Marilyn F. Davis scite author profile

Marilyn F. Davis

2Publications

66Citation Statements Received

36Citation Statements Given

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University of Kansas Medical Center

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Ploidy differences between hormone‐ and chemical carcinogen–induced rat mammary neoplasms: Comparison to invasive human ductal breast cancer*

Papa

Davis

et al. 2002

Molecular Carcinogenesis

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To ascertain differences between solely hormone- and chemical carcinogen-induced murine mammary gland tumors (MGTs), a direct comparison of their ploidy status was assessed. Nuclear image cytometry (NIC) was used to evaluate ploidy in ductal carcinoma in situ (DCIS) and MGTs induced solely by 17beta-estradiol (E(2)) in female A-strain Copenhagen Irish hooded gene rats (ACI) and E(2) plus testosterone propionate in male Noble rats. These results were compared to ploidy data from primary MGTs induced by two synthetic carcinogens, 7,12-dimethylbenz[a]antracene and nitrosomethylurea in female Brown Lewis Norway rats and an environmental carcinogen, 6-nitrochrysene, in female Sprague-Dawley rats. Both DCIS and primary MGTs induced solely by hormones were highly aneuploid (> 84%), whereas MGTs induced by either synthetic or environmental carcinogens were primarily diploid (> 85%). Examination of 76 metaphase plates obtained from eight individual E(2)-induced ACI female rat MGTs revealed the following consistent chromosome alterations: gains in chromosomes 7, 11, 12, 13, 19, and 20 and loss of chromosome 12. On Southern blot analysis, six of nine ACI female rat primary E(2)-induced MGTs (66%) exhibited amplified copy numbers (range: 3.4-6.9 copies) of the c-myc gene. Fluorescence in situ hybridization (FISH) analysis of these MGTs revealed specific fluorescent hybridization signals for c-myc (7q33) on all three homologs of a trisomy in chromosome 7. NIC analysis of 140 successive nonfamilial sporadic invasive human ductal breast cancers (BCs) showed an aneuploid frequency of 61%, while 31 DCISs revealed a 71% aneuploid frequency. These results clearly demonstrate that the female ACI rat E(2)-induced MGTs more closely resemble invasive human DCIS and ductal BC in two pertinent aspects: they are highly aneuploid compared with chemical carcinogen-induced MGTs and exhibit a high frequency of c-myc amplification.

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ER and PR in Renomedullary Interstitial Cells During Syrian Hamster Estrogen-Induced Tumorigenesis: Evidence for Receptor-Mediated Oncogenesis

Li¹,

Weroha²,

Davis³

et al. 2001

Endocrinology

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The estrogen-induced and -dependent Syrian hamster renal tumor is the most intensively studied model in estrogen carcinogenesis. Yet, it remains confounding that the kidney of this species behaves as an estrogen target tissue. As both reproductive and urinary systems arise from the same germinal ridge, we propose that some of the germinal cells, normally destined for the uterus, migrate and establish themselves in the renal corticomedullary region in this hamster strain. These ectopically located germinal cells remain dormant unless exposed to estrogen. Supporting this contention, a subset of renal interstitial cells, primarily located in the corticomedullary region, express PR after only 2 wk and ER alpha after 1.5--3.0 months of estrogen treatment. As treatment continues, groups of cells of the renal interstitium and small and large renal tumors show ER alpha(+) and PR(+) staining. Although ER alpha and PR isoform profiles in estrogen-treated hamster kidneys are distinctly different from corresponding uterine patterns, both receptor isoform profiles in primary renal tumors closely resemble those seen in hamster uteri. Renal ER alpha protein and mRNA expression increased after 2.0 and 4.0 months of estrogen treatment and in all renal tumors examined. Using nuclear image cytometry, both early small and large renal tumors were highly aneuploid, indicating that genomic instability is probably a critical early event in estrogen carcinogenesis.

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Marilyn F. Davis

Ploidy differences between hormone‐ and chemical carcinogen–induced rat mammary neoplasms: Comparison to invasive human ductal breast cancer*

ER and PR in Renomedullary Interstitial Cells During Syrian Hamster Estrogen-Induced Tumorigenesis: Evidence for Receptor-Mediated Oncogenesis

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