Homologous organization of cerebellar pathways to sensory, motor, and associative forebrain

Thomas J. Pisano; Zahra M. Dhanerawala; Mikhail Kislin; Dariya Bakshinskaya; Esteban A. Engel; Ethan J. Hansen; Austin T. Hoag; Junuk Lee; Nina L. de Oude; Kannan Umadevi Venkataraju; Jessica L. Verpeut; Freek E. Hoebeek; Ben D. Richardson; Henk Jan Boele; Samuel S.H. Wang

doi:10.1016/j.celrep.2021.109721

Homologous organization of cerebellar pathways to sensory, motor, and associative forebrain

Thomas J. Pisano, Zahra M. Dhanerawala, Mikhail Kislin, Dariya Bakshinskaya, Esteban A. Engel, Ethan J. Hansen, Austin T. Hoag, Junuk Lee, Nina L. de Oude, Kannan Umadevi Venkataraju, Jessica L. Verpeut, Freek E. Hoebeek, Ben D. Richardson, Henk Jan Boele, Samuel S.H. Wang

Research output: Contribution to journal › Article › peer-review

53 Scopus citations

Abstract

Cerebellar outputs take polysynaptic routes to reach the rest of the brain, impeding conventional tracing. Here, we quantify pathways between the cerebellum and forebrain by using transsynaptic tracing viruses and a whole-brain analysis pipeline. With retrograde tracing, we find that most descending paths originate from the somatomotor cortex. Anterograde tracing of ascending paths encompasses most thalamic nuclei, especially ventral posteromedial, lateral posterior, mediodorsal, and reticular nuclei. In the neocortex, sensorimotor regions contain the most labeled neurons, but we find higher densities in associative areas, including orbital, anterior cingulate, prelimbic, and infralimbic cortex. Patterns of ascending expression correlate with c-Fos expression after optogenetic inhibition of Purkinje cells. Our results reveal homologous networks linking single areas of the cerebellar cortex to diverse forebrain targets. We conclude that shared areas of the cerebellum are positioned to provide sensory-motor information to regions implicated in both movement and nonmotor function.

Original language	English (US)
Article number	109721
Journal	Cell Reports
Volume	36
Issue number	12
DOIs	https://doi.org/10.1016/j.celrep.2021.109721
State	Published - Sep 21 2021
Externally published	Yes

Keywords

cerebellocortical
cerebellothalamic
corticocerebellar
herpes simplex
iDISCO
light-sheet microscopy
nonmotor cerebellum
pseudorabies
transsynaptic tracing
whole-brain connectivity

ASJC Scopus subject areas

General Biochemistry, Genetics and Molecular Biology

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10.1016/j.celrep.2021.109721

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Pisano, T. J., Dhanerawala, Z. M., Kislin, M., Bakshinskaya, D., Engel, E. A., Hansen, E. J., Hoag, A. T., Lee, J., de Oude, N. L., Venkataraju, K. U., Verpeut, J. L., Hoebeek, F. E., Richardson, B. D., Boele, H. J., & Wang, S. S. H. (2021). Homologous organization of cerebellar pathways to sensory, motor, and associative forebrain. Cell Reports, 36(12), Article 109721. https://doi.org/10.1016/j.celrep.2021.109721

Pisano, TJ, Dhanerawala, ZM, Kislin, M, Bakshinskaya, D, Engel, EA, Hansen, EJ, Hoag, AT, Lee, J, de Oude, NL, Venkataraju, KU, Verpeut, JL, Hoebeek, FE, Richardson, BD, Boele, HJ & Wang, SSH 2021, 'Homologous organization of cerebellar pathways to sensory, motor, and associative forebrain', Cell Reports, vol. 36, no. 12, 109721. https://doi.org/10.1016/j.celrep.2021.109721

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abstract = "Cerebellar outputs take polysynaptic routes to reach the rest of the brain, impeding conventional tracing. Here, we quantify pathways between the cerebellum and forebrain by using transsynaptic tracing viruses and a whole-brain analysis pipeline. With retrograde tracing, we find that most descending paths originate from the somatomotor cortex. Anterograde tracing of ascending paths encompasses most thalamic nuclei, especially ventral posteromedial, lateral posterior, mediodorsal, and reticular nuclei. In the neocortex, sensorimotor regions contain the most labeled neurons, but we find higher densities in associative areas, including orbital, anterior cingulate, prelimbic, and infralimbic cortex. Patterns of ascending expression correlate with c-Fos expression after optogenetic inhibition of Purkinje cells. Our results reveal homologous networks linking single areas of the cerebellar cortex to diverse forebrain targets. We conclude that shared areas of the cerebellum are positioned to provide sensory-motor information to regions implicated in both movement and nonmotor function.",

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AU - Pisano, Thomas J.

AU - Dhanerawala, Zahra M.

AU - Kislin, Mikhail

AU - Bakshinskaya, Dariya

AU - Engel, Esteban A.

AU - Hansen, Ethan J.

AU - Hoag, Austin T.

AU - Lee, Junuk

AU - de Oude, Nina L.

AU - Venkataraju, Kannan Umadevi

AU - Verpeut, Jessica L.

AU - Hoebeek, Freek E.

AU - Richardson, Ben D.

AU - Boele, Henk Jan

AU - Wang, Samuel S.H.

PY - 2021/9/21

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N2 - Cerebellar outputs take polysynaptic routes to reach the rest of the brain, impeding conventional tracing. Here, we quantify pathways between the cerebellum and forebrain by using transsynaptic tracing viruses and a whole-brain analysis pipeline. With retrograde tracing, we find that most descending paths originate from the somatomotor cortex. Anterograde tracing of ascending paths encompasses most thalamic nuclei, especially ventral posteromedial, lateral posterior, mediodorsal, and reticular nuclei. In the neocortex, sensorimotor regions contain the most labeled neurons, but we find higher densities in associative areas, including orbital, anterior cingulate, prelimbic, and infralimbic cortex. Patterns of ascending expression correlate with c-Fos expression after optogenetic inhibition of Purkinje cells. Our results reveal homologous networks linking single areas of the cerebellar cortex to diverse forebrain targets. We conclude that shared areas of the cerebellum are positioned to provide sensory-motor information to regions implicated in both movement and nonmotor function.

AB - Cerebellar outputs take polysynaptic routes to reach the rest of the brain, impeding conventional tracing. Here, we quantify pathways between the cerebellum and forebrain by using transsynaptic tracing viruses and a whole-brain analysis pipeline. With retrograde tracing, we find that most descending paths originate from the somatomotor cortex. Anterograde tracing of ascending paths encompasses most thalamic nuclei, especially ventral posteromedial, lateral posterior, mediodorsal, and reticular nuclei. In the neocortex, sensorimotor regions contain the most labeled neurons, but we find higher densities in associative areas, including orbital, anterior cingulate, prelimbic, and infralimbic cortex. Patterns of ascending expression correlate with c-Fos expression after optogenetic inhibition of Purkinje cells. Our results reveal homologous networks linking single areas of the cerebellar cortex to diverse forebrain targets. We conclude that shared areas of the cerebellum are positioned to provide sensory-motor information to regions implicated in both movement and nonmotor function.

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KW - cerebellothalamic

KW - corticocerebellar

KW - herpes simplex

KW - iDISCO

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KW - nonmotor cerebellum

KW - pseudorabies

KW - transsynaptic tracing

KW - whole-brain connectivity

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Homologous organization of cerebellar pathways to sensory, motor, and associative forebrain

Abstract

Keywords

ASJC Scopus subject areas

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