Distinct subtypes of proprioceptive dorsal root ganglion neurons regulate adaptive proprioception in mice

Haohao Wu; Charles Petitpré; Paula Fontanet; Anil Sharma; Carmelo Bellardita; Rolen M Quadros; Paulo R Jannig; Yiqiao Wang; J Alexander Heimel; Kylie K Y Cheung; Simone Wanderoy; Yang Xuan; Konstantinos Meletis; Jorge Ruas; Channabasavaiah B Gurumurthy; Ole Kiehn; Saida Hadjab; François Lallemend

doi:10.1038/s41467-021-21173-9

Distinct subtypes of proprioceptive dorsal root ganglion neurons regulate adaptive proprioception in mice

Haohao Wu, Charles Petitpré, Paula Fontanet, Anil Sharma, Carmelo Bellardita, Rolen M Quadros, Paulo R Jannig, Yiqiao Wang, J Alexander Heimel, Kylie K Y Cheung, Simone Wanderoy, Yang Xuan, Konstantinos Meletis, Jorge Ruas, Channabasavaiah B Gurumurthy, Ole Kiehn, Saida Hadjab, François Lallemend

Integrative Neuroscience

Publikation: Bidrag til tidsskrift › Tidsskriftartikel › Forskning › peer review

44 Citationer (Scopus)

46 Downloads (Pure)

Abstract

Proprioceptive neurons (PNs) are essential for the proper execution of all our movements by providing muscle sensory feedback to the central motor network. Here, using deep single cell RNAseq of adult PNs coupled with virus and genetic tracings, we molecularly identify three main types of PNs (Ia, Ib and II) and find that they segregate into eight distinct subgroups. Our data unveil a highly sophisticated organization of PNs into discrete sensory input channels with distinct spatial distribution, innervation patterns and molecular profiles. Altogether, these features contribute to finely regulate proprioception during complex motor behavior. Moreover, while Ib- and II-PN subtypes are specified around birth, Ia-PN subtypes diversify later in life along with increased motor activity. We also show Ia-PNs plasticity following exercise training, suggesting Ia-PNs are important players in adaptive proprioceptive function in adult mice.

Originalsprog	Engelsk
Artikelnummer	1026
Tidsskrift	Nature Communications
Vol/bind	12
Udgave nummer	1
Antal sider	13
ISSN	2041-1723
DOI	https://doi.org/10.1038/s41467-021-21173-9
Status	Udgivet - 2021

Adgang til dokumentet

10.1038/s41467-021-21173-9Licens: CC BY

Distinct subtypes of proprioceptive dorsal root ganglion neurons regulate adaptive proprioception in miceForlagets udgivne version, 5,11 MBLicens: CC BY

Citationsformater

Wu, H., Petitpré, C., Fontanet, P., Sharma, A., Bellardita, C., Quadros, R. M., Jannig, P. R., Wang, Y., Heimel, J. A., Cheung, K. K. Y., Wanderoy, S., Xuan, Y., Meletis, K., Ruas, J., Gurumurthy, C. B., Kiehn, O., Hadjab, S., & Lallemend, F. (2021). Distinct subtypes of proprioceptive dorsal root ganglion neurons regulate adaptive proprioception in mice. Nature Communications, 12(1), [1026]. https://doi.org/10.1038/s41467-021-21173-9

Distinct subtypes of proprioceptive dorsal root ganglion neurons regulate adaptive proprioception in mice. / Wu, Haohao; Petitpré, Charles; Fontanet, Paula; Sharma, Anil; Bellardita, Carmelo; Quadros, Rolen M; Jannig, Paulo R; Wang, Yiqiao; Heimel, J Alexander; Cheung, Kylie K Y; Wanderoy, Simone; Xuan, Yang; Meletis, Konstantinos; Ruas, Jorge; Gurumurthy, Channabasavaiah B; Kiehn, Ole; Hadjab, Saida; Lallemend, François.

I: Nature Communications, Bind 12, Nr. 1, 1026, 2021.

