Genetic access to neurons in the accessory optic system reveals a role for Sema6A in midbrain circuitry mediating motion perception

Brendan N. Lilley; Shai Sabbah; John L. Hunyara; Katherine D. Gribble; Timour Al-Khindi; Jiali Xiong; Zhuhao Wu; David M. Berson; Alex L. Kolodkin

doi:10.1002/cne.24507

Genetic access to neurons in the accessory optic system reveals a role for Sema6A in midbrain circuitry mediating motion perception

Brendan N. Lilley, Shai Sabbah, John L. Hunyara, Katherine D. Gribble, Timour Al-Khindi, Jiali Xiong, Zhuhao Wu, David M. Berson, Alex L. Kolodkin

School of Medicine

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

6 Scopus citations

Abstract

The accessory optic system (AOS) detects retinal image slip and reports it to the oculomotor system for reflexive image stabilization. Here, we characterize two Cre lines that permit genetic access to AOS circuits responding to vertical motion. The first (Pcdh9-Cre) labels only one of the four subtypes of ON direction-selective retinal ganglion cells (ON-DS RGCs), those preferring ventral retinal motion. Their axons diverge from the optic tract just behind the chiasm and selectively innervate the medial terminal nucleus (MTN) of the AOS. Unlike most RGC subtypes examined, they survive after optic nerve crush. The second Cre-driver line (Pdzk1ip1-Cre) labels postsynaptic neurons in the MTN. These project predominantly to the other major terminal nucleus of the AOS, the nucleus of the optic tract (NOT). We find that the transmembrane protein semaphorin 6A (Sema6A) is required for the formation of axonal projections from the MTN to the NOT, just as it is for the retinal innervation of the MTN. These new tools permit manipulation of specific circuits in the AOS and show that Sema6A is required for establishing AOS connections in multiple locations.

Original language	English (US)
Pages (from-to)	282-296
Number of pages	15
Journal	Journal of Comparative Neurology
Volume	527
Issue number	1
DOIs	https://doi.org/10.1002/cne.24507
State	Published - Jan 1 2019

Keywords

Accessory optic system
Medial terminal nucleus
Retinal ganglion cells
Sema6A

ASJC Scopus subject areas

General Neuroscience

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10.1002/cne.24507

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@article{3640130ed411458b940437603a223af3,

title = "Genetic access to neurons in the accessory optic system reveals a role for Sema6A in midbrain circuitry mediating motion perception",

abstract = "The accessory optic system (AOS) detects retinal image slip and reports it to the oculomotor system for reflexive image stabilization. Here, we characterize two Cre lines that permit genetic access to AOS circuits responding to vertical motion. The first (Pcdh9-Cre) labels only one of the four subtypes of ON direction-selective retinal ganglion cells (ON-DS RGCs), those preferring ventral retinal motion. Their axons diverge from the optic tract just behind the chiasm and selectively innervate the medial terminal nucleus (MTN) of the AOS. Unlike most RGC subtypes examined, they survive after optic nerve crush. The second Cre-driver line (Pdzk1ip1-Cre) labels postsynaptic neurons in the MTN. These project predominantly to the other major terminal nucleus of the AOS, the nucleus of the optic tract (NOT). We find that the transmembrane protein semaphorin 6A (Sema6A) is required for the formation of axonal projections from the MTN to the NOT, just as it is for the retinal innervation of the MTN. These new tools permit manipulation of specific circuits in the AOS and show that Sema6A is required for establishing AOS connections in multiple locations.",

keywords = "Accessory optic system, Medial terminal nucleus, Retinal ganglion cells, Sema6A",

author = "Lilley, {Brendan N.} and Shai Sabbah and Hunyara, {John L.} and Gribble, {Katherine D.} and Timour Al-Khindi and Jiali Xiong and Zhuhao Wu and Berson, {David M.} and Kolodkin, {Alex L.}",

