Comparative connectomics of Drosophila descending and ascending neurons

Tomke Stürner; Paul Brooks; Laia Serratosa Capdevila; Billy J. Morris; Alexandre Javier; Siqi Fang; Marina Gkantia; Sebastian Cachero; Isabella R. Beckett; Elizabeth C. Marin; Philipp Schlegel; Andrew S. Champion; Ilina Moitra; Alana Richards; Finja Klemm; Leonie Kugel; Shigehiro Namiki; Han S.J. Cheong; Julie Kovalyak; Emily Tenshaw; Ruchi Parekh; Jasper S. Phelps; Brandon Mark; Sven Dorkenwald; Alexander S. Bates; Arie Matsliah; Szi Chieh Yu; Claire E. McKellar; Amy Sterling; H. Sebastian Seung; Mala Murthy; John C. Tuthill; Wei Chung Allen Lee; Gwyneth M. Card; Marta Costa; Gregory S.X.E. Jefferis; Katharina Eichler

doi:10.1038/s41586-025-08925-z

Comparative connectomics of Drosophila descending and ascending neurons

Tomke Stürner, Paul Brooks, Laia Serratosa Capdevila, Billy J. Morris, Alexandre Javier, Siqi Fang, Marina Gkantia, Sebastian Cachero, Isabella R. Beckett, Elizabeth C. Marin, Philipp Schlegel, Andrew S. Champion, Ilina Moitra, Alana Richards, Finja Klemm, Leonie Kugel, Shigehiro Namiki, Han S.J. Cheong, Julie Kovalyak, Emily TenshawRuchi Parekh, Jasper S. Phelps, Brandon Mark, Sven Dorkenwald, Alexander S. Bates, Arie Matsliah, Szi Chieh Yu, Claire E. McKellar, Amy Sterling, H. Sebastian Seung, Mala Murthy, John C. Tuthill, Wei Chung Allen Lee, Gwyneth M. Card, Marta Costa, Gregory S.X.E. Jefferis, Katharina Eichler

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Abstract

In most complex nervous systems there is a clear anatomical separation between the nerve cord, which contains most of the final motor outputs necessary for behaviour, and the brain. In insects, the neck connective is both a physical and an information bottleneck connecting the brain and the ventral nerve cord (an analogue of the spinal cord) and comprises diverse populations of descending neurons (DNs), ascending neurons (ANs) and sensory ascending neurons, which are crucial for sensorimotor signalling and control. Here, by integrating three separate electron microscopy (EM) datasets^{1, 2, 3–4}, we provide a complete connectomic description of the ANs and DNs of the Drosophila female nervous system and compare them with neurons of the male nerve cord. Proofread neuronal reconstructions are matched across hemispheres, datasets and sexes. Crucially, we also match 51% of DN cell types to light-level data⁵ defining specific driver lines, as well as classifying all ascending populations. We use these results to reveal the anatomical and circuit logic of neck connective neurons. We observe connected chains of DNs and ANs spanning the neck, which may subserve motor sequences. We provide a complete description of sexually dimorphic DN and AN populations, with detailed analyses of selected circuits for reproductive behaviours, including male courtship⁶ (DNa12; also known as aSP22) and song production⁷ (AN neurons from hemilineage 08B) and female ovipositor extrusion⁸ (DNp13). Our work provides EM-level circuit analyses that span the entire central nervous system of an adult animal.

Original language	English (US)
Journal	Nature
DOIs	https://doi.org/10.1038/s41586-025-08925-z
State	Accepted/In press - 2025

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Stürner, T., Brooks, P., Serratosa Capdevila, L., Morris, B. J., Javier, A., Fang, S., Gkantia, M., Cachero, S., Beckett, I. R., Marin, E. C., Schlegel, P., Champion, A. S., Moitra, I., Richards, A., Klemm, F., Kugel, L., Namiki, S., Cheong, H. S. J., Kovalyak, J., ... Eichler, K. (Accepted/In press). Comparative connectomics of Drosophila descending and ascending neurons. Nature. https://doi.org/10.1038/s41586-025-08925-z

