Red nucleus and rubrospinal tract disorganization in the absence of Pou4f1.

Jesus E Martinez-Lopez,M Pilar Madrigal,Juan A Moreno-Bravo,Salvador Martinez,Eduardo Puelles

doi:10.3389/fnana.2015.00008

Jesus E Martinez-Lopez, M Pilar Madrigal + Show 3 more

Open Access

https://doi.org/10.3389/fnana.2015.00008

Copy DOI

Abstract

The red nucleus (RN) is a neuronal population that plays an important role in forelimb motor control and locomotion. Histologically it is subdivided into two subpopulations, the parvocellular RN (pRN) located in the diencephalon and the magnocellular RN (mRN) in the mesencephalon. The RN integrates signals from motor cortex and cerebellum and projects to spinal cord interneurons and motor neurons through the rubrospinal tract (RST). Pou4f1 is a transcription factor highly expressed in this nucleus that has been related to its specification. Here we profoundly analyzed consequences of Pou4f1 loss-of-function in development, maturation and axonal projection of the RN. Surprisingly, RN neurons are specified and maintained in the mutant, no cell death was detected. Nevertheless, the nucleus appeared disorganized with a strong delay in radial migration and with a wider neuronal distribution; the neurons did not form a compacted population as they do in controls, Robo1 and Slit2 were miss-expressed. Cplx1 and Npas1, expressed in the RN, are transcription factors involved in neurotransmitter release, neuronal maturation and motor function processes among others. In our mutant mice, both transcription factors are lost, suggesting an abnormal maturation of the RN. The resulting altered nucleus occupied a wider territory. Finally, we examined RST development and found that the RN neurons were able to project to the spinal cord but their axons appeared defasciculated. These data suggest that Pou4f1 is necessary for the maturation of RN neurons but not for their specification and maintenance.

Highlights

The red nucleus (RN) is a compacted neuronal population that plays an important role in motor control and locomotion
ABERRANT GENERATION OF THE RED NUCLEUS The Pou4f1TauLacZ/+ strain was used as a tool to label the RN neurons and its projections
POU4F1 ROLE IN RED NUCLEUS DIFFERENTIATION AND MATURATION Pou4f1 is expressed during embryonic development and adulthood in the RN defining its identity. This transcription factor is integrated in the genetic cascade necessary to specify the RN neurons

Summary

Introduction

The red nucleus (RN) is a compacted neuronal population that plays an important role in motor control and locomotion. This subnucleus continues caudally as the magnocellular RN (mRN) located in the basal midbrain It is comprised mainly by large neurons that are exclusively glutamatergic (Gruber and Gould, 2010; Liang et al, 2012a,b; Moreno-Bravo et al, 2012; Puelles et al, 2012). The RST forms a contralateral tract in the dorsolateral corner of the lateral funiculus with 97% vGluT2 positive neurons (Du Beau et al, 2012; Liang et al, 2012a,b; Watson and Harrison, 2012) The importance of this system resides in its role in establishing rudimental motor skills that subsequently become refined by further and direct corticospinal control (Williams et al, 2014)

Objectives

Methods

Results

Conclusion