The role of the Peyer's patch in carcinogenesis. II. 3-Methylcholanthrene-induced lymphoid malignancies in rat Peyer's patches

Bost, Kenneth L.; Garrett, Lenora R.; Cuchens, Marvin A.

doi:10.1093/carcin/7.8.1257

Cited by 19 publications

(22 citation statements)

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“…Thus, although pristane clearly induces a granulomatous substratum which appears to be a factor in the growth of hybridoma cells as ascites [2], there is also the possibility that ascites develop as a result of the effects of pristane on genomic activity. And second, pristane has a marked effect on the frequency and type of B lymphoid malignancies induced in 3-MC treated, Copenhagen rats [17]. In that the length of exposure to pristane pre-or post-3-MC treatment appears to be an important factor in the induction process (unpublished observation), we are currently examining the possibility that there is a correlation between the effects of pristane on the DNA of lymphoid cells and the susceptibility of the cells to the ultimate carcinogenic metabolites of 3-MC.…”

Section: Discussionmentioning

confidence: 95%

“…Furthermore, recent studies in our laboratory indicate that pristane facilitates the induction of lymphoid malignancies in rats. Specifically, whereas pristane or 3-methylcholanthrene (3-MC; a carcinogenic polycyclic aromatic hydrocarbon) treatments alone induced no malignancies or a low frequency of lymphoid malignancies, respectively, lymphoid leukemias and lymphomas were observed in > 40% of rats treated with both pristane and 3-MC [17]. The possible role of pristane in the aforementioned carcinogenic events may be attributable to one or more indirect effects; e.g., immunodepression [12], formation of a substratum for growth [2] and/or induction of presumed growth factors [3].…”

Section: Introductionmentioning

confidence: 99%

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Changes in the DNA of lymphocytes from pristance treated rats

et al. 1987

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The effects of pristane (2,6,10,14-tetramethylpentadecane) on the cellular DNA of lymphoid cells from Copenhagen rats were examined by flow cytometry. Significant reductions in the mean relative fluorescent intensities of propidium iodide (PI) stained lymphocytes from peripheral blood, spleen, thymus and lymph nodes were observed after a single intraperitoneal injection of pristane. The altered PI staining characteristics were observed as early as 4 days and reached a maximum decrease between 1-4 weeks (depending upon the lymphoid cells examined) post pristane treatment. The pristane-induced effects on peripheral blood lymphocytes were observed to be dose dependent, transient and reinducible by a subsequent exposure to pristane. Further analyses, using gas-liquid chromatography to detect pristane in the blood and lymphoid tissues of treated rats, indicated significant increases over normal amounts of pristane. Furthermore, correlations existed between the times of maximum decrease in the fluorescence of PI stained cells and the amounts of pristane detected within the respective lymphoid tissues. By contrast no changes in the PI staining characteristics of kidney cells were observed, even though appreciable amounts of pristane were detected in this organ. Diphenylamine analyses indicated no differences in the amounts of DNA in lymphoid cells from pristane treated and untreated rats. Furthermore, lymphocytes from pristane-treated rats did not exhibit decreased fluorescence when fixed at pH 10 rather than pH 7.4 prior to PI staining. Collectively these results suggest that pristane may preferentially induce qualitative rather than quantitative changes in the DNA of lymphocytes.

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Section: Discussionmentioning

confidence: 95%

Section: Introductionmentioning

confidence: 99%

Changes in the DNA of lymphocytes from pristance treated rats

et al. 1987

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“…Since pristane facilitates the development of 3-methylcholanthrene initiated malignancies in rats but does not have a carcinogenic effect alone, it can function as a tumor ]promoter [3]. Pristane can also induce plasmacytomas in BALB/c mice [4][5][6], enhance ascites formation in mice transplanted with hybridomas [5], and will induce viral plasmacytomas in mice [7].…”

Section: Introductionmentioning

confidence: 99%

The tumor promoter pristane activates transcription by a cAMP dependent mechanism

1992

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Pristane is a naturally occurring isoprenoid which is believed to be derived from the phytyl moiety of chlorophyll. Thus it is not surprising that pristane is present in many common fruits or vegetables and furthermore can be detected in tissues of fish and mammals. Using the rat as an animal model, pristane can function as a potent tumor promoter. It is conceivable that pristane could play a role in the development of certain malignancies in higher mammals since it is commonly found in the diet. At the molecular level, pristane can induce changes in the plasma membrane, alter the conformation of chromatin, as well as selectively activate gene expression. This study was undertaken to identify specific transcriptional motifs which are responsive to pristane. A transcriptional promoter which contained a cAMP response element (CRE) was consistently stimulated by pristane in several mouse and primate cell lines. A promoter construct which contained a single copy of the TPA response element (TRE) was also activated by pristane but surprisingly a promoter which contained multiple copies of the TRE was not. Activation of the TRE required 10 fold higher concentrations of pristane relative to activation of the CRE. Within two hours after addition of pristane to monkey fibroblasts (CV-1) levels of cAMP were increased more than two fold relative to controls. These data indicated that pristane can increase the level of cAMP in CV-1 cells and consequently stimulate transcriptional promoters which contain a CRE.

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“…Furthermore, studies in our laboratory indicate that pristane also affects the incidence of lymphoid malignancies induced by the potent car( gen 3-methylcholanthrene (3-MC 3) [13] and p~ erentially alters the propidium iodide staining characteristics of chromatin in lymphoid cells isolated from pristane treated rats and mice [14,15]. In light of the numerous biological effects attributed to pristane, it is of particular interest to note that appreciable amounts of pristane are present in common fruits and vegetables (manuscript submitted).…”

Section: Introductionmentioning

confidence: 99%

Dietary effects of pristane on rat lymphoid tissues

Garrett

Chung²,

Byers

et al. 1989

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Studies were conducted to assess the normal tissue-associated levels of pristane (2,6,10,14,-tetramethylpentadecane) in Copenhagen rats during ontogeny and adult life and to address whether or not dietary pristane can be adsorbed from the gut and disseminated throughout the body. During the course of this study the possible effects of dietary pristane on chromatin conformation of lymphoid cells were also examined by flow cytometry. The data indicated that 1) pristane crossed the placenta and accumulated in fetal tissues, 2) neonates were exposed to pristane via the colostrum, 3) there were significant increases in the amount of tissue-associated pristane in young adults and subsequent redistribution of the pristane to the muscle and adipose tissues in older rats and 4) after dietary exposure, significantly elevated levels of pristane were associated with the tissues and concomitant changes in chromatin conformation were observed. Collectively, these results suggest that pristane was adsorbed from dietary sources, disseminated to the tissues and exerted a transient, yet marked effect on chromatin of lymphoid cells in rats.

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The role of the Peyer's patch in carcinogenesis. II. 3-Methylcholanthrene-induced lymphoid malignancies in rat Peyer's patches

Cited by 19 publications

References 0 publications

Changes in the DNA of lymphocytes from pristance treated rats

Changes in the DNA of lymphocytes from pristance treated rats

The tumor promoter pristane activates transcription by a cAMP dependent mechanism

Dietary effects of pristane on rat lymphoid tissues

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