The Runx3 transcription factor regulates development and survival of TrkC dorsal root ganglia neurons

Ditsa Levanon; David Bettoun; Catherine Harris-Cerruti; Eilon Woolf; Varda Negreanu; Raya Eilam; Yael Bernstein; Dalia Goldenberg; Cuiying Xiao; Manfred Fliegauf; Eitan Kremer; Florian Otto; Ori Brenner; Aharon Lev-Tov; Yoram Groner

doi:10.1093/emboj/cdf370

The Runx3 transcription factor regulates development and survival of TrkC dorsal root ganglia neurons

Ditsa Levanon, David Bettoun, Catherine Harris-Cerruti, Eilon Woolf, Varda Negreanu, Raya Eilam, Yael Bernstein, Dalia Goldenberg, Cuiying Xiao, Manfred Fliegauf, Eitan Kremer, Florian Otto, Ori Brenner, Aharon Lev-Tov, Yoram Groner

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386 Scopus citations

Abstract

The RUNX transcription factors are important regulators of linage-specific gene expression in major developmental pathways. Recently, we demonstrated that Runx3 is highly expressed in developing cranial and dorsal root ganglia (DRGs). Here we report that within the DRGs, Runx3 is specifically expressed in a subset of neurons, the tyrosine kinase receptor C (TrkC) proprioceptive neurons. We show that Runx3-deficient mice develop severe limb ataxia due to disruption of monosynaptic connectivity between intraspinal afferents and motoneurons. We demonstrate that the underlying cause of the defect is a loss of DRG proprioceptive neurons, reflected by a decreased number of TrkC-, parvalbumin- and β-galactosidase-positive cells. Thus, Runx3 is a neurogenic TrkC neuron-specific transcription factor. In its absence, TrkC neurons in the DRG do not survive long enough to extend their axons toward target cells, resulting in lack of connectivity and ataxia. The data provide new genetic insights into the neurogenesis of DRGs and may help elucidate the molecular mechanisms underlying somatosensory-related ataxia in humans.

Original language	English
Pages (from-to)	3454-3463
Number of pages	10
Journal	EMBO Journal
Volume	21
Issue number	13
DOIs	https://doi.org/10.1093/emboj/cdf370
State	Published - 1 Jul 2002
Externally published	Yes

Keywords

Knockout mice
Runx1-TrkA
Sensory ataxia
Stretch reflex arc
Trigeminal ganglia

UN SDGs

This output contributes to the following UN Sustainable Development Goals (SDGs)

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10.1093/emboj/cdf370

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Levanon, D., Bettoun, D., Harris-Cerruti, C., Woolf, E., Negreanu, V., Eilam, R., Bernstein, Y., Goldenberg, D., Xiao, C., Fliegauf, M., Kremer, E., Otto, F., Brenner, O., Lev-Tov, A., & Groner, Y. (2002). The Runx3 transcription factor regulates development and survival of TrkC dorsal root ganglia neurons. EMBO Journal, 21(13), 3454-3463. https://doi.org/10.1093/emboj/cdf370

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title = "The Runx3 transcription factor regulates development and survival of TrkC dorsal root ganglia neurons",

abstract = "The RUNX transcription factors are important regulators of linage-specific gene expression in major developmental pathways. Recently, we demonstrated that Runx3 is highly expressed in developing cranial and dorsal root ganglia (DRGs). Here we report that within the DRGs, Runx3 is specifically expressed in a subset of neurons, the tyrosine kinase receptor C (TrkC) proprioceptive neurons. We show that Runx3-deficient mice develop severe limb ataxia due to disruption of monosynaptic connectivity between intraspinal afferents and motoneurons. We demonstrate that the underlying cause of the defect is a loss of DRG proprioceptive neurons, reflected by a decreased number of TrkC-, parvalbumin- and β-galactosidase-positive cells. Thus, Runx3 is a neurogenic TrkC neuron-specific transcription factor. In its absence, TrkC neurons in the DRG do not survive long enough to extend their axons toward target cells, resulting in lack of connectivity and ataxia. The data provide new genetic insights into the neurogenesis of DRGs and may help elucidate the molecular mechanisms underlying somatosensory-related ataxia in humans.",

keywords = "Knockout mice, Runx1-TrkA, Sensory ataxia, Stretch reflex arc, Trigeminal ganglia",

author = "Ditsa Levanon and David Bettoun and Catherine Harris-Cerruti and Eilon Woolf and Varda Negreanu and Raya Eilam and Yael Bernstein and Dalia Goldenberg and Cuiying Xiao and Manfred Fliegauf and Eitan Kremer and Florian Otto and Ori Brenner and Aharon Lev-Tov and Yoram Groner",

year = "2002",

month = jul,

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doi = "10.1093/emboj/cdf370",

