Your search keyword '"García Hernández, Rosendo Miguel"' showing total 13 results

1. BDNF Influence on Adult Terminal Axon Sprouting after Partial Deafferentation

Author

Universidad de Sevilla. Departamento de Fisiología, Ministerio de Ciencia e Innovación (MICIN). España, Junta de Andalucía, Benítez Temiño, Beatriz, García Hernández, Rosendo Miguel, Rodríguez de la Cruz, Rosa María, Pastor Loro, Ángel Manuel, Universidad de Sevilla. Departamento de Fisiología, Ministerio de Ciencia e Innovación (MICIN). España, Junta de Andalucía, Benítez Temiño, Beatriz, García Hernández, Rosendo Miguel, Rodríguez de la Cruz, Rosa María, and Pastor Loro, Ángel Manuel

Abstract

BDNF is a neurotrophin family member implicated in many different neuronal functions, from neuronal survival during development to synaptic plasticity associated with processes of learning and memory. Its presence in the oculomotor system has previously been demonstrated, as it regulates afferent composition of extraocular motoneurons and their firing pattern. Moreover, BDNF expression increases after extraocular motoneuron partial deafferentation, in parallel with terminal axon sprouting from the remaining axons. To elucidate whether BDNF could play an active role in this process, we performed partial deafferentation of the medial rectus motoneurons through transection of one of the two main afferents, that is, the ascending tract of Deiters, and injected BDNF into the motoneuron target muscle, the medial rectus. Furthermore, to check whether BDNF could stimulate axon sprouting without lesions, we performed the same experiment without any lesions. Axon terminal sprouting was assessed by calretinin immunostaining, which specifically labels the remaining afferent system on medial rectus motoneurons, the abducens internuclear neurons. The results presented herein show that exogenous BDNF stimulated terminal axon growth, allowing the total recovery of synaptic coverage around the motoneuron somata. Moreover, calretinin staining in the neuropil exceeded that present in the control situation. Thus, BDNF could also stimulate axonal sprouting in the neuropil of intact animals. These results point to an active role of BDNF in plastic adaptations that take place after partial deafferentation.

Published

2023

2. Métodos anticonceptivos masculinos

Author

García Hernández, Rosendo Miguel, Universidad de Sevilla. Departamento de Fisiología., Pérez Jiménez, Lucía, García Hernández, Rosendo Miguel, Universidad de Sevilla. Departamento de Fisiología., and Pérez Jiménez, Lucía

Abstract

Actualmente sólo existen dos métodos anticonceptivos para hombres que son el condón y la vasectomía. Debido a que hay muchas parejas que se quedan sin opciones para prevenir embarazos no deseados hay una gran necesidad de desarrollar nuevos métodos anticonceptivos masculinos. Los anticonceptivos masculinos hormonales se basan en la inhibición del eje hipotálamo-pituitario-testicular a través de la administración de andrógenos sexuales exógenos, como la testosterona, que inhiben la liberación de la hormona luteinizante (LH) y la hormona folículo estimulante (FSH) suprimiendo la espermatogénesis. Se ha demostrado que cuando la testosterona se combina con un progestágeno sintético como la progestina, los resultados son más eficaces y prometedores debido a que la supresión de la hormona liberadora de gonadotropinas (GnRH) es más eficiente. Actualmente hay varios medicamentos en ensayo clínico probándose como nuevos métodos anticonceptivos hormonales masculinos como son Nesterona, un gel transdérmico de uso diario, MENT progestágeno sintético que se administra a través de implantes subcutáneos y DMAU o 11bMNTDC los cuales se administran de manera oral una vez al día. Aunque la población aclame un anticonceptivo masculino análogo a la píldora femenina los andrógenos transdérmicos o inyectables pueden proporcionar una alternativa a un producto oral. Por su parte, la anticoncepción masculina no hormonal es aquella en la que no se administra testosterona o compuestos que bloqueen la secreción de esta. Intentan evitar los efectos secundarios causados por la administración de hormonas e involucran a proteínas que interfieren en la producción o función de los espermatozoides. Entre ellos, se puede destacar el Gosipol y Triptólide los cuales reducen la motilidad de los espermatozoides, pero no son reversibles. También se encuentra Adjudin el cual produce una espermiación prematura que conlleva la liberación de espermátidas inmaduras que conduce a esterilidad. Otro ejemplo es RIS

