Changes of cerebral network activity after invasive stimulation of the mesencephalic locomotor region in a rat stroke model

Abstract:Interactions are described of central origin between respiratory, cardiac and stepping rhythms during fictive locomotion in paralyzed, vagotomized, and decerebrated cats. Fictive locomotion was induced by tonic electrical stimulation of the mesencephalic locomotor region (MLR). The coherence between heart beat fluctuation, the efferent discharges of the phrenic, and the lateral gastrocnemius nerves was used to evaluate the strength of the coupling between those three rhythms. The heart beat rhythm was modulated by the centrally generated respiratory and stepping rhythms. The central respiratory rhythm was modulated by the centrally generated stepping rhythm. Based on the present findings, we have proposed a new model concerning the functional hierarchical structures of the three biological oscillators.

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Electrical Stimulation of the Mesencephalic Locomotor Region Attenuates Neuronal Loss and Cytokine Expression in the Perifocal Region of Photothrombotic Stroke in Rats

International Journal of Molecular Sciences ◽

10.3390/ijms20092341 ◽

2019 ◽

Vol 20 (9) ◽

pp. 2341 ◽

Cited By ~ 2

Author(s):

Michael K. Schuhmann ◽

Guido Stoll ◽

Arne Bohr ◽

Jens Volkmann ◽

Felix Fluri

Keyword(s):

Neuronal Apoptosis ◽

Neuronal Loss ◽

Border Zone ◽

Experimental Stroke ◽

High Frequency Stimulation ◽

Tunel Staining ◽

Ischemic Penumbra ◽

Mesencephalic Locomotor Region ◽

Photothrombotic Stroke ◽

Stimulation Of

Deep brain stimulation of the mesencephalic locomotor region (MLR) improves the motor symptoms in Parkinson’s disease and experimental stroke by intervening in the motor cerebral network. Whether high-frequency stimulation (HFS) of the MLR is involved in non-motor processes, such as neuroprotection and inflammation in the area surrounding the photothrombotic lesion, has not been elucidated. This study evaluates whether MLR-HFS exerts an anti-apoptotic and anti-inflammatory effect on the border zone of cerebral photothrombotic stroke. Rats underwent photothrombotic stroke of the right sensorimotor cortex and the implantation of a microelectrode into the ipsilesional MLR. After intervention, either HFS or sham stimulation of the MLR was applied for 24 h. The infarct volumes were calculated from consecutive brain sections. Neuronal apoptosis was analyzed by TUNEL staining. Flow cytometry and immunohistochemistry determined the perilesional inflammatory response. Neuronal apoptosis was significantly reduced in the ischemic penumbra after MLR-HFS, whereas the infarct volumes did not differ between the groups. MLR-HFS significantly reduced the release of cytokines and chemokines within the ischemic penumbra. MLR-HFS is neuroprotective and it reduces pro-inflammatory mediators in the area that surrounds the photothrombotic stroke without changing the number of immune cells, which indicates that MLR-HFS enables the function of inflammatory cells to be altered on a molecular level.

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The Pressor Response to Concurrent Stimulation of the Mesencephalic Locomotor Region and Peripheral Sensory Afferents Is Attenuated in Normotensive but Not Hypertensive Rats

Frontiers in Physiology ◽

10.3389/fphys.2019.00095 ◽

2019 ◽

Vol 10 ◽

Cited By ~ 1

Author(s):

Nan Liang ◽

Gary A. Iwamoto ◽

Ryan M. Downey ◽

Jere H. Mitchell ◽

Scott A. Smith ◽

...

Keyword(s):

Pressor Response ◽

Hypertensive Rats ◽

Sensory Afferents ◽

Mesencephalic Locomotor Region ◽

Peripheral Sensory ◽

Stimulation Of

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Coupling between respiratory and stepping rhythms during locomotion in decerebrate cats

Journal of Applied Physiology ◽

10.1152/jappl.1989.67.1.110 ◽

1989 ◽

Vol 67 (1) ◽

pp. 110-115 ◽

Cited By ~ 32

Author(s):

K. Kawahara ◽

S. Kumagai ◽

Y. Nakazono ◽

Y. Miyamoto

Keyword(s):

