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Query: UMLS:C0155339 (
Brown
)
12,436
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Chronic treatment of rats with the estrogens 17beta-estradiol or diethylstilbestrol (DES) induces pituitary tumors in Fischer 344 but not
Brown
-Norway or Sprague-Dawley rats. Functional loss of retinoblastoma susceptibility gene product (pRb), a major regulatory protein for the G1 to S transition of the cell cycle, has been shown in several tumors. Here we report a decreased level of pRb in pituitary tumors of the Fischer 344 rat as compared with resistant Sprague Dawley and
Brown
-Norway strains. pRb protein levels decreased 70% in Fischer 344 rats that were treated with diethylstilbestrol for 10 weeks as compared with tumor resistant control animals. Interestingly, the F1 hybrid (Fischer 344 x Norway) showed an intermediate range of pRb protein expression as compared with those of the parental strains. pRb expression levels in nonhemorrhagic F2 (F1 x F1) rats correlated with the size of the tumors. One week withdrawal of DES increased pRb levels as compared with continuously treated rats. Also, there was a decreased association of cyclin D and cyclin dependent kinase in susceptible tumors, supporting the hypothesis of a physical and possibly functional loss of pRb in the diethylstilbestrol-induced
pituitary tumor
. These results suggest that the difference in pRb regulation, whether it is a direct or indirect effect of estrogen, is related to tumor resistance or susceptibility in these two rat strains.
...
PMID:Estrogen-induced rat pituitary tumor is associated with loss of retinoblastoma susceptibility gene product. 1002 66
Estrogens stimulate cell proliferation in a variety of tissues and are widely believed to be contributing factors in the etiology of certain cancer types in humans. The molecular mechanisms through which estrogens regulate cell proliferation are currently unknown. Estrogens stimulate proliferation of the PRL-producing lactotroph of the rat anterior pituitary gland and induce development of PRL-producing pituitary tumors in several inbred rat strains. Therefore, the lactotroph provides a well defined model for identifying the mechanisms through which estrogens regulate cell proliferation and/or survival. Data from our laboratory and others indicate that the relative sensitivity to the pituitary growth-promoting actions of estrogens is highly strain specific. This allows genetics-based approaches to be used to address the molecular mechanisms through which estrogens stimulate lactotroph proliferation and induce
pituitary tumor
development. In the present study we have examined the ability of diethylstilbestrol (DES) to induce pituitary growth in the genetically related AxC-Irish (ACI) and Copenhagen (COP) strains and their derived F1, F2, and backcross progeny. The data presented herein indicate that the anterior pituitary gland of the ACI strain displays approximately a 2-fold greater growth response to administered DES than does the pituitary gland of the COP strain. The average pituitary weight in male ACI rats was increased from 9.2 +/- 0.2 mg (mean +/- SD in untreated rats to 63.7 +/- 12.6 mg in rats treated with DES for 12 weeks, whereas in male COP rats, DES increased pituitary weight from 12.7 +/- 0.9 to 38.1 +/- 8.2 mg. The ACI phenotype was inherited in the F1, F2, and backcross progeny of an ACI x COP intercross as a dominant genetic trait, and the approximately 30 mg of additional pituitary growth displayed by the DES-treated ACI rat, relative to that of the treated COP rat, appeared to result from the actions of a single locus. Moreover, in F1 progeny from an ACI x
Brown
Norway intercross, the ACI phenotype was inherited as a dominant or incompletely dominant genetic trait. These data, when compared with findings of previous studies using the Fischer 344 rat strain, provide the first indication that distinct genetic pathways contribute to regulation of estrogen-induced pituitary growth and induction of PRL-producing pituitary tumors in the ACI and F344 rat strains.
...
