced differentiation, was treated with Me2SO, the
DNA ligase
and DNase activities of extracts from these cells remained unchanged as compared to extracts from untreated DR-10 cells. Therefore, the marked increase in the level of
DNA ligase
activity appeared to be related to the process of differentiation in the Me2SO-treated MEL cells.
...
PMID:DNA ligase and DNase activities in mouse erythroleukemia cells during dimethyl sulfoxide-induced differentiation. 694 37
