Effect of morphine on the adrenal sympathetic reflex elicited by mechanical stimulation of the skin in rats

The effect of morphine on the cutaneo-adrenal nerve reflex was studied in rats anesthetized with urethane-chloralose. Morphine (1 mg/kg, i.v.) significantly depressed the reflex increase in adrenal nerve activity induced by noxious lower chest pinching. Morphine (10 mg/kg, i.v.) significantly inhibited the reflex decrease in adrenal nerve activity induced by innocuous lower chest and hindlimb brushing, as well as the response induced by noxious lower chest pinching. Reversal by naloxone of the morphine-induced depression of the cutaneo-adrenal nerve reflexes indicates that the opioid receptor is associated with these effects of morphine.     

Reflex responses evoked in the adrenal sympathetic nerve to electrical stimulation of somatic afferent nerves in the rat

The present study was initiated to determine the role of somatic A (myelinated) and C (unmyelinated) afferent fibers in both responses of increases and decreases in adrenal sympathetic nerve activities during repetitive mechanical pinching and brushing stimulations of the skin in anesthetized rats with central nervous system (CNS) intact. Accordingly, changes in adrenal sympathetic nerve activity resulting from repetitive and single shock electrical stimulation of various spinal afferent nerves, especially the 13th thoracic (Th13) spinal nerve and the sural nerve, were examined in urethane/chloralose-anesthetized rats. Repetitive electrical stimulation of A afferent fibers in Th13 spinal or sural nerve decreased the adrenal nerve activity similarly as brushing stimulation of skin of the lower chest or hindlimb did, while repetitive stimulation of A plus C afferent fibers of those nerves increased the adrenal nerve activity as pinching stimulation of those skins did. Single shock stimulation of spinal afferent nerves evoked various reflex components in the adrenal nerve: an initial depression of spontaneous activity (the early depression); the following reflex discharge due to activation of A afferent fibers (the A-reflex); a subsequent reflex discharge due to activation of C afferent fibers (the C-reflex); and following post-excitatory depressions. These reflexes seem to be mediated mainly via supraspinal pathways since they were abolished by spinal transection at the C1-2 level. Although the supraspinal A- and C-reflexes could be elicited from stimulation of a wide variety of spinal segmental afferent levels, the early depression was more prominent when afferents at spinal segments closer to the level of adrenal nerve outflow were excited. It is suggested that the decreased responses of the adrenal nerve during repetitive electrical stimulation of A afferent nerve fibers are attributable to summation of both the early depression and post-excitatory depression evoked by single shock stimulation, while the increased responses during repetitive stimulation of A plus C afferent fibers are attributable to summation of the C-reflex after single shock stimulation. In spinalized rats, repetitive stimulation of Th13 always increased the adrenal nerve activities regardless of whether A fibers alone or A plus C fibers were stimulated, just as brushing and pinching of the lower chest skin always increased them. The increased responses in spinal animals seem to be related to the fact that single electrical stimuli of Th13 produced A- and C-reflexes of spinal origin without clear depressions.     

Reflex changes in post- and preganglionic sympathetic adrenal nerve activity and postganglionic sympathetic renal nerve activity upon arterial baroreceptor activation and during severe haemorrhage in the rat

