Glutamate, Glutamine, GABA and Oxidative Products in the Pons Following Cortical Injury and Their Role in Motor Functional Recovery

Affiliations

¹ Faculty of Psychology, Coordination of Psychobiology and Neurosciences, National Autonomous University of Mexico, Av. Universidad 3040 Col, Copilco Universidad Alcaldía Coyoacán, 04510, Mexico City, Mexico.
² National Institute of Rehabilitation LGII, Calz. Mexico-Xochimilco #289 Col. Arenal de Guadalupe Alcaldía Tlalpan, 14389, Mexico City, Mexico.
³ Section of Postgraduate Studies and Research, High Medical School, IPN. Salvador Diaz Miron Alcaldia Miguel Hidalgo, 11340, Mexico City, Mexico.
⁴ School of Physical Culture, University of Holguín, Avenida XX Aniversario, 80100, Holguín, Cuba.
⁵ Cuban Centre for Neurosciences, Calle 190 entre 25 y 27, Playa, 11300, Havana City, Cuba.
⁶ Reynosa-Aztlan Multidisciplinary Unit, Autonomous University of Tamaulipas, Fuente de Diana, Aztlán, 88740, Tamaulipas, Mexico.
⁷ Laboratory of Aging Biology, National Geriatric Institute, Av. Contreras 428 Col. San Jerónimo Lídice Alcaldía Magdalena Contreras, 10200, Mexico City, Mexico. higgo@prodigy.net.mx.
⁸ Section of Postgraduate Studies and Research, High Medical School, IPN. Salvador Diaz Miron Alcaldia Miguel Hidalgo, 11340, Mexico City, Mexico. higgo@prodigy.net.mx.
⁹ Department of Special Education, University of the Americas Mexico City College, Puebla # 223 Col. Roma Alcaldía Cuauhtemoc, 06700, Mexico City, Mexico. higgo@prodigy.net.mx.

PMID: 34387812
DOI: 10.1007/s11064-021-03417-8

Glutamate, Glutamine, GABA and Oxidative Products in the Pons Following Cortical Injury and Their Role in Motor Functional Recovery

Laura E Ramos-Languren et al. Neurochem Res. 2021 Dec.

. 2021 Dec;46(12):3179-3189.

doi: 10.1007/s11064-021-03417-8. Epub 2021 Aug 13.

Affiliations

¹ Faculty of Psychology, Coordination of Psychobiology and Neurosciences, National Autonomous University of Mexico, Av. Universidad 3040 Col, Copilco Universidad Alcaldía Coyoacán, 04510, Mexico City, Mexico.
² National Institute of Rehabilitation LGII, Calz. Mexico-Xochimilco #289 Col. Arenal de Guadalupe Alcaldía Tlalpan, 14389, Mexico City, Mexico.
³ Section of Postgraduate Studies and Research, High Medical School, IPN. Salvador Diaz Miron Alcaldia Miguel Hidalgo, 11340, Mexico City, Mexico.
⁴ School of Physical Culture, University of Holguín, Avenida XX Aniversario, 80100, Holguín, Cuba.
⁵ Cuban Centre for Neurosciences, Calle 190 entre 25 y 27, Playa, 11300, Havana City, Cuba.
⁶ Reynosa-Aztlan Multidisciplinary Unit, Autonomous University of Tamaulipas, Fuente de Diana, Aztlán, 88740, Tamaulipas, Mexico.
⁷ Laboratory of Aging Biology, National Geriatric Institute, Av. Contreras 428 Col. San Jerónimo Lídice Alcaldía Magdalena Contreras, 10200, Mexico City, Mexico. higgo@prodigy.net.mx.
⁸ Section of Postgraduate Studies and Research, High Medical School, IPN. Salvador Diaz Miron Alcaldia Miguel Hidalgo, 11340, Mexico City, Mexico. higgo@prodigy.net.mx.
⁹ Department of Special Education, University of the Americas Mexico City College, Puebla # 223 Col. Roma Alcaldía Cuauhtemoc, 06700, Mexico City, Mexico. higgo@prodigy.net.mx.

PMID: 34387812
DOI: 10.1007/s11064-021-03417-8

Abstract

Brain injury leads to an excitatory phase followed by an inhibitory phase in the brain. The clinical sequelae caused by cerebral injury seem to be a response to remote functional inhibition of cerebral nuclei located far from the motor cortex but anatomically related to the injury site. It appears that such functional inhibition is mediated by an increase in lipid peroxidation (LP). To test this hypothesis, we report data from 80 rats that were allocated to the following groups: the sham group (n = 40), in which rats received an intracortical infusion of artificial cerebrospinal fluid (CSF); the injury group (n = 20), in which rats received CSF containing ferrous chloride (FeCl₂, 50 mM); and the recovery group (n = 20), in which rats were injured and allowed to recover. Beam-walking, sensorimotor and spontaneous motor activity tests were performed to evaluate motor performance after injury. Lipid fluorescent products (LFPs) were measured in the pons. The total pontine contents of glutamate (GLU), glutamine (GLN) and gamma-aminobutyric acid (GABA) were also measured. In injured rats, the motor deficits, LFPs and total GABA and GLN contents in the pons were increased, while the GLU level was decreased. In contrast, in recovering rats, none of the studied variables were significantly different from those in sham rats. Thus, motor impairment after cortical injury seems to be mediated by an inhibitory pontine response, and functional recovery may result from a pontine restoration of the GLN-GLU-GABA cycle, while LP may be a primary mechanism leading to remote pontine inhibition after cortical injury.

Keywords: Brain injury; Cerebellum; Lipid peroxidation; Pons; Rats.

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Glutamate, Glutamine, GABA and Oxidative Products in the Pons Following Cortical Injury and Their Role in Motor Functional Recovery

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Glutamate, Glutamine, GABA and Oxidative Products in the Pons Following Cortical Injury and Their Role in Motor Functional Recovery

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