Kimberley Cesen-Cummings scite author profile

The reduced gap junctional intercellular communication (GJIC) and gap junction protein (connexin) expression that have been noted in many neoplastic cell types may contribute to the neoplastic phenotype. We assessed GJIC (by fluorescent dye micro-injection) and connexin expression (by Northern blotting, Western blotting and immunohistochemistry) in five mouse and 17 human lung carcinoma cell lines; both measures were lower in neoplastic cells compared to non-transformed lung epithelial cells. Other connexins were not detected in these cells. Co-culture experiments indicated that carcinoma cell lines able to transfer dye among themselves (homologous GJIC) had little capacity for dye-coupling with non-transformed cells (heterologous GJIC). Southern blot analyses indicated that reductions in GJIC and connexin43 expression were not due to deletions or rearrangements of this gene, but were more likely accounted for by transcriptional down-regulation and/or post-transcriptional factors. No correlations between GJIC and known oncogene and tumor suppressor gene alterations in the human lung carcinoma cells were apparent, suggesting that other mechanisms down-regulate GJIC in these cells. Since the neoplastic cell lines exhibited low GJIC (either homologous or heterologous), this characteristic may be involved in expression of the neoplastic phenotype.

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Growth inhibition in G1 and altered expression of cyclin D1 and p27kip-1after forced connexin expression in lung and liver carcinoma cells

Koffler

Roshong

Park

et al. 2000

J. Cell. Biochem.

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Gap junctional intercellular communication (GJIC) and connexin expression are frequently decreased in neoplasia and may contribute to defective growth control and loss of differentiated functions. GJIC, in E9 mouse lung carcinoma cells and WB-aB1 neoplastic rat liver epithelial cells, was elevated by forced expression of the gap junction proteins, connexin43 (Cx43) and connexin32 (Cx32), respectively. Transfection of Cx43 into E9 cells increased fluorescent dye-coupling in the transfected clones, E9-2 and E9-3, to levels comparable to the nontransformed sibling cell line, E10, from which E9 cells originated. Transduction of Cx32 into WB-aB1 cells also increased dye-coupling in the clone, WB-a/32-10, to a level that was comparable to the nontransformed sibling cell line, WB-F344. The cell cycle distribution was also affected as a result of forced connexin expression. The percentage of cells in G(1)-phase increased and the percentage in S-phase decreased in E9-2 and WB-a/32-10 cells as compared to E9 and WB-aB1 cells. Concomitantly, these cells exhibited changes in G(1)-phase cell cycle regulators. E9-2 and WB-a/32-10 cells expressed significantly less cyclin D1 and more p27(kip-1) protein than E9 and WB-aB1 cells. Other growth-related properties (expression of platelet-derived growth factor receptor-beta, epidermal growth factor receptor, protein kinase C-alpha, protein kinase A regulatory subunit-Ialpha, and production of nitric oxide in response to a cocktail of pro-inflammatory cytokines) were minimally altered or unaffected. Thus, enhancement of connexin expression and GJIC in neoplastic mouse lung and rat liver epithelial cells restored G(1) growth control. This was associated with decreased expression of cyclin D1 and increased expression of p27(kip-1), but not with changes in other growth-related functions.

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Role of Gap Junctions in Lung Neoplasia

Ruch

Cesen-Cummings

Malkinson

1998

Experimental Lung Research

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Reduced gap junctional intercellular communication (GJIC) has been noted in many types of neoplastic cells and may contribute to the neoplastic phenotype. This study assessed GJIC (by fluorescent dye-coupling) and gap junction protein (connexin) expression in mouse and human lung carcinoma cell lines and investigated whether reduced GJIC was involved in their neoplastic phenotype. Dye-coupling and connexin43 (Cx43) expression were much lower in most of the carcinoma lines (16 of 22) compared to nontransformed lung epithelial cells. Other connexins were not detected. A poorly communicating mouse lung carcinoma cell line (E9) was transfected with Cx43 or transduced with Cx32 and several stable clones were isolated that had 2- to 4-fold increased dye coupling. When evaluated for growth in vitro, the population doubling times were increased and the saturation densities were decreased in the clones. When assessed for tumorigenicity, the parental E9 cells formed tumors with a 100% incidence (6/6 mice), whereas the clones varied in tumorigenic response (0-88% incidence). The best communicating clone (E9-2) was not tumorigenic. The highly communicating Cx32 clone, E9/32-9, gave a tumor incidence of 88%. These results suggest that restoration of GJIC by forced connexin expression can reduce the growth and tumorigenicity of lung carcinoma cells in a connexin-specific manner.

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Protective effect of pregnancy for development of uterine leiomyoma

Walker¹,

Cesen-Cummings²,

Houle³

et al. 2001

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Many factors that can modulate the risk of developing uterine leiomyoma have been identified, including parity. Epidemiological data on decreased risk of developing this disease has been subject to different interpretations regarding whether pregnancy per se is protective or, as leiomyomas are a major cause of infertility, women that develop these tumors are less fertile and thus have lower pregnancy rates. We have utilized an animal model genetically predisposed to uterine leiomyoma to investigate the potential protective effect of pregnancy on the risk of developing this disease. Female Eker rats that carry a mutation in the tuberous sclerosis 2 (Tsc-2) tumor suppressor gene develop uterine leiomyoma with a frequency of 65% when nulliparous. These animals were bred with intact or vasectomized males and tumor incidence determined after a single pregnancy (to confirm fertility) or multiple pregnancies over the lifetime of the animals. Females with multiple litters displayed a dramatic shift in tumor incidence and presentation. Tumor incidence decreased from 71% in single litter females to 10% in females that had multiple litters (average: five litters/animal). Interestingly, females bred with vasectomized males also exhibited a reduced tumor incidence of 41%, suggesting that the hormonal changes associated with early stages of pregnancy that occur in pseudopregnant females may have contributed to the protective effect of pregnancy.

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Uterine leiomyomas express myometrial contractile-associated proteins involved in pregnancy-related hormone signaling

Cesen-Cummings¹

2003

Journal of the Society for Gynecologic Investigation

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We used an animal model to study uterine leiomyoma in the context of pregnancy-associated changes in gene expression and to determine how they might modulate tumor growth. Spontaneous tumors and normal myometrium were collected from Eker rats and compared with myometrial samples from pregnant animals. A leiomyoma-derived cell line was also used to assess pregnancy-related changes in gene expression and to determine the impact of signaling by the oxytocin receptor. Eker rat leiomyomas expressed several pregnancy-related genes, including connexin 43, oxytocin receptor (OTR), and cyclooxygenase (COX)-1; however, the tumors did not express COX-2, which is expressed in the parturient myometrium. The leiomyoma-derived cell lines also expressed OTR, which responds to estrogen, binds to oxytocin, and exhibits a calcium flux when stimulated with oxytocin. The OTR signaling mediated by oxytocin inhibited estrogen-stimulated growth of leiomyoma cells. Leiomyoma cells expressed many genes of the parturient myometrium, including OTRs, but were deficient in COX-2 expression. Signaling via the OTR appears to inhibit estrogen-induced cell proliferation, suggesting that signaling by this receptor might help mediate the protective effect of pregnancy on this disease.

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