Published

2023

3. Role of Vascular Endothelial Growth Factor as a Critical Neurotrophic Factor for the Survival and Physiology of Motoneurons

Author

Universidad de Sevilla. Departamento de Fisiología, Junta de Andalucía, Ministerio de Ciencia e Innovación (MICIN). España, Gobierno de España, Martín Calvo, Paula, García Hernández, Rosendo Miguel, Rodríguez de la Cruz, Rosa María, Pastor Loro, Ángel Manuel, Universidad de Sevilla. Departamento de Fisiología, Junta de Andalucía, Ministerio de Ciencia e Innovación (MICIN). España, Gobierno de España, Martín Calvo, Paula, García Hernández, Rosendo Miguel, Rodríguez de la Cruz, Rosa María, and Pastor Loro, Ángel Manuel

Published

2023

4. Relative contribution of lateral vestibular neuron and abducens internuclear neuron inputs to the discharge activity of medial rectus motoneurons

Author

Universidad de Sevilla. Departamento de Fisiología, Ministerio de Ciencia e Innovación (MICIN). España, Agencia Estatal de Investigación. España, European Commission (EC). Fondo Europeo de Desarrollo Regional (FEDER), Junta de Andalucía, García Hernández, Rosendo Miguel, Benítez Temiño, Beatriz, Rodríguez de la Cruz, Rosa María, Pastor Loro, Ángel Manuel, Universidad de Sevilla. Departamento de Fisiología, Ministerio de Ciencia e Innovación (MICIN). España, Agencia Estatal de Investigación. España, European Commission (EC). Fondo Europeo de Desarrollo Regional (FEDER), Junta de Andalucía, García Hernández, Rosendo Miguel, Benítez Temiño, Beatriz, Rodríguez de la Cruz, Rosa María, and Pastor Loro, Ángel Manuel

Abstract

Medial rectus motoneurons mediate nasally directed horizontal eye movements. These motoneurons receive two major excitatory inputs, from the abducens internuclear neurons (ABD Ints) and neurons of the lateral vestibular nucleus whose axons course through the ascending tract of Deiters (ATD). In the present work, we have recorded in the alert chronic cat preparation the discharge activity of these two premotor neurons simultaneously with eye movements, to discern their relative contribution to the firing pattern of medial rectus motoneurons. ABD Int discharge was accurately correlated with eye movements, displaying high sensitivities to eye position and eye velocity. ATD neurons also discharged in relation to spontaneous and vestibular eye movements but showed significantly lower eye position and eye velocity sensitivities. Outstandingly, ATD neurons presented a significantly lower eye position threshold for recruitment compared to both ABD Ints and medial rectus motoneurons. Therefore, ATD neurons exhibited eye position and velocity signals during spontaneous and vestibular eye movements, which were of lower magnitude than those of ABD Ints, but due to their low recruitment threshold, they could play a significant role in facilitating ABD Int signal transmission onto medial rectus motoneurons.

Published

2023

5. VEGF is an essential retrograde trophic factor for motoneurons

Author

Universidad de Sevilla. Departamento de Fisiología, Ministerio de Ciencia e Innovación (MICIN). España, Junta de Andalucía, Martín Calvo, Paula, García Hernández, Rosendo Miguel, Rodríguez de la Cruz, Rosa María, Pastor Loro, Ángel Manuel, Universidad de Sevilla. Departamento de Fisiología, Ministerio de Ciencia e Innovación (MICIN). España, Junta de Andalucía, Martín Calvo, Paula, García Hernández, Rosendo Miguel, Rodríguez de la Cruz, Rosa María, and Pastor Loro, Ángel Manuel

