Magnocellular red nucleus
The magnocellular red nucleus is located in the rostral midbrain and is involved in motor coordination. Together with the parvocellular red nucleus, the mRN makes up the red nucleus. Due to the role it plays in motor coordination, the magnocellular red nucleus may be implicated in the characteristic symptom of restless legs syndrome. The mRN receives most of its signals from the motor cortex and the cerebellum.
Overview
The red nucleus, a group of neurons composed of the parvocellular red nucleus and the magnocellular red nucleus, contributes to movement and motor control within the forelimb. Primate studies have shown that more forelimb mRN neuron discharges are observed when the location of the target object a primate is reaching is on the right or above. This demonstrates that although forelimb mRN neurons are involved in grasping movements to the left, right, above, and below, they play a greater role when an organism is attempting to reach an object to the right or above. Scientists were also able to find differences in the functions and anatomies between the parvicellular and magnocellular regions of red nuclei in monkeys. Single unit recording in two monkeys that were kept awake during experimentation was used to search for functional differences between the two regions of the red nucleus. In order to investigate inputs to the two regions, anatomical tracing of WGA-HRP was used. Overall, the magnocellular region was much more responsive than that parvicellular region. The pRN is located in the diencephalon, a division of the forebrain, and the mRN is located in the mesencephalon. Unlike the pRN, which is both GABAergic and glutamatergic, the mRN is solely glutamatergic.The RN is capable of projection onto the spinal cord interneurons and motor neurons of signals integrated from the motor cortex and cerebellum. The mRN already existed in tetrapods after they became terrestrial. It became further developed in mammals when the volume of the mRN increased along with the development of the intermediate cerebellum and the interposed nuclei.
Neuron Counts in pRN and mRN
The absolute number of pRN and mRN neurons in the midbrain can be estimated. An analysis of complete sets of serial 40-μm glycolmethacrylate sections can be used to find this number. This was done on six young adult male rats, and a complete set of these serials sections for each rat were used to quantify the neuronal numbers. By using Cavalieri's method, the total volume of the red nucleus can be estimated. The optical dissector method on the same set of sampled sections is then used to estimate the numerical density Nv, or the number of neurons within a certain volume of the nucleus. The absolute number of neurons can then be found by multiplying the total volume of the nucleus by the numerical density. In rat brains, there is an average of 8394 pRN and 6986 mRN.The number of pRN and mRN can be used to gain a better understanding of how organisms differ in motor abilities. It has been reported that mice have a total of around 3200 neurons in the red nucleus, while rats have an average of nearly 15,400 neurons. Compared to rats, mice have inferior motor abilities in skilled reaching tasks, which has been reported to potentially be a result of the varying neuron counts in the red nucleus.