@article{ce49e26dcdc149e29c94ec59529b5614,

title = "Comparative connectomics of Drosophila descending and ascending neurons",

abstract = "In most complex nervous systems there is a clear anatomical separation between the nerve cord, which contains most of the final motor outputs necessary for behaviour, and the brain. In insects, the neck connective is both a physical and an information bottleneck connecting the brain and the ventral nerve cord (an analogue of the spinal cord) and comprises diverse populations of descending neurons (DNs), ascending neurons (ANs) and sensory ascending neurons, which are crucial for sensorimotor signalling and control. Here, by integrating three separate electron microscopy (EM) datasets1, 2, 3–4, we provide a complete connectomic description of the ANs and DNs of the Drosophila female nervous system and compare them with neurons of the male nerve cord. Proofread neuronal reconstructions are matched across hemispheres, datasets and sexes. Crucially, we also match 51% of DN cell types to light-level data5 defining specific driver lines, as well as classifying all ascending populations. We use these results to reveal the anatomical and circuit logic of neck connective neurons. We observe connected chains of DNs and ANs spanning the neck, which may subserve motor sequences. We provide a complete description of sexually dimorphic DN and AN populations, with detailed analyses of selected circuits for reproductive behaviours, including male courtship6 (DNa12; also known as aSP22) and song production7 (AN neurons from hemilineage 08B) and female ovipositor extrusion8 (DNp13). Our work provides EM-level circuit analyses that span the entire central nervous system of an adult animal.",

author = "Tomke St{\"u}rner and Paul Brooks and {Serratosa Capdevila}, Laia and Morris, {Billy J.} and Alexandre Javier and Siqi Fang and Marina Gkantia and Sebastian Cachero and Beckett, {Isabella R.} and Marin, {Elizabeth C.} and Philipp Schlegel and Champion, {Andrew S.} and Ilina Moitra and Alana Richards and Finja Klemm and Leonie Kugel and Shigehiro Namiki and Cheong, {Han S.J.} and Julie Kovalyak and Emily Tenshaw and Ruchi Parekh and Phelps, {Jasper S.} and Brandon Mark and Sven Dorkenwald and Bates, {Alexander S.} and Arie Matsliah and Yu, {Szi Chieh} and McKellar, {Claire E.} and Amy Sterling and Seung, {H. Sebastian} and Mala Murthy and Tuthill, {John C.} and Lee, {Wei Chung Allen} and Card, {Gwyneth M.} and Marta Costa and Jefferis, {Gregory S.X.E.} and Katharina Eichler",

note = "Publisher Copyright: {\textcopyright} The Author(s) 2025.",

year = "2025",

doi = "10.1038/s41586-025-08925-z",

language = "English (US)",

journal = "Nature",

issn = "0028-0836",

publisher = "Nature Research",

}

Stürner, T, Brooks, P, Serratosa Capdevila, L, Morris, BJ, Javier, A, Fang, S, Gkantia, M, Cachero, S, Beckett, IR, Marin, EC, Schlegel, P, Champion, AS, Moitra, I, Richards, A, Klemm, F, Kugel, L, Namiki, S, Cheong, HSJ, Kovalyak, J, Tenshaw, E, Parekh, R, Phelps, JS, Mark, B, Dorkenwald, S, Bates, AS, Matsliah, A, Yu, SC, McKellar, CE, Sterling, A, Seung, HS, Murthy, M, Tuthill, JC, Lee, WCA, Card, GM, Costa, M, Jefferis, GSXE & Eichler, K 2025, 'Comparative connectomics of Drosophila descending and ascending neurons', Nature. https://doi.org/10.1038/s41586-025-08925-z

TY - JOUR

T1 - Comparative connectomics of Drosophila descending and ascending neurons

AU - Stürner, Tomke

AU - Brooks, Paul

AU - Serratosa Capdevila, Laia

AU - Morris, Billy J.

AU - Javier, Alexandre

AU - Fang, Siqi

AU - Gkantia, Marina

AU - Cachero, Sebastian

AU - Beckett, Isabella R.

AU - Marin, Elizabeth C.

AU - Schlegel, Philipp

AU - Champion, Andrew S.