Abstract

VEGF was initially discovered due to its angiogenic activity and therefore named "vascular endothelial growth factor."However, its more recently discovered neurotrophic activity may be evolutionarily more ancient. Our previous work showed that all the changes produced by axotomy on the firing activity and synaptic inputs of abducens motoneurons were completely restored after VEGF administration. Therefore, we hypothesized that the lack of VEGF delivered by retrograde transport from the periphery should also affect the physiology of otherwise intact abducens motoneurons. For VEGF retrograde blockade, we chronically applied a neutralizing VEGF antibody to the lateral rectus muscle. Recordings of extracellular single-unit activity and eye movements were made in alert cats before and after the application of the neutralizing antibody. Our data revealed that intact, noninjured abducens motoneurons retrogradely deprived of VEGF exhibited noticeable changes in their firing pattern. There is a general decrease in firing rate and a significant reduction in eye position and eye velocity sensitivity (i.e., a decrease in the tonic and phasic components of their discharge, respectively). Moreover, by means of confocal immunocytochemistry, motoneurons under VEGF blockade showed a marked reduction in the density of afferent synaptic terminals contacting with their cell bodies. Altogether, the present findings demonstrate that the lack of retrogradely delivered VEGF renders abducens motoneurons into an axotomy-like state. This indicates that VEGF is an essential retrograde factor for motoneuronal synaptic drive and discharge activity.

Published

2022

6. VEGF and Neuronal Survival

Author

Universidad de Sevilla. Departamento de Fisiología, Junta de Andalucía, Ministerio de Ciencia e Innovación (MICIN). España, Martín Calvo, Paula, García Hernández, Rosendo Miguel, Pastor Loro, Ángel Manuel, Rodríguez de la Cruz, Rosa María, Universidad de Sevilla. Departamento de Fisiología, Junta de Andalucía, Ministerio de Ciencia e Innovación (MICIN). España, Martín Calvo, Paula, García Hernández, Rosendo Miguel, Pastor Loro, Ángel Manuel, and Rodríguez de la Cruz, Rosa María

Abstract

Vascular endothelial growth factor (VEGF) is well known for its angiogenic activity, but recent evidence has revealed a neuroprotective action of this factor on injured or diseased neurons. In the present review, we summarize the most relevant findings that have contributed to establish a link between VEGF deficiency and neuronal degeneration. At issue, 1) mutant mice with reduced levels of VEGF show adult-onset muscle weakness and motoneuron degeneration resembling amyotrophic lateral sclerosis (ALS), 2) administration of VEGF to different animal models of motoneuron degeneration improves motor performance and ameliorates motoneuronal degeneration, and 3) there is an association between low plasmatic levels of VEGF and human ALS. Altogether, the results presented in this review highlight VEGF as an essential motoneuron neurotrophic factor endowed with promising therapeutic potential for the treatment of motoneuron disorders.

Published

2022

7. MIF versus SIF motoneurons, what are their respective contribution in the oculomotor medial rectus pool?

Author

Universidad de Sevilla. Departamento de Fisiología, Ministerio de Ciencia e Innovación (MICIN). España, Austrian Science Fund, Carrero Rojas, Génova, García Hernández, Rosendo Miguel, Blumer, Roland, Rodríguez de la Cruz, Rosa María, Pastor Loro, Ángel Manuel, Universidad de Sevilla. Departamento de Fisiología, Ministerio de Ciencia e Innovación (MICIN). España, Austrian Science Fund, Carrero Rojas, Génova, García Hernández, Rosendo Miguel, Blumer, Roland, Rodríguez de la Cruz, Rosa María, and Pastor Loro, Ángel Manuel

