TY - JOUR
T1 - Astrocyte-derived transforming growth factor-β mediates the neuroprotective effects of 17β-estradiol
T2 - Involvement of nonclassical genomic signaling pathways
AU - Dhandapani, Krishnan M.
AU - Wade, F. Marlene
AU - Mahesh, Virendra B.
AU - Brann, Darrell W.
PY - 2005/6
Y1 - 2005/6
N2 - 17β-Estradiol (E2) and selective estrogen receptor modulators (SERMs), such as tamoxifen, mediate numerous effects in the brain, including neurosecretion, neuroprotection, and the induction of synaptic plasticity. Astrocytes, the most abundant cell type in the brain, influence many of these same functions and thus may represent a mediator of estrogen action. The present study examined the regulatory effect and underlying cell signaling mechanisms of E2-induced release of neurotropic growth factors from primary rat cortical astrocyte cultures. The results revealed that E2 (0.5, 1, and 10 nM) and tamoxifen (1 μM) increased both the expression and release of the nearoprotective cytokines, TGF-β1 and TGF-β2 (TGF-β), from cortical astrocytes. The stimulatory effect of E2 was attenuated by the estrogen receptor (ER) antagonist, ICI182,780, suggesting ER dependency. The effect of E2 also appeared to involve mediation by the phosphotidylinositol 3-kinase (PI3K)/Akt signaling pathway, because E2 rapidly induced Akt phosphorylation, and pharmacological or molecular inhibition of the PI3K/Akt pathway prevented E2-induced release of TGF-β. Additionally, the membrane-impermeant conjugate, E2-BSA, stimulated the release of TGF-β, suggesting the potential involvement of a membrane-bound ER. Finally, E2, tamoxifen, and E2-BSA were shown to protect neuronal-astrocyte cocultures from camptothecin-induced neuronal cell death, effects that were attenuated by ICI182,780, Akt inhibition, or TGF-β immunoneutralization. As a whole, these studies suggest that E2 induction of TGF-β release from cortical astrocytes could provide a mechanism of neuroprotection, and that E2 stimulation of TGF-β expression and release from astrocytes occurs via an ER-dependent mechanism involving mediation by the PI3K/Akt signaling pathway.
AB - 17β-Estradiol (E2) and selective estrogen receptor modulators (SERMs), such as tamoxifen, mediate numerous effects in the brain, including neurosecretion, neuroprotection, and the induction of synaptic plasticity. Astrocytes, the most abundant cell type in the brain, influence many of these same functions and thus may represent a mediator of estrogen action. The present study examined the regulatory effect and underlying cell signaling mechanisms of E2-induced release of neurotropic growth factors from primary rat cortical astrocyte cultures. The results revealed that E2 (0.5, 1, and 10 nM) and tamoxifen (1 μM) increased both the expression and release of the nearoprotective cytokines, TGF-β1 and TGF-β2 (TGF-β), from cortical astrocytes. The stimulatory effect of E2 was attenuated by the estrogen receptor (ER) antagonist, ICI182,780, suggesting ER dependency. The effect of E2 also appeared to involve mediation by the phosphotidylinositol 3-kinase (PI3K)/Akt signaling pathway, because E2 rapidly induced Akt phosphorylation, and pharmacological or molecular inhibition of the PI3K/Akt pathway prevented E2-induced release of TGF-β. Additionally, the membrane-impermeant conjugate, E2-BSA, stimulated the release of TGF-β, suggesting the potential involvement of a membrane-bound ER. Finally, E2, tamoxifen, and E2-BSA were shown to protect neuronal-astrocyte cocultures from camptothecin-induced neuronal cell death, effects that were attenuated by ICI182,780, Akt inhibition, or TGF-β immunoneutralization. As a whole, these studies suggest that E2 induction of TGF-β release from cortical astrocytes could provide a mechanism of neuroprotection, and that E2 stimulation of TGF-β expression and release from astrocytes occurs via an ER-dependent mechanism involving mediation by the PI3K/Akt signaling pathway.
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U2 - 10.1210/en.2005-0014
DO - 10.1210/en.2005-0014
M3 - Article
C2 - 15746252
AN - SCOPUS:18844376360
SN - 0013-7227
VL - 146
SP - 2749
EP - 2759
JO - Endocrinology
JF - Endocrinology
IS - 6
ER -