effect of 17-? estradiol on the expression of inducible nitric oxide synthase in parent and tamoxifen resistant t47d breast cancer cells
Authors
abstract
indirect evidence suggests that estrogen is involved in the etiology of breast cancer. estrogen is also thought to modulate nitric oxide (no) in human breast tumor tissue via regulation of inducible nitric oxide synthase (inos). objectives of this study were to determine whether estradiol (e2) affects inos expression level in breast cancer cells and to study the effect of various concentrations of e2 on cell proliferation. immunocytochemical technique was employed to assess inos expression level. proliferation of parent and 10-6 m tamoxifen resistant cells (t47d/tamr-6) were assessed by mtt assay in the presence of e2. addition of e2 (10-12 to 10-8 m) increases the expression of inos in parent cells, but not t47d/tamr-6, further increase in concentrations of e2 (10-8 to 10-4 m) again decreases the expression of inos in parent cells, but increase that of the t47d/tamr-6 cells. expression of inos in parent cells in a medium containing 1% serum (low serum) is less than the cells grown in a medium containing 10% fbs (normal serum). this trend was not seen in t47d/tamr-6 cells. the results of these experiments may indicate that increasing of inos expression decreases the viability of parent cells whilst increasing the number of t47d/tamr-6.
similar resources
Effect of 17-? Estradiol on the Expression of Inducible Nitric oxide Synthase in Parent and Tamoxifen Resistant T47D Breast Cancer Cells
Indirect evidence suggests that estrogen is involved in the etiology of breast cancer. Estrogen is also thought to modulate nitric oxide (NO) in human breast tumor tissue via regulation of inducible nitric oxide synthase (iNOS). Objectives of this study were to determine whether estradiol (E2) affects iNOS expression level in breast cancer cells and to study the effect of various concentrations...
full textEffect of 17-? Estradiol on the Expression of Inducible Nitric oxide Synthase in Parent and Tamoxifen Resistant T47D Breast Cancer Cells
Indirect evidence suggests that estrogen is involved in the etiology of breast cancer. Estrogen is also thought to modulate nitric oxide (NO) in human breast tumor tissue via regulation of inducible nitric oxide synthase (iNOS). Objectives of this study were to determine whether estradiol (E2) affects iNOS expression level in breast cancer cells and to study the effect of various concentrations...
full textAntiproliferative effects of flavonoid fractions from Calendula officinalis flowers in parent and tamoxifen resistant T47D human breast cancer cells
The risk of human breast cancer is concerned to cumulative exposure of the breast cells to endogenous estrogens. Strategies aiming at reducing the production of estrogens may be useful for the prevention of estrogens-related breast cancer. Several natural products with plant origin have the potential value as chemo-preventive or therapeutic agents in cancer. Flavonoids, the natural polyphenol c...
full textAntiproliferative effects of flavonoid fractions from Calendula officinalis flowers in parent and tamoxifen resistant T47D human breast cancer cells
The risk of human breast cancer is concerned to cumulative exposure of the breast cells to endogenous estrogens. Strategies aiming at reducing the production of estrogens may be useful for the prevention of estrogens-related breast cancer. Several natural products with plant origin have the potential value as chemo-preventive or therapeutic agents in cancer. Flavonoids, the natural polyphenol c...
full textEffects of Flavonoid Fractions from Calendula officinalis Flowers in Parent and Tamoxifen Resistant T47D Human Breast Cancer Cells
Three major flavonoid fractions were separated from a methanol extract of Calendula officinalis flowers by preparative TLC. These fractions were evaluated for the inhibition of parent and tamoxifen resistant T47D human breast cancer cells. We also examined the effect of ...
full textEXPRESSION OF INDUCIBLE NITRIC OXIDE SYNTHASE GENE (iNOS) STIMULATED BY HYDROGEN PEROXIDE IN HUMAN ENDOTHELIAL CELLS
Inducible nitric oxide synthase (iNOS) gene expresses a calcium calmudolin-independent enzyme which can catalyse NO production from L-arginine. The induction of iNOS activity has been demonstrated in a wide variety of cell types under stimulation with cytokines and lipopoly saccharide (LPS). Previous studies indicated that all nitric oxide synthases (NOS) activated in human umbilical vein endot...
full textMy Resources
Save resource for easier access later
Journal title:
iranian journal of pharmaceutical researchجلد ۲۰۰۹، شماره ۴، صفحات ۱۲۵-۱۳۳
Hosted on Doprax cloud platform doprax.com
copyright © 2015-2023