Abstract

Multiply-innervated muscle fibers (MIFs) are peculiar to the extraocular muscles as they are non-twitch but produce a slow build up in tension on repetitive stimulation. The motoneurons innervating MIFs establish en grappe terminals along the entire length of the fiber, instead of the typical en plaque terminals that singly-innervated muscle fibers (SIFs) motoneurons establish around the muscle belly. MIF motoneurons have been proposed to participate only in gaze holding and slow eye movements. We aimed to discern the function of MIF motoneurons by recording medial rectus motoneurons of the oculomotor nucleus. Single-unit recordings in awake cats demonstrated that electrophysiologically-identified medial rectus MIF motoneurons participated in different types of eye movements, including fixations, rapid eye movements or saccades, convergences, and the slow and fast phases of the vestibulo-ocular nystagmus, the same as SIF motoneurons did. However, MIF medial rectus motoneurons presented lower firing frequencies, were recruited earlier and showed lower eye position (EP) and eye velocity (EV) sensitivities than SIF motoneurons. MIF medial rectus motoneurons were also smaller, had longer antidromic latencies and a lower synaptic coverage than SIF motoneurons. Peristimulus time histograms (PSTHs) revealed that electrical stimulation to the myotendinous junction, where palisade endings are located, did not recurrently affect the firing probability of medial rectus motoneurons. Therefore, we conclude there is no division of labor between MIF and SIF motoneurons based on the type of eye movement they subserve.

Published

2021

8. Short-term plasticity after partial deafferentation in the oculomotor system

Author

Universidad de Sevilla. Departamento de Fisiología, Ministerio de Ciencia e Innovación (MICIN). España, García Hernández, Rosendo Miguel, Djebari, Souhail, Vélez Ortiz, José Miguel, Rodríguez de la Cruz, Rosa María, Pastor Loro, Ángel Manuel, Benítez Temiño, Beatriz, Universidad de Sevilla. Departamento de Fisiología, Ministerio de Ciencia e Innovación (MICIN). España, García Hernández, Rosendo Miguel, Djebari, Souhail, Vélez Ortiz, José Miguel, Rodríguez de la Cruz, Rosa María, Pastor Loro, Ángel Manuel, and Benítez Temiño, Beatriz

Abstract

Medial rectus motoneurons are innervated by two main pontine inputs. The specific function of each of these two inputs remains to be fully understood. Indeed, selective partial deafferentation of medial rectus motoneurons, performed by the lesion of either the vestibular or the abducens input, initially induces similar changes in motoneuronal discharge. However, at longer time periods, the responses to both lesions are dissimilar. Alterations on eye movements and motoneuronal discharge induced by vestibular input transection recover completely 2 months post-lesion, whereas changes induced by abducens internuclear lesion are more drastic and permanent. Functional recovery could be due to some kind of plastic process, such as reactive synaptogenesis, developed by the remaining intact input, which would occupy the vacant synaptic spaces left after lesion. Herein, by means of confocal microscopy, immunocytochemistry and retrograde labeling, we attempt to elucidate the possible plastic processes that take place after partial deafferentation of medial rectus motoneuron. 48 h post-injury, both vestibular and abducens internuclear lesions produced a reduced synaptic coverage on these motoneurons. However, 96 h after vestibular lesion, there was a partial recovery in the number of synaptic contacts. This suggests that there was reactive synaptogenesis. This recovery was preceded by an increase in somatic neurotrophin content, suggesting a role of these molecules in presynaptic axonal sprouting. The rise in synaptic coverage might be due to terminal sprouting performed by the remaining main input, i.e., abducens internuclear neurons. The present results may improve the understanding of this apparently redundant input system.

Published

2019

9. Functional diversity of motoneurons in the oculomotor system

Author

Universidad de Sevilla. Departamento de Fisiología, García Hernández, Rosendo Miguel, Martín Calvo, Paula, Blumer, Roland, Rodríguez de la Cruz, Rosa María, Pastor Loro, Ángel Manuel, Universidad de Sevilla. Departamento de Fisiología, García Hernández, Rosendo Miguel, Martín Calvo, Paula, Blumer, Roland, Rodríguez de la Cruz, Rosa María, and Pastor Loro, Ángel Manuel