Publikation: Bidrag til tidsskrift › Tidsskriftartikel › Forskning › peer review

Wu, H, Petitpré, C, Fontanet, P, Sharma, A, Bellardita, C, Quadros, RM, Jannig, PR, Wang, Y, Heimel, JA, Cheung, KKY, Wanderoy, S, Xuan, Y, Meletis, K, Ruas, J, Gurumurthy, CB, Kiehn, O, Hadjab, S & Lallemend, F 2021, 'Distinct subtypes of proprioceptive dorsal root ganglion neurons regulate adaptive proprioception in mice', Nature Communications, bind 12, nr. 1, 1026. https://doi.org/10.1038/s41467-021-21173-9

Wu, Haohao ; Petitpré, Charles ; Fontanet, Paula ; Sharma, Anil ; Bellardita, Carmelo ; Quadros, Rolen M ; Jannig, Paulo R ; Wang, Yiqiao ; Heimel, J Alexander ; Cheung, Kylie K Y ; Wanderoy, Simone ; Xuan, Yang ; Meletis, Konstantinos ; Ruas, Jorge ; Gurumurthy, Channabasavaiah B ; Kiehn, Ole ; Hadjab, Saida ; Lallemend, François. / Distinct subtypes of proprioceptive dorsal root ganglion neurons regulate adaptive proprioception in mice. I: Nature Communications. 2021 ; Bind 12, Nr. 1.

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abstract = "Proprioceptive neurons (PNs) are essential for the proper execution of all our movements by providing muscle sensory feedback to the central motor network. Here, using deep single cell RNAseq of adult PNs coupled with virus and genetic tracings, we molecularly identify three main types of PNs (Ia, Ib and II) and find that they segregate into eight distinct subgroups. Our data unveil a highly sophisticated organization of PNs into discrete sensory input channels with distinct spatial distribution, innervation patterns and molecular profiles. Altogether, these features contribute to finely regulate proprioception during complex motor behavior. Moreover, while Ib- and II-PN subtypes are specified around birth, Ia-PN subtypes diversify later in life along with increased motor activity. We also show Ia-PNs plasticity following exercise training, suggesting Ia-PNs are important players in adaptive proprioceptive function in adult mice.",

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AU - Fontanet, Paula

AU - Sharma, Anil

AU - Bellardita, Carmelo

AU - Quadros, Rolen M

AU - Jannig, Paulo R

AU - Wang, Yiqiao

AU - Heimel, J Alexander

AU - Cheung, Kylie K Y

AU - Wanderoy, Simone

AU - Xuan, Yang

AU - Meletis, Konstantinos

AU - Ruas, Jorge

AU - Gurumurthy, Channabasavaiah B

AU - Kiehn, Ole

AU - Hadjab, Saida

AU - Lallemend, François

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N2 - Proprioceptive neurons (PNs) are essential for the proper execution of all our movements by providing muscle sensory feedback to the central motor network. Here, using deep single cell RNAseq of adult PNs coupled with virus and genetic tracings, we molecularly identify three main types of PNs (Ia, Ib and II) and find that they segregate into eight distinct subgroups. Our data unveil a highly sophisticated organization of PNs into discrete sensory input channels with distinct spatial distribution, innervation patterns and molecular profiles. Altogether, these features contribute to finely regulate proprioception during complex motor behavior. Moreover, while Ib- and II-PN subtypes are specified around birth, Ia-PN subtypes diversify later in life along with increased motor activity. We also show Ia-PNs plasticity following exercise training, suggesting Ia-PNs are important players in adaptive proprioceptive function in adult mice.

AB - Proprioceptive neurons (PNs) are essential for the proper execution of all our movements by providing muscle sensory feedback to the central motor network. Here, using deep single cell RNAseq of adult PNs coupled with virus and genetic tracings, we molecularly identify three main types of PNs (Ia, Ib and II) and find that they segregate into eight distinct subgroups. Our data unveil a highly sophisticated organization of PNs into discrete sensory input channels with distinct spatial distribution, innervation patterns and molecular profiles. Altogether, these features contribute to finely regulate proprioception during complex motor behavior. Moreover, while Ib- and II-PN subtypes are specified around birth, Ia-PN subtypes diversify later in life along with increased motor activity. We also show Ia-PNs plasticity following exercise training, suggesting Ia-PNs are important players in adaptive proprioceptive function in adult mice.

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