Gastrocnemius Muscle ◽

Respiratory Rhythm ◽

Mesencephalic Locomotor Region ◽

Left Hemidiaphragm ◽

The Mean ◽

Locomotor Patterns ◽

Gastrocnemius Muscles ◽

Spontaneously Breathing ◽

Decerebrate Cats ◽

Stimulation Of

To determine whether and how the strength of coupling between respiratory and stepping rhythms varies depending on locomotor patterns, correlation analysis was done of diaphragmatic and gastrocnemius muscle activities. In spontaneously breathing cats decerebrated at the precollicular-post-mammillary level, tonic electrical stimulation was delivered to the mesencephalic locomotor region to induce locomotion on a treadmill. Electromyograms were recorded from the left hemidiaphragm and the bilateral gastrocnemius muscles. Various locomotor patterns were elicited by changes in the belt speed of the treadmill and in the intensity of stimulation of the mesencephalic locomotor region. Cross-correlograms between diaphragmatic and gastrocnemius activities showed that coupling was absent or weak when the cats walked slowly. The strength of locomotor-respiratory coupling tended to increase as the mean stepping interval shortened. When the animals were galloping, the respiratory rhythm was entrained 1:1 with the stepping rhythm. This study showed that the strength of coupling between respiratory and stepping rhythms varied depending on the locomotor patterns elicited, especially on whether the animals were running.

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Spinoreticular neurons that receive group III input are inhibited by MLR stimulation

Journal of Applied Physiology ◽

10.1152/japplphysiol.00072.2002 ◽

2002 ◽

Vol 93 (1) ◽

pp. 92-98 ◽

Cited By ~ 9

Author(s):

Alexandr M. Degtyarenko ◽

Marc P. Kaufman

Keyword(s):

Electrical Stimulation ◽

Tibial Nerve ◽

Afferent Input ◽

Ventrolateral Medulla ◽

Central Command ◽

Mesencephalic Locomotor Region ◽

Group Iii ◽

Tibial Nerve Stimulation ◽

Muscle Afferent ◽

Stimulation Of

In decerebrate paralyzed cats, we examined the responses of 18 spinoreticular neurons to electrical stimulation of the mesencephalic locomotor region. The activity of each of the spinoreticular neurons was recorded extracellularly from laminae IV through VI of the L7 and S1 spinal cord. In addition, each of the 18 spinoreticular neurons received group III afferent input from the tibial nerve. Spinoreticular projections were established for each of 18 neurons by antidromic invasion of the ventro lateral medulla at the P11 though P14 levels. The onset latencies and current thresholds for antidromic invasion from the ventro lateral medulla averaged 15.0 ± 3.8 ms and 117 ± 11 μA, respectively. Electrical stimulation of the mesencephalic locomotor region attenuated the spontaneous activity or the responses of each of the spinoreticular neurons to tibial nerve stimulation at currents that recruited group III afferents. Our data support the notion that thin-fiber muscle afferent input to the ventrolateral medulla is gated by a central command to exercise.

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Cyclooxygenase blockade attenuates responses of group III and IV muscle afferents to dynamic exercise in cats

AJP Heart and Circulatory Physiology ◽

10.1152/ajpheart.01274.2005 ◽

2006 ◽

Vol 290 (6) ◽

pp. H2239-H2246 ◽

Cited By ~ 41

Author(s):

Shawn G. Hayes ◽

Angela E. Kindig ◽

Marc P. Kaufman

Keyword(s):

Muscle Afferents ◽

Group Iv ◽

Dynamic Exercise ◽

Triceps Surae ◽

Afferent Activity ◽

Mesencephalic Locomotor Region ◽

Thin Fiber ◽

Group Iii ◽

Triceps Surae Muscles ◽

Stimulation Of

Cyclooxygenase products accumulate in statically contracting muscles to stimulate group III and IV afferents. The role played by these products in stimulating thin fiber muscle afferents during dynamic exercise is unknown. Therefore, in decerebrated cats, we recorded the responses of 17 group III and 12 group IV triceps surae muscle afferents to dynamic exercise, evoked by stimulation of the mesencephalic locomotor region. Each afferent was tested while the muscles were freely perfused and while the circulation to the muscles was occluded. The increases in group III and IV afferent activity during dynamic exercise while the circulation to the muscles was occluded were greater than those during exercise while the muscles were freely perfused ( P < 0.01). Indomethacin (5 mg/kg iv), a cyclooxygenase blocker, reduced the responses to dynamic exercise of the group III afferents by 42% when the circulation to the triceps surae muscles was occluded ( P < 0.001) and by 29% when the circulation was not occluded ( P = 0.004). Likewise, indomethacin reduced the responses to dynamic exercise of group IV afferents by 34% when the circulation was occluded ( P < 0.001) and by 18% when the circulation was not occluded ( P = 0.026). Before indomethacin, the activity of the group IV, but not group III, afferents was significantly higher during postexercise circulatory occlusion than during rest ( P < 0.05). After indomethacin, however, group IV activity during postexercise circulatory occlusion was not significantly different from group IV activity during rest. Our data suggest that cyclooxygenase products play a role both in sensitizing group III and IV afferents during exercise and in stimulating group IV afferents during postexercise circulatory occlusion.

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