Abstract

Extraocular muscles contain two types of muscle fibers according to their innervation pattern: singly innervated muscle fibers (SIFs), similar to most skeletal muscle fibers, and multiply innervated muscle fibers (MIFs). Morphological studies have revealed that SIF and MIF motoneurons are segregated anatomically and receive different proportions of certain afferents, suggesting that while SIF motoneurons would participate in the whole repertoire of eye movements, MIF motoneurons would contribute only to slow eye movements and fixations. We have tested that proposal by performing single-unit recordings, in alert behaving cats, of electrophysiologically identified MIF and SIF motoneurons in the abducens nucleus. Our results show that both types of motoneuron discharge in relation to eye position and velocity, displaying a tonic–phasic firing pattern for different types of eye movement (saccades, vestibulo-ocular reflex, vergence) and gaze-holding. However, MIF motoneurons presented an overall reduced firing rate compared with SIF motoneurons, and had significantly lower recruitment threshold and also lower eye position and velocity sensitivities. Accordingly, MIF motoneurons could control mainly gaze in the off-direction, when less force is needed, whereas SIF motoneurons would contribute to increase muscle tension progressively toward the on-direction as more force is required. Anatomically, MIF and SIF motoneurons distributed intermingled within the abducens nucleus, with MIF motoneurons being smaller and having a lesser somatic synaptic coverage. Our data demonstrate the functional participation of both MIF and SIF motoneurons in fixations and slow and phasic eye movements, although their discharge properties indicate a functional segregation.

Published

2019

10. Dependencias tróficas y sinápticas del sistema oculomotor

Author

García Hernández, Rosendo Miguel, Benítez Temiño, Beatriz, Pastor Loro, Ángel Manuel, and Universidad de Sevilla. Departamento de Fisiología

Abstract

Las motoneuronas del recto medial presentes en el núcleo motor ocular común (NMOC) reciben dos entradas pontinas principales: las neuronas internucleares del núcleo motor ocular externo (NMOE), cuyos axones discurren por el fascículo longitudinal medial (FLM), y las neuronas del núcleo vestibular lateral (NVL), cuyos axones proyectan a través del tracto ascendente de Deiters (TAD). Las neuronas internucleares del NMOE son responsables de la conjugación de la mirada en el plano horizontal, mientras que el NVL provee a las motoneuronas del recto medial con señal de velocidad de la cabeza. En el presente proyecto se ha estudiado el efecto de la pérdida selectiva de aferencias sobre los movimientos oculares y las propiedades de disparo de las motoneuronas que inervan al recto medial en el gato adulto. Así, se realizaron registros extracelulares de las neuronas motoras tras la sección unilateral del FLM o del TAD, y se hicieron análisis comparativos de sus propiedades de disparo. A corto plazo, ambas lesiones produjeron efectos similares, con cambios más severos tras la sección del FLM, apuntando a un rol más relevante de este fascículo sobre el disparo de las motoneuronas del recto medial. A largo plazo tras la lesión, los registros electrofisiológicos revelaron diferencias entre ambas lesiones. Así, los efectos de la sección del FLM fueron permanentes, mientras que los animales con el TAD seccionado mostraron una recuperación completa de los parámetros analizados, lo que permitió postular mecanismos de compensación que se desencadenarían tras la sección del TAD. En línea con esta hipótesis, estudios morfológicos mostraron que 2 meses tras la lesión del TAD, hubo un incremento en la cobertura sináptica somática de las motoneuronas en comparación con los datos obtenidos a corto plazo. Por otra parte, un análisis del curso temporal a corto plazo de los terminales sinápticos tras la deaferentación selectiva en la rata adulta, reveló que tras la sección del TAD se produjo una bajada en la cobertura sináptica somática 48 horas tras la lesión, que se recuperó 48 horas después, en concordancia con los resultados obtenidos en el gato y mostrando una reinervación compensatoria tras la eliminación de la entrada vestibular, que no se observó tras la eliminación de la proyección procedente del NMOE. Estos ajustes plásticos pudieron estar mediados por neurotrofinas, cuya presencia aumentó a corto plazo en el soma de las motoneuronas deaferentadas, pudiendo regular así la expresión de ciertas proteínas de crecimiento axonal, como la proteína asociada al crecimiento axonal de 43 kDa (GAP-43), que también se vio incrementada a corto plazo. De los resultados obtenidos se concluye que las motoneuronas oculomotoras deaferentadas mantienen una dependencia con los factores neurotróficos. Finalmente, se caracterizó mediante inmunocitoquímica y Western blot la presencia de neurotrofinas en el sistema motor ocular, resistente a la degeneración motoneuronal mediada por la esclerosis lateral amiotrófica (ELA), comparándolo con otros sistemas motores craneales, que sufren neurodegeneración. Se demostró una mayor presencia de neurotrofinas tanto en los músculos como en los núcleos del sistema oculomotor, en comparación con los sistemas facial y lingual. Por tanto, se concluye que diferencias en el aporte trófico entre el sistema oculomotor y otros sistemas motores craneales están relacionadas con la particular resistencia de las motoneuronas extraoculares a la neurodegeneración. Premio Extraordinario de Doctorado US

