Acute use of cannabinoids depresses motor neuron activity
SOURCE CITED: SCIENCE DAILY
Date: February 23, 2015
Source: Universidad de Cádiz
Summary: A new study could explain the acute lack of coordination and difficulty speaking and breathing experienced by some people who habitually use cannabis.
New research could explain the acute lack of coordination and difficulty speaking and breathing experienced by some people who use cannabis.
Why do some habitual marijuana users have difficulties speaking, breathing or swallowing food? Is it true that people who use this substance may suffer acute lack of motor coordination? Does the use of cannabis cause muscular weakness? These questions have been addressed by researchers of the NeuroDegeneration and NeuroRepair Group of the University of Cadiz, directed by professor Bernardo Moreno, and who recently published a study related to this topic in the journal Neuropharmacology.
This study reveals that synthetic analogues of the psychoactive compounds of marijuana significantly reduce the activity of motor neurons. To fully understand the importance of this discovery, it is necessary to bear in mind that up until now there were no studies focusing on this subject. All the work known to date related to cannabis and its effects had been based on the psychomotor mechanisms (the higher central nervous system) and there was no study focused on describing the direct impact of cannabinoids on the neurons that control the muscles, that is, the motor neurons. Therefore, at the University of Cadiz it was decided to work on this topic using the motor hypoglossal nucleus (that controls the movements of the tongue) as a model, given that "the tongue is an important muscle used in respiratory phenomena, in speech, it is necessary to swallow food, i.e., it has many functions that in cannabis users, appear to be disrupted," explains professor Bernardo Moreno.
Thus, "during the investigation, we used an animal model in which we studied the alterations produced by synthetic cannabinoids on the activity of the motor neurons of the hypoglossal nucleus. In doing so, we discovered that these psychoactive compounds inhibit the information that reaches these neurons via the synapses (structures specialized in the communication of information between neurons). In other words, cannabinoids hinder the transmission of information between neurons." A consequence of this fact is, for example, that muscular weakness is produced as "the motor neuron, that is the one that gives the order to the muscle to contract, sees its activity reduced which, as a consequence, would weaken the strength of the muscle contraction," as doctor Moreno points out. All of this could lead to problems speaking, breathing and even swallowing food.
Nevertheless, this action mechanism could also explain the beneficial therapeutic effects that marijuana has on motor disturbances in people suffering from neurodegenerative diseases such as multiple sclerosis for example, given that "in pathological processes associated with muscular hyperactivity phenomena, the reduction in motor neuron activity induced by cannabis could lead to a symptomatological improvement."
This study, carried out as a consequence of the studies on synaptic mechanisms performed by this group at the University of Cadiz, opens a new avenue of research for the scientific community. In spite of this, "our work will be steered towards other territories. At this time we are in the middle of a study focusing on the effects of cannabinoids as possible mediators of synaptic plasticity (phenomenon involved in motor learning), although it must be made clear that these compounds are not the central theme of the work of our research group," concludes Bernardo Moreno.
In order to carry out this study, the work of the researchers of the UCA, Victoria García Morales (pre-doctoral scholarship holder at the UCA) and Fernando Montero (postdoctoral contract from the Junta de Andalucía) has been fundamental and, directed by professor Bernardo Moreno, they have carried out all the experimental stages. Equally, we must mention that this discovery has been made thanks to the funding of two research projects, one by the Ministry of Science and Innovation, now the Ministry of Economy and Competitiveness, and the other by the Junta de Andalucía.
- Victoria García-Morales, Fernando Montero, Bernardo Moreno-López. Cannabinoid agonists rearrange synaptic vesicles at excitatory synapses and depress motoneuron activity in vivo. Neuropharmacology, 2015; 92: 69 DOI: 10.1016/j.neuropharm.2014.12.036