Changes in O super(6)-methylguanine-DNA methyltransferase expression during immortalization of cloned human fibroblasts

Suppressed expression of the DNA repair enzyme O super(6)-methylguanine-DNA methyltransferase (MGMT), characterized as the Mer super(-) phenotype, occurs only in malignant or transformed cell lines. To investigate the relationship between the transformation process and loss of MGMT expression, we de...

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Veröffentlicht in:	Carcinogenesis (New York) 1996-01, Vol.17 (2), p.219-224
Hauptverfasser:	Harris, L C, Von Wronski, MA, Venable, C C, Remack, J S, Howell, SR, Brent, T P
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Sprache:	eng
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container_title	Carcinogenesis (New York)
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creator	Harris, L C Von Wronski, MA Venable, C C Remack, J S Howell, SR Brent, T P
description	Suppressed expression of the DNA repair enzyme O super(6)-methylguanine-DNA methyltransferase (MGMT), characterized as the Mer super(-) phenotype, occurs only in malignant or transformed cell lines. To investigate the relationship between the transformation process and loss of MGMT expression, we derived 20 cloned lines of IMR90 normal fibroblasts transfected with the plasmid pSV3neo expressing the SV40 large-T antigen. Of the five lines that were grown until crisis phase, four emerged as continuously proliferating immortal lines. Of these, only one retained MGMT, the other three having become Mer super(-). In every case the loss of MGMT coincided with the final phase of immortalization following crisis. Because these were cloned cell lines it is clear that the phenotypic change to Mer super(-) is not merely due to selection of a Mer super(-) cell from the initial population, but must involve a cellular change in MGMT regulation. It is not clear if increased mutation rate associated with loss of MGMT results in increased frequency of an immortalization event or if an immortalization event, such as telomere disruption, results in MGMT suppression. In addition, we have shown that, consistent with previous observations, both hypermethylation in promoter sequences and hypomethylation of downstream sequences in the body of the gene were closely associated with loss of MGMT expression. These studies also illustrate the utility of these new cloned cell lines for characterizing molecular events associated with transformation and immortalization.
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To investigate the relationship between the transformation process and loss of MGMT expression, we derived 20 cloned lines of IMR90 normal fibroblasts transfected with the plasmid pSV3neo expressing the SV40 large-T antigen. Of the five lines that were grown until crisis phase, four emerged as continuously proliferating immortal lines. Of these, only one retained MGMT, the other three having become Mer super(-). In every case the loss of MGMT coincided with the final phase of immortalization following crisis. Because these were cloned cell lines it is clear that the phenotypic change to Mer super(-) is not merely due to selection of a Mer super(-) cell from the initial population, but must involve a cellular change in MGMT regulation. It is not clear if increased mutation rate associated with loss of MGMT results in increased frequency of an immortalization event or if an immortalization event, such as telomere disruption, results in MGMT suppression. 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To investigate the relationship between the transformation process and loss of MGMT expression, we derived 20 cloned lines of IMR90 normal fibroblasts transfected with the plasmid pSV3neo expressing the SV40 large-T antigen. Of the five lines that were grown until crisis phase, four emerged as continuously proliferating immortal lines. Of these, only one retained MGMT, the other three having become Mer super(-). In every case the loss of MGMT coincided with the final phase of immortalization following crisis. Because these were cloned cell lines it is clear that the phenotypic change to Mer super(-) is not merely due to selection of a Mer super(-) cell from the initial population, but must involve a cellular change in MGMT regulation. It is not clear if increased mutation rate associated with loss of MGMT results in increased frequency of an immortalization event or if an immortalization event, such as telomere disruption, results in MGMT suppression. In addition, we have shown that, consistent with previous observations, both hypermethylation in promoter sequences and hypomethylation of downstream sequences in the body of the gene were closely associated with loss of MGMT expression. These studies also illustrate the utility of these new cloned cell lines for characterizing molecular events associated with transformation and immortalization.</abstract></addata></record>
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source	Oxford University Press Journals All Titles (1996-Current); EZB-FREE-00999 freely available EZB journals; Alma/SFX Local Collection
title	Changes in O super(6)-methylguanine-DNA methyltransferase expression during immortalization of cloned human fibroblasts
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