Abstract
The vestibulo-ocular reflex (VOR) adaptation is an ideal model for investigating how the neurosteroid 17 beta-estradiol (E2) contributes to the modification of behavior by regulating synaptic activities. We hypothesized that E2 impacts VOR adaptation by affecting cerebellar synaptic plasticity at the parallel fiber–Purkinje cell (PF) synapse. To verify this hypothesis, we investigated the acute effect of blocking E2 synthesis on gain increases and decreases in adaptation of the VOR in male rats using an oral dose (2.5 mg/kg) of the aromatase inhibitor letrozole. We also assessed the effect of letrozole on synaptic plasticity at the PF synapse in vitro, using cerebellar slices from male rats. We found that letrozole acutely impaired both gain increases and decreases adaptation of the VOR without altering basal ocular-motor performance. Moreover, letrozole prevented long-term potentiation at the PF synapse (PF-LTP) without affecting long-term depression (PF-LTD). Thus, in male rats neurosteroid E2 has a relevant impact on VOR adaptation and affects exclusively PF-LTP. These findings suggest that E2 might regulate changes in VOR adaptation by acting locally on cerebellar and extra-cerebellar synaptic plasticity sites.
Highlights
Neural networks rely on multiple mechanisms to make the diverse forms of plasticity that underlie adaptive behavior and learning possible
To verify whether neurosteroid E2 can influence the vestibulo-ocular reflex (VOR) adaptation, we acutely blocked the synthesis of E2 with LTZ in 16 male rats and investigated the effect on the induction of VOR adaptive changes
The experiments presented in this study show that in male rats the neurosteroid E2 has a relevant impact on the expression of VOR adaptation and regulates cerebellar synaptic plasticity affecting parallel fiber–Purkinje cell (PF)-long-term potentiation (LTP)
Summary
Neural networks rely on multiple mechanisms to make the diverse forms of plasticity that underlie adaptive behavior and learning possible. Mounting evidence suggests that neurosteroid 17 beta-estradiol (E2) might regulate behavioral processes by influencing spine density, synaptogenesis and long-term potentiation (LTP) (Foy et al 1999; Woolley and McEwen 1994; Xu and Zhang 2006). It is well known that E2 may rapidly influence neuronal activity through fast nongenomic mechanisms involving specific E2 membrane receptors (ERs: ERα, ERβ and GPER) (Morissette et al 2008; Mukai et al 2007, 2010; Raz et al 2008; Woolley 2007). Local E2 is a region-specific neurosteroid and can play an important role in modulating neuronal activity due to its ability to rapidly reach higher concentrations than the gonadal hormone (Hojo et al 2009; Mukai et al 2010)
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