A functional cellular framework for sex and estrous cycle-dependent gene expression and behavior
2022
Knoedler, Joseph R. | Inoue, Sayaka | Bayless, Daniel W. | Yang, Taehong | Tantry, Adarsh | Davis, Chung-ha | Leung, Nicole Y. | Parthasarathy, Srinivas | Wang, Grace | Alvarado, Maricruz | Rizvi, Abbas H. | Fenno, Lief E. | Ramakrishnan, Charu | Deisseroth, Karl | Shah, Nirao M.
Sex hormones exert a profound influence on gendered behaviors. How individual sex hormone-responsive neuronal populations regulate diverse sex-typical behaviors is unclear. We performed orthogonal, genetically targeted sequencing of four estrogen receptor 1-expressing (Esr1⁺) populations and identified 1,415 genes expressed differentially between sexes or estrous states. Unique subsets of these genes were distributed across all 137 transcriptomically defined Esr1⁺ cell types, including estrous stage-specific ones, that comprise the four populations. We used differentially expressed genes labeling single Esr1⁺ cell types as entry points to functionally characterize two such cell types, BNSTprᵀᵃᶜ¹/ᴱˢʳ¹ and VMHvlCᶜᵏᵃʳ/ᴱˢʳ¹. We observed that these two cell types, but not the other Esr1⁺ cell types in these populations, are essential for sex recognition in males and mating in females, respectively. Furthermore, VMHvlCᶜᵏᵃʳ/ᴱˢʳ¹ cell type projections are distinct from those of other VMHvlᴱˢʳ¹ cell types. Together, projection and functional specialization of dimorphic cell types enables sex hormone-responsive populations to regulate diverse social behaviors.
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