Abstract
The promotion of structural and functional plasticity by estrogens is a promising approach to enhance central nervous system function in the aged. However, how the sensitivity to estrogens is regulated across brain regions, age and experience is poorly understood. To ask if estradiol treatment impacts structural and functional plasticity in sensory cortices, we examined the acute effect of 17α-Estradiol in adult Long Evans rats following chronic monocular deprivation, a manipulation that reduces the strength and selectivity of deprived eye vision. Chronic monocular deprivation decreased thalamic input from the deprived eye to the binocular visual cortex and accelerated short-term depression of the deprived eye pathway, but did not change the density of excitatory synapses in primary visual cortex. Importantly, we found that the classical estrogen receptors ERα and ERβ were robustly expressed in the adult visual cortex, and that a single dose of 17α-Estradiol reduced the expression of the calcium-binding protein parvalbumin, decreased the integrity of the extracellular matrix and increased the size of excitatory postsynaptic densities. Furthermore, 17α-Estradiol enhanced experience-dependent plasticity in the amblyopic visual cortex, by promoting response potentiation of the pathway served by the non-deprived eye. The promotion of plasticity at synapses serving the non-deprived eye may reflect selectivity for synapses with an initially low probability of neurotransmitter release, and may inform strategies to remap spared inputs around a scotoma or a cortical infarct.
Highlights
The promotion of structural and functional plasticity by estrogens is a promising approach to enhance central nervous system function in the aged
We examine the distribution of estrogen receptors in the primary visual cortex (V1) of adult male and female Long Evans (LE) rats following chronic monocular deprivation. cMD initiated at eye opening mimics the presence of a unilateral congenital cataract from birth and induces severe amblyopia that is highly resistant to reversal in adulthood[33,34]
CMD significantly decreases the thalamocortical innervation from the deprived contralateral eye, reducing the initial contralateral bias. cMD induced an expansion of the cortical territory innervated by the non-deprived eye into the monocular region of V1 (V1m), as previously observed in felines[47]
Summary
The promotion of structural and functional plasticity by estrogens is a promising approach to enhance central nervous system function in the aged. We found that the classical estrogen receptors ERα and ERβ were robustly expressed in the adult visual cortex, and that a single dose of 17α-Estradiol reduced the expression of the calciumbinding protein parvalbumin, decreased the integrity of the extracellular matrix and increased the size of excitatory postsynaptic densities. 17α-Estradiol enhanced experience-dependent plasticity in the amblyopic visual cortex, by promoting response potentiation of the pathway served by the non-deprived eye. We examine the distribution of estrogen receptors in the primary visual cortex (V1) of adult male and female Long Evans (LE) rats following chronic monocular deprivation (cMD). ΑE2 treatment enhanced experience-dependent plasticity in the amblyopic cortex and promoted stimulus-selective response potentiation selectively in the pathway served by the non-deprived eye
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