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Review
. 2024 Mar;291(6):1080-1101.
doi: 10.1111/febs.16714. Epub 2023 Jan 18.

Environmental experiences shape sexually dimorphic neuronal circuits and behaviour

Sonu Peedikayil-Kurien  1 Hagar Setty  1 Meital Oren-Suissa  1
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Free article
Review

Environmental experiences shape sexually dimorphic neuronal circuits and behaviour

Sonu Peedikayil-Kurien et al. FEBS J. 2024 Mar.
Free article

Abstract

Dimorphic traits, shaped by both natural and sexual selection, ensure optimal fitness and survival of the organism. This includes neuronal circuits that are largely affected by different experiences and environmental conditions. Recent evidence suggests that sexual dimorphism of neuronal circuits extends to different levels such as neuronal activity, connectivity and molecular topography that manifest in response to various experiences, including chemical exposures, starvation and stress. In this review, we propose some common principles that govern experience-dependent sexually dimorphic circuits in both vertebrate and invertebrate organisms. While sexually dimorphic neuronal circuits are predetermined, they have to maintain a certain level of fluidity to be adaptive to different experiences. The first layer of dimorphism is at the level of the neuronal circuit, which appears to be dictated by sex-biased transcription factors. This could subsequently lead to differences in the second layer of regulation namely connectivity and synaptic properties. The third regulator of experience-dependent responses is the receptor level, where dimorphic expression patterns determine the primary sensory encoding. We also highlight missing pieces in this field and propose future directions that can shed light onto novel aspects of sexual dimorphism with potential benefits to sex-specific therapeutic approaches. Thus, sexual identity and experience simultaneously determine behaviours that ultimately result in the maximal survival success.

Keywords: behaviour; experience; neuronal circuits; plasticity; sexual dimorphism.

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