PMID:Genetic bases of estrogen-induced pituitary growth in an intercross between the ACI and Copenhagen rat strains: dominant mendelian inheritance of the ACI phenotype. 1034 74
Recently a novel oncogene, PTTG (
pituitary tumor
transforming gene) was isolated from a rat
pituitary tumor
cell line whose expression is apparently correlated with pituitary tumorigenesis. In the rat, estradiol (E(2)) is known to induce anterior pituitary hyperplasia. The effects of E(2), however, vary greatly among rat strains. Therefore we examined the expression of PTTG and its regulation by E(2) in F344, Wistar,
Brown
-Norway and Donryu rats. Four-week-old females were ovariectomized and a pellet containing 10 mg of E(2) was given s.c. Total RNA was isolated from the pituitary gland and PTTG mRNA was measured with a competitive RT-PCR technique. The F344 strain was the most susceptible to E(2) induction of pituitary tumorigenesis, followed by Wistar and
Brown
-Norway, while no increase in pituitary weight was noted in Donryu rats. PTTG mRNA in the gland was induced by E(2) within 48 - 72 h in F344 and Wistar, but not in
Brown
-Norway or Donryu strains. These data suggest that PTTG expression may at least in part be responsible for strain differences in E(2)-induced pituitary tumorigenesis.
...
PMID:Strain difference in regulation of pituitary tumor transforming gene (PTTG) in estrogen-induced pituitary tumorigenesis in rats. 1167 53
Long-term (10-week) treatment of Fischer 344 (F344) rats with the synthetic estrogen diethylstilbestrol (DES) increases the level of vascular endothelial growth factor (VEGF) in the pituitary. This is concurrent with the development of a large tumor of the pituitary of F344 rats. A role for VEGF in estrogen-dependent
pituitary tumor
growth is also supported by the fact that pituitary VEGF level is not increased by estrogen treatment in rats of the tumor-resistant
Brown
Norway (BN) strain. However, VEGF is not increased by estrogen treatment in an F(1) hybrid of F344 and BN, even though F(1) hybrid rats do form pituitary tumors in response to estrogen. Quantitative trait locus (QLT) mapping reveals that control of estrogen-dependent VEGF expression is linked to the Edpm5 QTL, which was previously identified as a QTL for estrogen-dependent
pituitary tumor
growth. In contrast, the QTL Edpm2-1 and Edpm9-2, which have been shown to each have a significant effect on estrogen-dependent pituitary mass of a magnitude similar to Edpm5, do not have any effect on VEGF level. Taken together, our results support the association of VEGF expression with growth of the estrogen-induced rat
pituitary tumor
, as has been reported by others, but they also indicate that there is significant pathways of growth regulation that are independent of high-level VEGF expression.
...
PMID:Estrogen-dependent growth of a rat pituitary tumor involves, but does not require, a high level of vascular endothelial growth factor. 1209 14
Although prolactinomas can be effectively treated with dopamine agonists, about 20% of patients develop dopamine resistance or tumor recurrence after surgery, indicating a need for better understanding of underlying disease mechanisms. Although estrogen-induced rat prolactinomas have been widely used to investigate the development of this tumor, the extent that the model recapitulates features of human prolactinomas is unclear. To prioritize candidate genes and gene sets regulating human and rat prolactinomas, microarray results derived from human prolactinomas and pituitaries of estrogen-treated ACI rats were integrated and analyzed. A total of 4545 differentially expressed pituitary genes were identified in estrogen-treated ACI rats [false discovery rate (FDR) < 0.01]. By comparing pituitary microarray results derived from estrogen-treated
Brown
Norway rats (a strain not sensitive to estrogen), 4073 genes were shown specific to estrogen-treated ACI rats. Human prolactinomas exhibited 1177 differentially expressed genes (FDR < 0.05). Combining microarray data derived from human prolactinoma and pituitaries of estrogen-treated ACI rat, 145 concordantly expressed genes, including E2F1, Myc, Igf1, and CEBPD, were identified. Gene set enrichment analysis revealed that 278 curated pathways and 59 gene sets of transcription factors were enriched (FDR < 25%) in estrogen-treated ACI rats, suggesting a critical role for Myc, E2F1, CEBPD, and Sp1 in this rat prolactinoma. Similarly increased Myc, E2F1, and Sp1 expression was validated using real-time PCR and Western blot in estrogen-treated Fischer rat pituitary glands. In summary, characterization of individual genes and gene sets in human and in estrogen-induced rat prolactinomas validates the model and provides insights into genomic changes associated with this commonly encountered
pituitary tumor
.
...
PMID:Genomic characterization of human and rat prolactinomas. 2263 80
