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or ß1
Center Milano Molecular Pharmacology Lab, Institute of Pharmacological Sciences, University of Milan (C.P., G.P., E.V., A.M.), 20133 Milan, Italy; Departments of Medical Nutrition and Biosciences, Karolinska Institute, Novum, Huddinge University Hospital (E.E., J.-A.G.), SM186 Huddinge, Sweden; and Cell Adhesion Unit, Department of Biological and Technological Research, San Raffaele Scientific Institute (I.d.C.), 20132, Milan, Italy
Address all correspondence and requests for reprints to: Dr. Adriana Maggi, Center MPL, Institute of Pharmacological Sciences, Via Balzaretti 9, I-20133 Milan, Italy. E-mail: adriana.maggi{at}unimi.it
Estrogens are female sex steroids that have a plethora of effects on a
wide range of tissues. These effects are mediated through two well
characterized intracellular receptors: estrogen receptor 
and ß
(ER and ERß, respectively). Because of their high structural
homology, it has been argued whether these two receptors may elicit
differential biochemical events in estrogen target cells. Here we
examine the effect of 17ß-estradiol-dependent activation of ER and
ERß on neurite sprouting, a well known consequence of this sex
hormone action in neural cells. In SK-N-BE neuroblastoma cells
transfected with ER or ERß, 17ß-estradiol induces two distinct
morphological phenotypes. ER activation results in increased length
and number of neurites, whereas ERß activation modulates only neurite
elongation. By the use of chimeric receptors we demonstrate that the
presence of both transcription activation functions located in the
NH2-terminus and COOH-terminus of the two ER proteins are
necessary for maintaining the differential biological activity
reported. ER-dependent, but not ERß-dependent, morphological
changes are observed only in the presence of the active form of the
small G protein Rac1B.
Our data provide the first clear evidence that, in a given target cell,
ER and ERß may play distinct biological roles and support the
hypothesis that 17ß-estradiol activates selected intracellular
signaling pathways depending on the receptor subtype bound.
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