Mary G. McMenamin

Bio: Mary G. McMenamin is an academic researcher from National Institutes of Health. The author has contributed to research in topics: Carcinogenesis & Streptozotocin. The author has an hindex of 15, co-authored 25 publications receiving 2010 citations.

Transformation of Human Bronchial Epithelial Cells by Infection with SV40 or Adenovirus-12 SV40 Hybrid Virus, or Transfection via Strontium Phosphate Coprecipitation with a Plasmid Containing SV40 Early Region Genes

Abstract: Normal human bronchial epithelial cells were infected with SV40 virus or an adenovirus 12-SV40 hybrid virus, or transfected via strontium phosphate coprecipitation with plasmids containing the SV40 early region genes. Colonies of morphologically altered cells were isolated and cultured; these cells had extended culture lifespans compared to normal human bronchial epithelial cells. All cultures eventually underwent senescence, with the exception of one which appears to have unlimited proliferative potential. Colonies arising after viral infection were screened for virus production by cocultivation with Vero cells; only viral nonproducer cultures were analyzed further. The cells retained electron microscopic features of epithelial cells, and keratin and SV40 T-antigen were detected by indirect immunofluorescence. All of the cultures were aneuploid with karyotypic abnormalities characteristic of SV40-transformed cells. No tumors formed after s.c. injection of the cells in nude mice. These cells should be useful for studies of multistage bronchial epithelial carcinogenesis.

Establishment of a human in vitro mesothelial cell model system for investigating mechanisms of asbestos-induced mesothelioma.

Abstract: Normal human mesothelial (NHM) cells were transfected with a plasmid containing SV40 early region DNA. Individual colonies of transformed cells from several donors were subcultured for periods of 5 to 6 months and 60 to 70 population doublings (PDs) before senescence, in contrast to a culture lifespan of approximately 1 month and 15 PDs for NHM cells. One such culture, designated MeT-5A, escaped senescence and has been passaged continuously for more than 2 years. These cells had a single integrated copy of SV40 early region DNA in their genome, expressed SV40 large T antigen, and exhibited features of mesothelial cells including sensitivity to the cytotoxic effects of asbestos fibers. One year after injection subcutaneously or intraperitoneally in athymic nude mice, these cells remain nontumorigenic, and therefore are a potential model system for in vitro fiber carcinogenesis studies.

Mutational Analysis of the p63/p73L/p51/p40/CUSP/KET Gene in Human Cancer Cell Lines Using Intronic Primers

Abstract: After the identification of p73, a second homologue of the human p53 tumor suppressor gene has been reported and named p63/p73L/p51/p40/ CUSP/KET We have investigated the hypotheses that: (a) p63 is mutated in diverse types of human cancers; and (b) p63 functions in the same pathway as p53 and p73 in the process of carcinogenesis; therefore, mutations in these three genes would be mutually exclusive We have analyzed the genomic structure of the p63 gene and have performed mutational analyses on 54 human cell lines using intronic primers flanking each exon We have confirmed that the human p63 open reading frame encodes the same length of protein as murine p63 that was initially reported to be 39 amino acids longer than human p63 By mutational analysis, we have shown that DLD1 and SKOV3 cells have either heterozygous mutations or polymorphisms in the putative DNA binding domain of p63 In these cell lines, p63 is biallelically expressed We conclude that mutations in the p63 gene are rare in human cell lines The fact that DLD1 is abnormal for both p63 and p53 genes suggests that they may not be involved in the same tumor suppressor pathway

ING2 Regulates the Onset of Replicative Senescence by Induction of p300-Dependent p53 Acetylation

Abstract: ING2 is a candidate tumor suppressor gene that can activate p53 by enhancing its acetylation. Here, we demonstrate that ING2 is also involved in p53-mediated replicative senescence. ING2 protein expression increased in late-passage human primary cells, and it colocalizes with serine 15-phosphorylated p53. ING2 and p53 also complexed with the histone acetyltransferase p300. ING2 enhanced the interaction between p53 and p300 and acted as a cofactor for p300-mediated p53 acetylation. The level of ING2 expression directly modulated the onset of replicative senescence. While overexpression of ING2 induced senescence in young fibroblasts in a p53-dependent manner, expression of ING2 small interfering RNA delayed the onset of senescence. Hence, ING2 can act as a cofactor of p300 for p53 acetylation and thereby plays a positive regulatory role during p53-mediated replicative senescence.

