4C), amygdala (F(3–16) = 2.451; find more p = 0.10 Fig. 4C) and hippocampus (F(3–13) = 10.168; p = 0.001 Fig. 4C) with imipramine at the dose of 30 mg/kg and in the amygdala (F(3–14) = 10.512; p = 0.001 Fig. 4C) with all treatments, but did not alter in the prefrontal cortex (F(3–15) = 4.175; p > 0.05 Fig. 4C) and in the hippocampus
(F(3–13) = 10.168; p > 0.05 Fig. 4C). The acute administration increased MK-2206 manufacturer the mitochondrial complex IV activity in the hippocampus (F(3–13) = 18.471; p < 0,001 Fig. 4D) with all treatments, compared with saline, but did not alter in the prefrontal cortex (F(3–12) = 0.828; p = 0.50 Fig. 4D) and amygdala (F(3–11) = 4,514; p = 0,27 Fig. 4D). The chronic treatment did not alter the mitochondrial complex IV activity in the prefrontal cortex (F(3–13) = 0.689; p = 0.57 Fig. 4D), amygdala (F(3–16) = 3.666; p = 0.35 Fig. 4D) or hippocampus (F(3–11) = 2.317; p = 0.13 Fig. 4D). The acute treatment decreased the Bcl-2 protein levels in the
prefrontal cortex (F(3–12) = 106.818; p < 0,001 Fig. 5A) and in the hippocampus (F(3–12) = 265,226; p < 0,001 Fig. 5A) with imipramine at the dose of 30 mg/kg and lamotrigine at the dose of 20 mg/kg, and also in the amygdala (F(3–12) = 87.304; p < 0.001 Fig. 5A) with all treatments, compared with saline. The chronic treatment decreased the Bcl-2 protein levels in the prefrontal cortex (F(3–12) = 310.093; p < 0.001 Fig. 5A), amygdala (F(3–12) = 238.818; p < 0.001
Fig. 5A) and hippocampus (F(3–12) = 557.669; p < 0.001 Fig. 5A) with all treatments. The acute treatment Rutecarpine increased the AKT protein levels in the prefrontal cortex (F(3–12) = 49.088; p = 0.000 Fig. 5B) with imipramine at the dose of 30 mg/kg, in the amygdala (F(3–12) = 70.335; p < 0.001 Fig. 5B) with lamotrigine at the dose of 20 mg/kg and in the hippocampus (F(3–12) = 21.011; p = 0.009 Fig. 5B), with imipramine at the dose of 30 mg/kg and with lamotrigine at the dose of 20 mg/kg, compared with saline. The acute treatment also decreased the AKT protein levels in the amygdala with imipramine at the dose of 30 mg/kg (F(3–12) = 70.335; p = 0.04 Fig. 5B) and in the hippocampus with lamotrigine at the dose of 10 mg/kg (F(3–12) = 21.011; p = 0.04 Fig. 5B). The chronic treatment increased the AKT protein levels in the prefrontal cortex (F(3–12) = 121.938; p < 0,001 Fig. 5B), amygdala (F(3–12) = 83.853; p < 0.001 Fig. 5A) and hippocampus (F(3–12) = 58.262; p < 0,001 Fig. 5B) after all treatments. The acute treatment decreased the GSK-3 protein levels in the prefrontal cortex with imipramine at the dose of 30 mg/kg and lamotrigine at the dose of 20 mg/kg (F(3–12) = 126.185; p < 0.001 Fig.