Published

2018

11. Dependencias tróficas y sinápticas del sistema oculomotor.

Author

Benítez Temiño, Beatriz, Pastor Loro, Ángel Manuel, Universidad de Sevilla. Departamento de Fisiología, García Hernández, Rosendo Miguel, Benítez Temiño, Beatriz, Pastor Loro, Ángel Manuel, Universidad de Sevilla. Departamento de Fisiología, and García Hernández, Rosendo Miguel

Abstract

Las motoneuronas del recto medial presentes en el núcleo motor ocular común (NMOC) reciben dos entradas pontinas principales: las neuronas internucleares del núcleo motor ocular externo (NMOE), cuyos axones discurren por el fascículo longitudinal medial (FLM), y las neuronas del núcleo vestibular lateral (NVL), cuyos axones proyectan a través del tracto ascendente de Deiters (TAD). Las neuronas internucleares del NMOE son responsables de la conjugación de la mirada en el plano horizontal, mientras que el NVL provee a las motoneuronas del recto medial con señal de velocidad de la cabeza. En el presente proyecto se ha estudiado el efecto de la pérdida selectiva de aferencias sobre los movimientos oculares y las propiedades de disparo de las motoneuronas que inervan al recto medial en el gato adulto. Así, se realizaron registros extracelulares de las neuronas motoras tras la sección unilateral del FLM o del TAD, y se hicieron análisis comparativos de sus propiedades de disparo. A corto plazo, ambas lesiones produjeron efectos similares, con cambios más severos tras la sección del FLM, apuntando a un rol más relevante de este fascículo sobre el disparo de las motoneuronas del recto medial. A largo plazo tras la lesión, los registros electrofisiológicos revelaron diferencias entre ambas lesiones. Así, los efectos de la sección del FLM fueron permanentes, mientras que los animales con el TAD seccionado mostraron una recuperación completa de los parámetros analizados, lo que permitió postular mecanismos de compensación que se desencadenarían tras la sección del TAD. En línea con esta hipótesis, estudios morfológicos mostraron que 2 meses tras la lesión del TAD, hubo un incremento en la cobertura sináptica somática de las motoneuronas en comparación con los datos obtenidos a corto plazo. Por otra parte, un análisis del curso temporal a corto plazo de los terminales sinápticos tras la deaferentación selectiva en la rata adulta, reveló que tras la sección del TAD se produjo u

Published

2018

12. Extraocular motoneurons of the adult rat show higher levels of vascular endothelial growth factor and its receptor Flk-1 than other cranial motoneurons

