Coordinate roles for LIM homeobox genes in directing the dorsoventral trajectory of motor axons in the vertebrate limb

Artur Kania; Randy L. Johnson; Thomas M. Jessell

doi:10.1016/S0092-8674(00)00022-2

Coordinate roles for LIM homeobox genes in directing the dorsoventral trajectory of motor axons in the vertebrate limb

Artur Kania, Randy L. Johnson, Thomas M. Jessell

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

253 Scopus citations

Abstract

Motor neurons extend axons along specific trajectories, but the molecules that control their pathfinding remain poorly defined. We show that two LIM homeodomain transcription factors, Lim1 and Lmx1b, control the initial trajectory of motor axons in the developing mammalian limb. The expression of Lim1 by a lateral set of lateral motor column (LMC) neurons ensures that their axons select a dorsal trajectory in the limb. In a complementary manner, the expression of Lmx1b by dorsal limb mesenchymal cells controls the dorsal and ventral axonal trajectories of medial and lateral LMC neurons. In the absence of these two proteins, motor axons appear to select dorsal and ventral trajectories at random. Thus, LIM homeodomain proteins act within motor neurons and cells that guide motor axons to establish the fidelity of a binary choice in axonal trajectory.

Original language	English (US)
Pages (from-to)	161-173
Number of pages	13
Journal	Cell
Volume	102
Issue number	2
DOIs	https://doi.org/10.1016/S0092-8674(00)00022-2
State	Published - Jul 21 2000

ASJC Scopus subject areas

General Biochemistry, Genetics and Molecular Biology

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10.1016/S0092-8674(00)00022-2

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title = "Coordinate roles for LIM homeobox genes in directing the dorsoventral trajectory of motor axons in the vertebrate limb",

abstract = "Motor neurons extend axons along specific trajectories, but the molecules that control their pathfinding remain poorly defined. We show that two LIM homeodomain transcription factors, Lim1 and Lmx1b, control the initial trajectory of motor axons in the developing mammalian limb. The expression of Lim1 by a lateral set of lateral motor column (LMC) neurons ensures that their axons select a dorsal trajectory in the limb. In a complementary manner, the expression of Lmx1b by dorsal limb mesenchymal cells controls the dorsal and ventral axonal trajectories of medial and lateral LMC neurons. In the absence of these two proteins, motor axons appear to select dorsal and ventral trajectories at random. Thus, LIM homeodomain proteins act within motor neurons and cells that guide motor axons to establish the fidelity of a binary choice in axonal trajectory.",

author = "Artur Kania and Johnson, {Randy L.} and Jessell, {Thomas M.}",

note = "Funding Information: We thank B. Han and M. Mendelsohn for ES cell culture and blastocyst injections, S. Brenner-Morton for antibody generation, N. Henggeler for technical assistance, R. Behringer and W. Shawlot for Lim1 genomic clones and Lim1 Δ mice, and F. Helmbacher and P. Charnay for sharing results. We thank R. Axel, R. Behringer, J. deNooij, O. Hobert, E. Laufer, K. Lee, S. Pfaff, S. Price, and S. Sockanathan for comments on the manuscript and K. MacArthur for help in its preparation. A. K. is an HHMI Research Associate. R. J. and T. M. J. are supported by grants from the NIH. T. M. J. is an HHMI Investigator.",

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doi = "10.1016/S0092-8674(00)00022-2",

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AU - Kania, Artur

AU - Johnson, Randy L.

AU - Jessell, Thomas M.

N1 - Funding Information: We thank B. Han and M. Mendelsohn for ES cell culture and blastocyst injections, S. Brenner-Morton for antibody generation, N. Henggeler for technical assistance, R. Behringer and W. Shawlot for Lim1 genomic clones and Lim1 Δ mice, and F. Helmbacher and P. Charnay for sharing results. We thank R. Axel, R. Behringer, J. deNooij, O. Hobert, E. Laufer, K. Lee, S. Pfaff, S. Price, and S. Sockanathan for comments on the manuscript and K. MacArthur for help in its preparation. A. K. is an HHMI Research Associate. R. J. and T. M. J. are supported by grants from the NIH. T. M. J. is an HHMI Investigator.

PY - 2000/7/21

Y1 - 2000/7/21

N2 - Motor neurons extend axons along specific trajectories, but the molecules that control their pathfinding remain poorly defined. We show that two LIM homeodomain transcription factors, Lim1 and Lmx1b, control the initial trajectory of motor axons in the developing mammalian limb. The expression of Lim1 by a lateral set of lateral motor column (LMC) neurons ensures that their axons select a dorsal trajectory in the limb. In a complementary manner, the expression of Lmx1b by dorsal limb mesenchymal cells controls the dorsal and ventral axonal trajectories of medial and lateral LMC neurons. In the absence of these two proteins, motor axons appear to select dorsal and ventral trajectories at random. Thus, LIM homeodomain proteins act within motor neurons and cells that guide motor axons to establish the fidelity of a binary choice in axonal trajectory.

AB - Motor neurons extend axons along specific trajectories, but the molecules that control their pathfinding remain poorly defined. We show that two LIM homeodomain transcription factors, Lim1 and Lmx1b, control the initial trajectory of motor axons in the developing mammalian limb. The expression of Lim1 by a lateral set of lateral motor column (LMC) neurons ensures that their axons select a dorsal trajectory in the limb. In a complementary manner, the expression of Lmx1b by dorsal limb mesenchymal cells controls the dorsal and ventral axonal trajectories of medial and lateral LMC neurons. In the absence of these two proteins, motor axons appear to select dorsal and ventral trajectories at random. Thus, LIM homeodomain proteins act within motor neurons and cells that guide motor axons to establish the fidelity of a binary choice in axonal trajectory.

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Coordinate roles for LIM homeobox genes in directing the dorsoventral trajectory of motor axons in the vertebrate limb

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