KNAW Repository

In vivo activation of gene transcription via oestrogen response elements by a raloxifene analogue

Engdahl, C. and Jochems, C. and Gustafsson, J.A. and Saag van der, P.T. and Carlsten, H. and Lagerquist, M. K. (2009) In vivo activation of gene transcription via oestrogen response elements by a raloxifene analogue. Journal of Endocrinology, 203, 349-56. ISSN 1479-6805.

Full text not available from this repository.

Official URL:


Raloxifene is a selective oestrogen receptor modulator with tissue-specific effects. The mechanisms behind the effects of raloxifene are partly unclear, and the aim of the present study was to investigate whether raloxifene can activate the classical oestrogen-signalling pathway in vivo in three known oestrogen-responsive organs, uterus (reproductive organ), bone (non-reproductive organ) and thymus (immune organ). For this purpose, we have used reporter mice with a luciferase gene under control of oestrogen-responsive elements (EREs), enabling detection of in vivo activation of gene transcription via the classical oestrogen pathway. Three-month-old ovariectomized ERE-luciferase mice were treated with the raloxifene analogue (LY117018), oestradiol (OE(2)) or vehicle for 3 weeks. Luciferase activation was measured in bone, uterus and thymus, and compared to bone parameters, and uterus and thymus weights. The raloxifene analogue affected bone mineral density (BMD) to the same extent as OE(2), and both treatments resulted in increased luciferase activity in bone. As expected, OE(2) treatment resulted in increased uterus weight and increased uterine luciferase activity, while the effect of LY117018 on uterus weight and luciferase activity was modest and significantly lower than the effect of OE(2). LY117018 and OE(2) treatment resulted in similar luciferase activation in thymus. However, only OE(2) treatment resulted in thymic atrophy, while no effect on thymus weight was seen after LY117018 treatment. In summary, the raloxifene analogue LY117018 can activate the classical oestrogen pathway in bone, uterus and thymus in vivo, and this activation is associated with BMD and uterus weight, but not thymus weight.

Item Type:Article
Institutes:Hubrecht Instituut
ID Code:6982
Deposited On:25 Jan 2010 01:00
Last Modified:13 Oct 2010 12:51

Repository Staff Only: item control page