Dataset Information

Spinal cord injury alters purinergic neurotransmission to mesenteric arteries in rats.

ABSTRACT: Complications associated with spinal cord injury (SCI) result from unregulated reflexes below the lesion level. Understanding neurotransmission distal to the SCI could improve quality of life by mitigating complications. The long-term impact of SCI on neurovascular transmission is poorly understood, but reduced sympathetic activity below the site of SCI enhances arterial neurotransmission (1). We studied sympathetic neurovascular transmission using a rat model of long-term paraplegia (T2-3) and tetraplegia (C6-7). Sixteen weeks after SCI, T2-3 and C6-7 rats had lower blood pressure (BP) than sham rats (103? ± ?2 and 97? ±? 4 vs. 117? ± ?6 mmHg, P < 0.05). T2-3 rats had tachycardia (410? ± ?6 beats/min), and C6-7 rats had bradycardia (299? ±? 10 beats/min) compared with intact rats (321? ±? 4 beats/min, P < 0.05). Purinergic excitatory junction potentials (EJPs) were measured in mesenteric arteries (MA) using microlectrodes, and norepinephrine (NE) release was measured using amperometry. NE release was similar in all groups, while EJP frequency-response curves from T2-3 and C6-7 rats were left-shifted vs. sham rats. EJPs in T2-3 and C6-7 rats showed facilitation followed by run-down during stimulation trains (10 Hz, 50 stimuli). MA reactivity to exogenous NE and ATP was similar in all rats. In T2-3 and C6-7 rats, NE content was increased in left cardiac ventricles compared with intact rats, but was not changed in MA, kidney, or spleen. Our data indicate that peripheral purinergic, but not adrenergic, neurotransmission increases following SCI via enhanced ATP release from periarterial nerves. Sympathetic BP support is reduced after SCI, but improving neurotransmitter release might maintain cardiovascular stability in individuals living with SCI.NEW & NOTEWORTHY This study revealed increased purinergic, but not noradrenergic, neurotransmission to mesenteric arteries in rats with spinal cord injury (SCI). An increased releasable pool of ATP in periarterial sympathetic nerves may contribute to autonomic dysreflexia following SCI, suggesting that purinergic neurotransmission may be a therapeutic target for maintaining stable blood pressure in individuals living with SCI. The selective increase in ATP release suggests that ATP and norepinephrine may be stored in separate synaptic vesicles in periarterial sympathetic varicosities.

SUBMITTER: Sangsiri S

PROVIDER: S-EPMC7052627 | biostudies-literature | 2020 Feb

REPOSITORIES: biostudies-literature

ACCESS DATA

Publications

Spinal cord injury alters purinergic neurotransmission to mesenteric arteries in rats.

Sangsiri Sutheera S Xu Hui H Fernandes Roxanne R Fink Greg D GD Lujan Heidi L HL DiCarlo Stephen E SE Galligan James J JJ

American journal of physiology. Heart and circulatory physiology 20191127 2

Complications associated with spinal cord injury (SCI) result from unregulated reflexes below the lesion level. Understanding neurotransmission distal to the SCI could improve quality of life by mitigating complications. The long-term impact of SCI on neurovascular transmission is poorly understood, but reduced sympathetic activity below the site of SCI enhances arterial neurotransmission (1). We studied sympathetic neurovascular transmission using a rat model of long-term paraplegia (T2-3) and ...[more]

PMID: 31774690

Similar Datasets

Project description:BackgroundThere is emerging evidence that astaxanthin plays a significant role in protecting neuro-cells from apoptosis after central nervous system injury. Our study examined the effects of astaxanthin on neuro-cell apoptosis after spinal cord injury.MethodsOne hundred and forty-four healthy adult Sprague-Dawley rats were randomly divided into the experimental group, control group, and sham operation group (n=48). Spinal cord injury was induced using the modified Allen method in the control group and the experimental group; while in the sham operation group, the lamina was removed without spinal cord injury. The rats in the experimental group were given astaxanthin (75 mg/kg) by gavage immediately after the operation, and in the other groups were given the same amount of olive oil. Motor function was assessed by blood-brain barrier (BBB) scores. The malondialdehyde (MDA) content and the activity of superoxide dismutase (SOD) at 24 h was determined after the operation. The apoptosis index (AI) was determined at 6, 24, and 48 h after the operation. At 48 h after the operation, we calculated the water content of the spinal cord, the lesion ratio of the spinal cord, the ultrastructure of the spinal cord, and the ultrastructure score.ResultsThe BBB scores of the control and experimental groups were significantly lower than the sham operation group at each postoperative time (P<0.05), and the BBB score of the experimental group was significantly higher than the control group at 1-4 weeks postoperatively (P<0.05). At 24 hours postoperatively, MDA content was highest in the control group and lowest in the sham operation group, while SOD activity was highest in the sham operation group and lowest in the control group (P<0.05). At each time point postoperatively, the sham operation group had the lowest AI and the control group had the highest AI (P<0.05). At 48 h after the operation, the water content and the lesion ratio of the spinal cord, and the ultrastructure score were the lowest in the sham operation group and the highest in the control group (P<0.05).ConclusionsAstaxanthin significantly improved the motor function of rats with spinal cord injury.

Project description:The number of elderly patients with spinal cord injury without radiographic abnormalities (SCIWORA) has been increasing in recent years and common of most cervical spinal cord injuries. Basic research has shown the effectiveness of early decompression after spinal cord injury on the spinal cord without stenosis; no studies have reported the efficacy of decompression in models with spinal cord compressive lesions. The purpose of this study was to evaluate the effects of decompression surgery after acute spinal cord injury in rats with chronic spinal cord compressive lesions, mimicking SCIWORA. A water-absorbent polymer sheet (Aquaprene DX, Sanyo Chemical Industries) was inserted dorsally into the 4-5th cervical sublaminar space in 8-week-old Sprague Dawley rats to create a rat model with a chronic spinal compressive lesion. At the age of 16 weeks, 30 mildly myelopathic or asymptomatic rats with a Basso, Beattie, and Bresnahan score (BBB score) of 19 or higher were subjected to spinal cord compression injuries. The rats were divided into three groups: an immediate decompression group (decompress immediately after injury), a sub-acute decompression group (decompress 1 week after injury), and a non-decompression group. Behavioral and histological evaluations were performed 4 weeks after the injury. At 20 weeks of age, the BBB score and FLS (Forelimb Locomotor Scale) of both the immediate and the sub-acute decompression groups were significantly higher than those of the non-decompression group. There was no significant difference between the immediate decompression group and the sub-acute decompression group. TUNEL (transferase-mediated dUTP nick end labeling) staining showed significantly fewer positive cells in both decompression groups compared to the non-decompression group. LFB (Luxol fast blue) staining showed significantly more demyelination, and GAP-43 (growth associated protein-43) staining tended to show fewer positive cells in the non-decompression group. Decompression surgery in the acute or sub-acute phase of injury is effective after mild spinal cord injury in rats with chronic compressive lesions. There was no significant difference between the immediate decompression and sub-acute decompression groups.

Dataset Information

Spinal cord injury alters purinergic neurotransmission to mesenteric arteries in rats.

Publications

Spinal cord injury alters purinergic neurotransmission to mesenteric arteries in rats.

Similar Datasets

OmicsDI is part of the ELIXIR infrastructure

Tweets