Author

Universidad de Sevilla. Departamento de Fisiología, Silva Hucha, Silvia, Benítez Temiño, Beatriz, Pastor Loro, Ángel Manuel, Rodríguez de la Cruz, Rosa María, Morcuende Fernández, Sara R., García Hernández, Rosendo Miguel, Universidad de Sevilla. Departamento de Fisiología, Silva Hucha, Silvia, Benítez Temiño, Beatriz, Pastor Loro, Ángel Manuel, Rodríguez de la Cruz, Rosa María, Morcuende Fernández, Sara R., and García Hernández, Rosendo Miguel

Abstract

Recent studies show a relationship between the deficit of vascular endothelial growth factor (VEGF) and motoneuronal degeneration, such as that occurring in amyotrophic lateral sclerosis (ALS). VEGF delivery protects motoneurons from cell death and delayed neurodegeneration in animal models of ALS. Strikingly, extraocular motoneurons show lesser vulnerability to neurodegeneration in ALS compared to other cranial or spinal motoneurons. Therefore, the present study investigates possible differences in VEGF and its main receptor VEGFR-2 or Flk-1 between extraocular and non-extraocular brainstem motoneurons. We performed immunohistochemistry and Western blot to determine the presence of VEGF and Flk-1 in rat motoneurons located in the three extraocular motor nuclei (abducens, trochlear and oculomotor) and to compare it to that observed in two other brainstem nuclei (hypoglossal and facial) that are vulnerable to degeneration. Extraocular motoneurons presented higher amounts of VEGF and its receptor Flk-1 than other brainstem motoneurons, and thus these molecules could be participating in their higher resistance to neurodegeneration. In conclusion, we hypothesize that differences in VEGF availability and signaling could be a contributing factor to the different susceptibility of extraocular motoneurons, when compared with other motoneurons, in neurodegenerative diseases.

Published

2017

13. Extraocular Motor System Exhibits a Higher Expression of Neurotrophins When Compared with Other Brainstem Motor Systems

Author

Universidad de Sevilla. Departamento de Fisiología, Ministerio de Economía y Competitividad (MINECO). España, García Hernández, Rosendo Miguel, Silva Hucha, Silvia, Morcuende Fernández, Sara R., Rodríguez de la Cruz, Rosa María, Pastor Loro, Ángel Manuel, Benítez Temiño, Beatriz, Universidad de Sevilla. Departamento de Fisiología, Ministerio de Economía y Competitividad (MINECO). España, García Hernández, Rosendo Miguel, Silva Hucha, Silvia, Morcuende Fernández, Sara R., Rodríguez de la Cruz, Rosa María, Pastor Loro, Ángel Manuel, and Benítez Temiño, Beatriz

Abstract

Extraocular motoneurons resist degeneration in diseases such as amyotrophic lateral sclerosis. The main objective of the present work was to characterize the presence of neurotrophins in extraocular motoneurons and muscles of the adult rat. We also compared these results with those obtained from other cranial motor systems, such as facial and hypoglossal, which indeed suffer neurodegeneration. Immunocytochemical analysis was used to describe the expression of nerve growth factor, brain-derived neurotrophic factor and neurotrophin-3 in oculomotor, trochlear, abducens, facial, and hypoglossal nuclei of adult rats, and Western blots were used to describe the presence of neurotrophins in extraocular, facial (buccinator), and tongue muscles, which are innervated by the above-mentioned motoneurons. In brainstem samples, brain-derived neurotrophic factor was present both in extraocular and facial motoneuron somata, and to a lesser degree, in hypoglossal motoneurons. Neurotrophin-3 was present in extraocular motor nuclei, while facial and hypoglossal motoneurons were almost devoid of this protein. Finally, nerve growth factor was not present in the soma of any group of motoneurons, although it was present in dendrites of motoneurons located in the neuropil. Neuropil optical density levels were higher in extraocular motoneuron nuclei when compared with facial and hypoglossal nuclei. Neurotrophins could be originated in target muscles, since Western blot analyses revealed the presence of the three molecules in all sampled muscles, to a larger extent in extraocular muscles when compared with facial and tongue muscles. We suggest that the different neurotrophin availability could be related to the particular resistance of extraocular motoneurons to neurodegeneration.

Published

2017