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Levanon, D, Bettoun, D, Harris-Cerruti, C, Woolf, E, Negreanu, V, Eilam, R, Bernstein, Y, Goldenberg, D, Xiao, C, Fliegauf, M, Kremer, E, Otto, F, Brenner, O, Lev-Tov, A & Groner, Y 2002, 'The Runx3 transcription factor regulates development and survival of TrkC dorsal root ganglia neurons', EMBO Journal, vol. 21, no. 13, pp. 3454-3463. https://doi.org/10.1093/emboj/cdf370

TY - JOUR

T1 - The Runx3 transcription factor regulates development and survival of TrkC dorsal root ganglia neurons

AU - Levanon, Ditsa

AU - Bettoun, David

AU - Harris-Cerruti, Catherine

AU - Woolf, Eilon

AU - Negreanu, Varda

AU - Eilam, Raya

AU - Bernstein, Yael

AU - Goldenberg, Dalia

AU - Xiao, Cuiying

AU - Fliegauf, Manfred

AU - Kremer, Eitan

AU - Otto, Florian

AU - Brenner, Ori

AU - Lev-Tov, Aharon

AU - Groner, Yoram

PY - 2002/7/1

Y1 - 2002/7/1

N2 - The RUNX transcription factors are important regulators of linage-specific gene expression in major developmental pathways. Recently, we demonstrated that Runx3 is highly expressed in developing cranial and dorsal root ganglia (DRGs). Here we report that within the DRGs, Runx3 is specifically expressed in a subset of neurons, the tyrosine kinase receptor C (TrkC) proprioceptive neurons. We show that Runx3-deficient mice develop severe limb ataxia due to disruption of monosynaptic connectivity between intraspinal afferents and motoneurons. We demonstrate that the underlying cause of the defect is a loss of DRG proprioceptive neurons, reflected by a decreased number of TrkC-, parvalbumin- and β-galactosidase-positive cells. Thus, Runx3 is a neurogenic TrkC neuron-specific transcription factor. In its absence, TrkC neurons in the DRG do not survive long enough to extend their axons toward target cells, resulting in lack of connectivity and ataxia. The data provide new genetic insights into the neurogenesis of DRGs and may help elucidate the molecular mechanisms underlying somatosensory-related ataxia in humans.

AB - The RUNX transcription factors are important regulators of linage-specific gene expression in major developmental pathways. Recently, we demonstrated that Runx3 is highly expressed in developing cranial and dorsal root ganglia (DRGs). Here we report that within the DRGs, Runx3 is specifically expressed in a subset of neurons, the tyrosine kinase receptor C (TrkC) proprioceptive neurons. We show that Runx3-deficient mice develop severe limb ataxia due to disruption of monosynaptic connectivity between intraspinal afferents and motoneurons. We demonstrate that the underlying cause of the defect is a loss of DRG proprioceptive neurons, reflected by a decreased number of TrkC-, parvalbumin- and β-galactosidase-positive cells. Thus, Runx3 is a neurogenic TrkC neuron-specific transcription factor. In its absence, TrkC neurons in the DRG do not survive long enough to extend their axons toward target cells, resulting in lack of connectivity and ataxia. The data provide new genetic insights into the neurogenesis of DRGs and may help elucidate the molecular mechanisms underlying somatosensory-related ataxia in humans.

KW - Knockout mice

KW - Runx1-TrkA

KW - Sensory ataxia

KW - Stretch reflex arc

KW - Trigeminal ganglia

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AN - SCOPUS:18444406568

SN - 0261-4189

VL - 21

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EP - 3463

JO - EMBO Journal

JF - EMBO Journal

IS - 13

ER -

The Runx3 transcription factor regulates development and survival of TrkC dorsal root ganglia neurons

Abstract

Keywords

UN SDGs

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