Carlsson , S., Skarphedinsson , J. O., Delle , M., Hoffman , P. & Thorén , P. 1992. Reflex changes in post- and preganglionic sympathetic nerve activity and postganglionic sympathetic renal nerve activity upon arterial baroreceptor activation and during severe haemorrhage in the rat. Acta Physiol Scand 144 , 317–323. Received 19 August 1 991 , accepted 18 November 1991. ISSN 0001–6772. Department of Physiology, University of Göteborg, Sweden and Department of Physiology, University of Iceland, Reykjavik, Iceland. The aim of the study was to compare pre- (pre-aSNA) and postganglionic adrenal sympathetic nerve activity (post-aSNA) and postganglionic renal sympathetic nerve activity (rSNA) in rats during arterial baroreceptor activation and haemorrhage. Adrenal multifibre nerve activity was recorded in chloralose-anaesthetized Wistar rats. To test for pre-aSNA or post-aSNA in adrenal nerves, a ganglionic blocker, trimethaphan (10 mg kg^-1), was administered i.v. If the nerve activity in the adrenal nerve decreased or increased the nerve was considered to contain predominantly post-or preganglionic fibres, respectively. In contrast, the renal nerves exhibit an almost pure postganglionic activity. Baroreceptor activity was tested by activation of baroreceptors, with an a-receptor agonist, phenylephrine, which was slowly infused (0.5–2 mUg kg^-1 min-^l), and to deactivate the baroreceptors the rats were bled down to 50 mmHg for 8 min. The experiments showed that all tested nerve types were baroreceptor dependent. There were no significant differences between the slopes relating nerve activity inhibition to increase in blood pressure (infusion of phenylephrine). During maximal inhibition there was a difference between the rSNA and pre-aSNA, 87 ± 4%, n= 6 , and 68±6%, n = 10 (P < 0.01) of the control value, respectively. The maximal inhibition of post-aSNA was 80 ± 3%, n= 7 , of the control value. During haemorrhage there was a difference between the nerve populations. Pre-aSNA responded with a marked increase within 1.5 rnin (159 ± 29% of control, n= 7) and was then maintained at that level until retransfusion. Post-aSNA responded with i transient increase, reaching 158 ± 19% of control after 1.5min but then decreased slowly during the next 3 min, reaching a value of 89 8 76 at 7.5 rnin of haemorrhage. Finally, rSNA (n = 7) responded with an initial increase (peak value 1.5 min 138 ± 16%) followed by an inhibition to a minimum of 74±12% of control. Our conclusion is that the postganglionic adrenal nerves respond in a similar way to postganglionic renal nerves during baroreceptor activation and also show the same pattern of response during haemorrhage. This might indicate that postganglionic fibres to the adrenal gland and postganglionic renal fibres to the kidney have the same target structures, i.e. blood vessels. and postganglionic adrenal fibres might therefore be of importance in adrenal blood flow regulation.     

Cardiac vagal and sympathetic nerve responses to baroreceptor stimulation in the dog

The effects of ascending stepwise pressure changes in the isolated carotid sinuses on cardiac vagal and sympathetic nerve activities were studied in anesthetized, open chest dogs. The steady state responses of the cardiac vagal and the sympathetic nerve activity and arterial blood pressure were plotted against the sinus pressure and the relations were approximated by the normal distribution function (response curve). The sinus pressure- vs. reflex gain relations (reflex gain curve) were approximated by the normal density function. The maximum gain and the range of change were found to be greater for the vagal than for the sympathetic and arterial pressure responses. The sinus pressure values derived from response curves and reflex gain curves for vagal and sympathetic nerve responses were close to each other, while these values and those obtained from arterial pressure responses were considerably apart. It was concluded that: (1) The cardiac vagal neurons are more sensitive to the baroreceptor input than the sympathetic neurons; (2) The similar type of baroreceptor afferent inputs reach the cardiac vagal and the sympathetic structures which are controlling the autonomic outflows.     

Convergence of noxious and non-noxious cutaneous afferents and baroreceptor afferents onto single adrenal sympathetic neurons in anesthetized rats

Single units of the adrenal sympathetic nerve (n = 46) were dissected and characterized with respect to tonic discharge and response to cutaneous and baroreceptor stimulation. The frequency of tonic discharge averaged 1.6 Hz and cardiovascular rhythmic modulation was observed in 53% of the units. The stimuli employed in the present study included phenylephrine-induced increases in blood pressure and pinching or brushing of lower chest skin. Mean unit activity increased 27% on lower chest pinching stimulation, decreased 12% on lower chest brushing stimulation and decreased 62% on phenylephrine-induced baroreceptor stimulation. Although there was a tendency for units with higher tonic firing frequency to have a greater response to stimulation, this relationship was not significant for pinching or brushing of lower chest skin. The close correlation between tonic activity and response to phenylephrine was explicable on the basis of a near total depression of many units, which resulted in a larger decrease in firing frequency for units with initially high spontaneous discharge rates. As might be expected, units with cardiovascular rhythmicity manifested greater responses to baroreceptor activation. This correlation was independent of tonic rate of discharge since rhythmic and non-rhythmic units did not significantly differ in tonic activity. While a majority of units responded in a typical fashion to all three stimuli (i.e. with increases to pinching and decreases to brushing and phenylephrine administration), there was little correlation between the response magnitude of individual units to any two of the stimuli employed. We conclude, therefore, that most adrenal sympathetic units receive convergent reflex input from cutaneous noxious and non-noxious afferents as well as from baroreceptor afferents, although for any individual unit the quantitative significance of each input varies.     

