The Neurotoxic Effects of Estrogen on Ischemic Stroke in Older Female Rats Is Associated with Age-Dependent Loss of Insulin-Like Growth Factor-1

Effects of estrogen and concurrent JB-1 treatment on infarct size in mature adult females. MCAo induced by ET-1 injections resulted in cortical and striatal lesions as indicated by TTC-stained sections (A). The volume of the cortical infarct was significantly reduced in the estrogen-treated mature adult females (E) compared with the control-replaced females (O), whereas JB-1 treatment reversed this effect. Neither estrogen nor JB-1 affected striatal infarct volume. Histogram depicts mean ± SEM of cortical (B) and striatal (C) infarct volume as a ratio of the contralateral cortex and striatum, respectively. n = 4–6 in each group; *p < 0.05.

Effects of estrogen and concurrent IGF-1 treatment on infarct size in reproductive senescent females. MCAo induced by ET-1 injections resulted in cortical and striatal infarcts, as indicated by the TTC staining (A). The volume of the cortical infarct was significantly greater in the estrogen-treated reproductive senescent females (E) compared with the control-replaced females (O). Intracerebroventricular infusion of IGF-1 concurrent with the onset of ischemia attenuated infarct size (a, main effect of IGF-1, p < 0.05). Planned comparisons indicate that cortical infarct size is reduced in the E+IGF-1 group compared with the E+Veh, but is equivalent to the O+Veh group. Neither estrogen nor IGF-1 had any effect on striatal infarct volume. Histogram depicts mean ± SEM of cortical (B) and striatal (C) infarct volume as a ratio of the contralateral cortex and striatum, respectively. n = 4–6 in each group.

Effect of estrogen and delayed IGF-1 treatment on infarct size in reproductive senescent females. A, TTC-stained sections from the brain of animals subject to ischemic stroke induced by ET-1 injections. Cortical infarct volume was significantly greater in estrogen-treated reproductive senescent females (E) compared with the control-replaced females (O). Intracerebroventricular infusion of IGF-1 4 h after ischemia (delayed IGF-1) reduced cortical infarct volume (a, main effect of IGF-1, p < 0.05). There was a significant interaction effect of E+IGF-1 (c, interaction effect, p < 0.05). Planned comparisons indicate that the cortical infarct volume was significantly reduced in the E+IGF-1 group compared with all other groups including E+Veh and the O+Veh. No effect of estrogen or delayed IGF-1 was seen on striatal infarct volume. B, C, Histogram depicts mean ± SEM of cortical (B) and striatal (C) infarct volume as a ratio of the contralateral cortex and striatum, respectively. n = 4–7 in each group.

IGF-1 expression in the cortex and striatum of reproductive senescent females. A, IGF-1 was infused 4 h after the onset of ischemia and was measured 24 h later. Intracerebroventricular infusions of IGF-1 significantly increased peptide accumulation in the cortex, but not in the striatum. B, Endogenous levels of IGF-1 levels were increased in the ischemic cortex compared with the nonischemic (right) hemisphere (a, main effect of hemisphere, repeated measure, p < 0.05), whereas estrogen-treated animals had lower levels of IGF-1 (b, main effect of estrogen, p < 0.05). No significant differences were observed in the striatum. *p < 0.05. Error bars indicate SEM.

Western blot analysis of phospho- and pan-ERK expression in cortical lysates from the ischemic and nonischemic hemispheres of reproductive senescent females. Although pERK-1 expression (normalized to ERK-1) was elevated in the ischemic hemisphere in most treatment groups, estrogen treatment combined with delayed IGF-1 infusion suppressed ischemia-induced ERK-1 activation (a, interaction effect of hemisphere, estrogen, IGF-1). n = 3–4 per group. Error bars indicate SEM.

PGE₂ expression in the ischemic and nonischemic cortex. PGE₂ levels were measured by ELISA and normalized to total protein. At 24 h after MCAo, PGE₂ levels were modestly elevated in the ischemic cortex (a, main effect of hemisphere, repeated measure, p < 0.05). The levels of PGE₂ were highest in the group that received estrogen and IGF-1 (c, interaction effect of E+IGF-1, p < 0.05). At 7 d after MCAo, PGE₂ levels were elevated in the ischemic cortex of all groups (p < 0.05, main effect of hemisphere, repeated measure) to a similar extent. n = 4–6 per group. Error bars indicate SEM.

Western blot analysis of 2,4-DNP-modified proteins in ischemic cortical lysates from senescent animals treated with estrogen or control pellet and later treated intracerebroventricularly with either IGF-1 or vehicle 4 h after ischemia. Proteins were derivatized by incubating tissue lysates with 2,4-dinitrophenylhydrazine. Immunosignal for 2,4-DNP proteins normalized to a loading control (tubulin) was significantly decreased in groups that received IGF-1 infusion (a, main effect of IGF-1, p < 0.05). The bracket indicates the region in each lane that was quantitated by densitometry. n = 3 per group. Error bars indicate SEM.