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  • Differential expression of estrogen receptor mRNA splice variants in the tamoxifen resistant human breast cancer cell line, MCF-7/TAMR-1 compared to the parental MCF-7 cell line.

Differential expression of estrogen receptor mRNA splice variants in the tamoxifen resistant human breast cancer cell line, MCF-7/TAMR-1 compared to the parental MCF-7 cell line.

Molecular and cellular endocrinology (1995-04-01)
M W Madsen, B E Reiter, A E Lykkesfeldt
ABSTRACT

Breast cancer patients with an estrogen receptor (ER) positive tumor can be treated with the anti-estrogen tamoxifen, but development of anti-estrogen resistance is a serious problem. We have analyzed a tamoxifen resistant human breast cancer cell line MCF-7/TAMR-1 for alterations in ER which might explain the tamoxifen resistance. The MCF-7/TAMR-1 cells expressed both wild-type ER mRNA and protein, and by RT-PCR we were able to clone ER cDNAs corresponding to the following mRNA splice variants: ER delta E2, ER delta E4, ER delta E5, ER delta E7 and a new double splice variant lacking both exon 4 and 7 (ER delta E4,7) The existence of the ER delta E4,7 variant was confirmed by RNase protection assay. Semi-quantitative RT-PCR revealed that ER delta E2 mRNA was expressed at a higher level in MCF-7/TAMR-1 cells, whereas the ER delta E5 mRNA was expressed at a significantly lower level in MCF-7/TAMR-1 cells compared with MCF-7 cells. The differential expression of the two ER mRNA splice variants indicates that they may be involved in anti-estrogen resistance, although the present knowledge of their biological function does not provide us with an explanation.

MATERIALS
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Product Description

Sigma-Aldrich
MCF-7/TAMR-1 Human Breast Cancer Cell Line, MCF-7/TAMR-1 is a tamoxifen-resistant cell line derived from the MCF-7/S0.5 human breast cancer cell line by long term treatment with the drug tamoxifen.
Sigma-Aldrich
MCF-7/S0.5 Human Breast Cancer Cell Line, MCF-7/S0.5 is a tamoxifen-sensitive cell line established from the MCF-7 human breast cancer cell line by adaption to growth in low serum conditions.