Renal sympathetic nerve responses to stimulation, inhibition and destruction of the ventrolateral medulla in the rabbit

The role of the sympathetic nervous system in the cardiovascular responses to lesions of the caudal ventrolateral medulla of the rabbit was investigated by measurement of renal sympathetic nerve activity. In addition, the effect of chemical stimulation and inhibition on renal sympathetic nerve activity was assessed. The results show that lesions or chemical inhibition of the caudal ventrolateral medulla result in an increase in sympathetic nerve activity and blood pressure, whilst excitation results in a decrease in blood pressure and nerve activity. These findings contrast with chemical stimulation or inhibition of the rostral ventrolateral medulla in the region of the C1 cells where stimulation results in a rise in blood pressure and renal nerve activity, and inhibition, a fall in blood pressure and nerve activity.     

Hyper-responsiveness of adrenal sympathetic nerve activity in spontaneously hypertensive rats to ganglionic blockade, mental stress and neuronglucopenia

 Previous investigations indicate that the spontaneously hypertensive rat (SHR) has elevated sympathetic tone at rest. The present study aimed to determine whether SHR has exaggerated sympatho-adrenal activation in response to various sympathetic stimuli. The mean blood pressure (MBP), heart rate (HR) and preganglionic adrenal sympathetic nerve activity (SNA) were recorded from conscious, unrestrained SHR and from its normotensive control, the Wistar-Kyoto rat (WKY) (n=7, respectively).Ganglionic blockade (trimethaphan, 5 mg/kg) reduced MBP identically in both groups of rats. It did not change HR in SHR, but increased HR significantly in WKY (P<0.05). The adrenal SNA increased in both groups, but the magnitude of the increase was more than threefold greater in SHR (P<0.05). Mental stress caused by air-jet induced significantly greater tachycardia (threefold) and sympatho-adrenal activation (tenfold) in SHR than in WKY rats. In SHR the inhibition of glycolysis (2-deoxy-d-glucose, 500 mg/kg) also produced a profound activation of adrenal SNA (sevenfold) and the increased adrenal SNA was not paralleled by an increased HR. We conclude that a variety of sympathetic stimuli, including ganglionic blockade, mental stress and neuronglucopenia, cause exaggerated activation of preganglionic adrenal SNA in SHR compared with WKY, indicating that adrenal SNA in SHR is hyper-responsive. Received: 26 May 1998 / Received after revision: 30 July 1998 / Accepted: 11 August 1998     

Thermal and mechanical responses of the amphibian skin to nerve stimulation.

The isolated calf skin of the toad and bullfrog was found to generate a burst of heat in response to stimulation of the cutaneous nerve. The electric responses of the skin evoked by nerve stimulation invariably lagged behind the heat burst. The generation of a heat burst was followed by a slow mechanical response of the skin. Suppression of these responses by adrenergic blocking agents suggests that heat is produced at the junction between the gland cells and the sympathetic nerve fibers. Large mechanical changes in the skin were observed when noradrenaline was applied to the inner surface of the skin.     

Response of adrenal sympathetic efferent nerve activity to mechanical and thermal stimulations of the facial skin area in anesthetized rats

The effect of mechanical and thermal stimulations to the forehead or cheek innervated by the trigeminal nerve on adrenal sympathetic efferent nerve activity was studied in alpha-chloralose-urethane anesthetized rats. Innoxious mechanical stimulations to the forehead or cheek caused a reflex decrease of nerve activity, while noxious mechanical stimulations to the forehead or cheek caused a reflex increase in activity. Thermal stimulation of the forehead and bilateral cheeks at below 15 degrees C or above 45 degrees C increased activity though it failed to do so between 20 and 40 degrees C. These excitatory responses lasted only as long as the period of the stimulation. These results suggest that excitatory reflex responses mediated by supraspinal circuit to adrenal nerve activity are not, characteristically, of an enduring nature.     