note = "Funding Information: information: National Eye Institute, Grant/Award Number: R01-EY027713; Howard Hughes Medical Institute; National Institute of Neurological Disorders and Stroke, Grant/Award Number: P30-NS050274We thank the viral vector core facilities of the University of North Carolina and HHMI Janelia Research Campus for providing reagents, the Mutant Mouse Resource and Research Center for providing mouse lines, the Johns Hopkins NINDS Center for Neuroscience Research (5P30-NS050274) Murine Mutagenesis Core and Multiphoton Imaging Core facilities, and the Johns Hopkins Integrated Imaging Center for technical assistance, and members of the Kolodkin laboratory for helpful suggestions. This work was supported by NIH R01-EY027713 (A.L.K.). A.L.K. is an Investigator of the Howard Hughes Medical Institute. Publisher Copyright: {\textcopyright} 2018 Wiley Periodicals, Inc.",

year = "2019",

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doi = "10.1002/cne.24507",

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AU - Lilley, Brendan N.

AU - Sabbah, Shai

AU - Hunyara, John L.

AU - Gribble, Katherine D.

AU - Al-Khindi, Timour

AU - Xiong, Jiali

AU - Wu, Zhuhao

AU - Berson, David M.

AU - Kolodkin, Alex L.

N1 - Funding Information: information: National Eye Institute, Grant/Award Number: R01-EY027713; Howard Hughes Medical Institute; National Institute of Neurological Disorders and Stroke, Grant/Award Number: P30-NS050274We thank the viral vector core facilities of the University of North Carolina and HHMI Janelia Research Campus for providing reagents, the Mutant Mouse Resource and Research Center for providing mouse lines, the Johns Hopkins NINDS Center for Neuroscience Research (5P30-NS050274) Murine Mutagenesis Core and Multiphoton Imaging Core facilities, and the Johns Hopkins Integrated Imaging Center for technical assistance, and members of the Kolodkin laboratory for helpful suggestions. This work was supported by NIH R01-EY027713 (A.L.K.). A.L.K. is an Investigator of the Howard Hughes Medical Institute. Publisher Copyright: © 2018 Wiley Periodicals, Inc.

PY - 2019/1/1

Y1 - 2019/1/1

N2 - The accessory optic system (AOS) detects retinal image slip and reports it to the oculomotor system for reflexive image stabilization. Here, we characterize two Cre lines that permit genetic access to AOS circuits responding to vertical motion. The first (Pcdh9-Cre) labels only one of the four subtypes of ON direction-selective retinal ganglion cells (ON-DS RGCs), those preferring ventral retinal motion. Their axons diverge from the optic tract just behind the chiasm and selectively innervate the medial terminal nucleus (MTN) of the AOS. Unlike most RGC subtypes examined, they survive after optic nerve crush. The second Cre-driver line (Pdzk1ip1-Cre) labels postsynaptic neurons in the MTN. These project predominantly to the other major terminal nucleus of the AOS, the nucleus of the optic tract (NOT). We find that the transmembrane protein semaphorin 6A (Sema6A) is required for the formation of axonal projections from the MTN to the NOT, just as it is for the retinal innervation of the MTN. These new tools permit manipulation of specific circuits in the AOS and show that Sema6A is required for establishing AOS connections in multiple locations.

AB - The accessory optic system (AOS) detects retinal image slip and reports it to the oculomotor system for reflexive image stabilization. Here, we characterize two Cre lines that permit genetic access to AOS circuits responding to vertical motion. The first (Pcdh9-Cre) labels only one of the four subtypes of ON direction-selective retinal ganglion cells (ON-DS RGCs), those preferring ventral retinal motion. Their axons diverge from the optic tract just behind the chiasm and selectively innervate the medial terminal nucleus (MTN) of the AOS. Unlike most RGC subtypes examined, they survive after optic nerve crush. The second Cre-driver line (Pdzk1ip1-Cre) labels postsynaptic neurons in the MTN. These project predominantly to the other major terminal nucleus of the AOS, the nucleus of the optic tract (NOT). We find that the transmembrane protein semaphorin 6A (Sema6A) is required for the formation of axonal projections from the MTN to the NOT, just as it is for the retinal innervation of the MTN. These new tools permit manipulation of specific circuits in the AOS and show that Sema6A is required for establishing AOS connections in multiple locations.

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KW - Medial terminal nucleus

KW - Retinal ganglion cells

KW - Sema6A

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Genetic access to neurons in the accessory optic system reveals a role for Sema6A in midbrain circuitry mediating motion perception

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