Pathology and genetics of tumours of the lung , pleura, thymus and heart

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A Polycistronic MicroRNA Cluster, miR-17-92, Is Overexpressed in Human Lung Cancers and Enhances Cell Proliferation

Abstract: MicroRNAs (miRNAs) are small noncoding RNAs, thought to be involved in physiologic and developmental processes by negatively regulating expression of target genes. We have previously reported frequent down-regulation of the let-7 miRNA family in lung cancers and, in the present study, assessed alteration in a panel of 19 lung cancer cell lines. As a result, we found for the first time that the miR-17-92 cluster, which comprises seven miRNAs and resides in intron 3 of the C13orf25 gene at 13q31.3, is markedly overexpressed in lung cancers, especially with small-cell lung cancer histology. Southern blot analysis revealed the presence of increased gene copy numbers of the miRNA cluster in a fraction of lung cancer cell lines with overexpression. In addition, we were able to show predominant localization of C13orf25 transcripts within the nucleus and introduction of the expression construct of the miR-17-92 cluster, but not the putative open reading frame of C13orf25, enhancing lung cancer cell growth. These findings clearly suggest that marked overexpression of the miR-17-92 cluster with occasional gene amplification may play a role in the development of lung cancers, especially in their most aggressive form, small-cell lung cancer, and that the C13orf25 gene may well be serving as a vehicle in this regard.

Telomere elongation in immortal human cells without detectable telomerase activity.

Abstract: Immortalization of human cells is often associated with reactivation of telomerase, a ribonucleoprotein enzyme that adds TTAGGG repeats onto telomeres and compensates for their shortening. We examined whether telomerase activation is necessary for immortalization. All normal human fibroblasts tested were negative for telomerase activity. Thirteen out of 13 DNA tumor virus-transformed cell cultures were also negative in the pre-crisis (i.e. non-immortalized) stage. Of 35 immortalized cell lines, 20 had telomerase activity as expected, but 15 had no detectable telomerase. The 15 telomerase-negative immortalized cell lines all had very long and heterogeneous telomeres of up to 50 kb. Hybrids between telomerase-negative and telomerase-positive cells senesced. Two senescent hybrids demonstrated telomerase activity, indicating that activation of telomerase is not sufficient for immortalization. Some hybrid clones subsequently recommenced proliferation and became immortalized either with or without telomerase activity. Those without telomerase activity also had very long and heterogeneous telomeres. Taken together, these data suggest that the presence of lengthened or stabilized telomeres is necessary for immortalization, and that this may be achieved either by the reactivation of telomerase or by a novel and as yet unidentified mechanism.

CFTR expression and chloride secretion in polarized immortal human bronchial epithelial cells.

Abstract: A major limitation in the study of vectorial ion transport, secretion, and differentiated function in the human airway epithelium has been the lack of suitable cell culture systems. Progress in this direction has been made through the transformation of primary cultured epithelial cells. However, these transformants tend to lose differentiated properties with increasing serial passage, particularly following crisis. The suc­ cessful establishment of a postcrisis SV40 large T-antigen transformed epithelial cell line derived from human bronchial epithelium is described. This cell line, 16HBEI40-, retains differentiated epithelial mor­ phology and functions. Cell cultures show the presence of tight junctions and cilia, and monolayers gener­ ate transepithelial resistance, as measured in Ussing chambers, and retain iJ-adrenergic stimulation of cAMP-dependent chloride ion transport, measured either by ,6CI- efflux or as short-circuit current in Ussing chambers. The cells also increase chloride transport in response to bradykinin or calcium iono­ phore. In addition, 16HBE140-cells express levels of both the cystic fibrosis transmembrane conductance regulator (CFTR) mRNA and protein readily detectable by Northern and Western hybridization analysis, respectively. These cells provide a valuable resource for studying the modulation of CFTR and its role in regulation of chloride ion transport in human airway epithelium as well as other aspects of human airway cell biology. The human airway epithelium is pseudostratified, consisting of highly organized layers of polar cells with specific dif­ ferentiated functions. It includes ciliated columnar cells, basal cells, and secretory goblet cells that are linked by tight junctions. The tight junctions provide a barrier between the airway lumen and the underlying tissues and divide the epi­ thelial cells into apical and basolateral domains. Both of these plasma membrane compartments contain different populations of proteins that allow for directional flux of ions