AU - Moitra, Ilina

AU - Richards, Alana

AU - Klemm, Finja

AU - Kugel, Leonie

AU - Namiki, Shigehiro

AU - Cheong, Han S.J.

AU - Kovalyak, Julie

AU - Tenshaw, Emily

AU - Parekh, Ruchi

AU - Phelps, Jasper S.

AU - Mark, Brandon

AU - Dorkenwald, Sven

AU - Bates, Alexander S.

AU - Matsliah, Arie

AU - Yu, Szi Chieh

AU - McKellar, Claire E.

AU - Sterling, Amy

AU - Seung, H. Sebastian

AU - Murthy, Mala

AU - Tuthill, John C.

AU - Lee, Wei Chung Allen

AU - Card, Gwyneth M.

AU - Costa, Marta

AU - Jefferis, Gregory S.X.E.

AU - Eichler, Katharina

PY - 2025

Y1 - 2025

N2 - In most complex nervous systems there is a clear anatomical separation between the nerve cord, which contains most of the final motor outputs necessary for behaviour, and the brain. In insects, the neck connective is both a physical and an information bottleneck connecting the brain and the ventral nerve cord (an analogue of the spinal cord) and comprises diverse populations of descending neurons (DNs), ascending neurons (ANs) and sensory ascending neurons, which are crucial for sensorimotor signalling and control. Here, by integrating three separate electron microscopy (EM) datasets1, 2, 3–4, we provide a complete connectomic description of the ANs and DNs of the Drosophila female nervous system and compare them with neurons of the male nerve cord. Proofread neuronal reconstructions are matched across hemispheres, datasets and sexes. Crucially, we also match 51% of DN cell types to light-level data5 defining specific driver lines, as well as classifying all ascending populations. We use these results to reveal the anatomical and circuit logic of neck connective neurons. We observe connected chains of DNs and ANs spanning the neck, which may subserve motor sequences. We provide a complete description of sexually dimorphic DN and AN populations, with detailed analyses of selected circuits for reproductive behaviours, including male courtship6 (DNa12; also known as aSP22) and song production7 (AN neurons from hemilineage 08B) and female ovipositor extrusion8 (DNp13). Our work provides EM-level circuit analyses that span the entire central nervous system of an adult animal.

AB - In most complex nervous systems there is a clear anatomical separation between the nerve cord, which contains most of the final motor outputs necessary for behaviour, and the brain. In insects, the neck connective is both a physical and an information bottleneck connecting the brain and the ventral nerve cord (an analogue of the spinal cord) and comprises diverse populations of descending neurons (DNs), ascending neurons (ANs) and sensory ascending neurons, which are crucial for sensorimotor signalling and control. Here, by integrating three separate electron microscopy (EM) datasets1, 2, 3–4, we provide a complete connectomic description of the ANs and DNs of the Drosophila female nervous system and compare them with neurons of the male nerve cord. Proofread neuronal reconstructions are matched across hemispheres, datasets and sexes. Crucially, we also match 51% of DN cell types to light-level data5 defining specific driver lines, as well as classifying all ascending populations. We use these results to reveal the anatomical and circuit logic of neck connective neurons. We observe connected chains of DNs and ANs spanning the neck, which may subserve motor sequences. We provide a complete description of sexually dimorphic DN and AN populations, with detailed analyses of selected circuits for reproductive behaviours, including male courtship6 (DNa12; also known as aSP22) and song production7 (AN neurons from hemilineage 08B) and female ovipositor extrusion8 (DNp13). Our work provides EM-level circuit analyses that span the entire central nervous system of an adult animal.

UR - http://www.scopus.com/inward/record.url?scp=105003957674&partnerID=8YFLogxK

UR - http://www.scopus.com/inward/citedby.url?scp=105003957674&partnerID=8YFLogxK

U2 - 10.1038/s41586-025-08925-z

DO - 10.1038/s41586-025-08925-z

M3 - Article

AN - SCOPUS:105003957674

SN - 0028-0836

JO - Nature

JF - Nature

ER -

Comparative connectomics of Drosophila descending and ascending neurons

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