The effect of carotid sinus nerve stimulation on muscle and skin nerve sympathetic activity in man

Summary Microelectrode recordings of multi-unit sympathetic activity were made in the right peroneal nerve of 4 awake human subjects during carotid sinus nerve stimulation. 36 periods of CSN-stimulation gave in all cases an inhibition of the muscle nerve sympathetic activity and there was good temporal agreement between this effect and the reduction of heart rate and blood pressure. The neural inhibition was marked during the first part of the stimulation but with continued stimulation the sympathetic activity reappeared, in most cases with reduced strength. In contrast, 20 periods of CSN-stimulation had no reproducible effect on skin nerve sympathetic activity. In most cases, the neural activity remained unchanged but both increases and decreases could occur. The results demonstrate that stimulation of carotid sinus baroreceptors in man has different effects on sympathetic outflow to different regions: A clear inhibition of the outflow to the muscles but no discernable effect on impulses destined to the skin.     

The role of the adrenal medulla in cardiovascular responses to hypertonic saline in haemorrhaged conscious rats

The aim of this study was to determine if the adrenal medulla plays a role in mediating haemodynamic effects of hypertonic saline (HTS) resuscitation during haemorrhagic hypotension in conscious rats. Wistar-Kyoto rats were either adrenomedullectomized (ADMX, n = 11) or sham-operated (SHAM, n = 10) and implanted with intravascular catheters. Pre-haemorrhage resting mean arterial pressure (MAP) was lower in the ADMX than in the SHAM group. Haemorrhage was performed by withdrawal of blood through the venous catheter, and a MAP of 50 mmHg was maintained for 1 h by further withdrawal when necessary. Both groups responded to haemorrhage with marked bradycardia. Plasma adrenaline (A) rose 10-fold in response to hypotension in the SHAM group, while remaining at pre-haemorrhage levels in the ADMX group, indicating successful adrenal demedullation. Infusion of 2.0 ml kg^-1 HTS (NaCl 8.0 mg ml^-1 i.v.) produced an immediate increase in MAP and heart rate (HR) in both groups, to pre-haemorrhage values or higher. Plasma noradrenaline (NA) increased in both groups after HTS, while the high levels of A in the SHAM group slowly returned toward baseline. Plasma glucose and rate of haemodilution was higher in the SHAM group during and after hypotension. The maintenance of MAP above 60 mmHg was less effective in the SHAM group during the first 2 h after HTS, but after 24 h, pre-haemorrhage MAP was established in both groups. In conclusion, the adrenal medulla does not play a major role in the response to HTS resuscitation.     

自发性高血压大鼠交感神经节与肾上腺髓质内NPY的表达及超微结构的变化

目的:通过对自发性高血压大鼠(SHR)颈上神经节、肾上腺髓质内神经肽酪氨酸(NPY)表达及超微结构变化的研究,探讨NPY在高血压发生和发展中的作用。方法:随机选取成年大鼠60只,分成SHR组和正常对照组,每组各30只,采用Real-Time PCR技术和免疫组织化学法,检测两组大鼠颈上神经节、肾上腺髓质内NPYmRNA和蛋白的表达;应用透射电镜技术观察上述两种组织内超微结构的改变。结果:与同周龄的正常组大鼠相比,SHR大鼠的血压明显增高(P<0.05),RT-PCR和免疫组织化学方法检测到颈上神经节、肾上腺髓质内NPYmRNA和蛋白质的表达均增高(P<0.05),NPY免疫阳性神经元的数量和阳性细胞的光密度亦增加(P<0.05)。电镜结果示SHR大鼠两种组织内异染色质、线粒体、粗面内质网等数量均明显增加(P<0.05)。结论:SHR颈上神经节、肾上腺髓质内的NPY通过复杂的机制可能参与了高血压的形成。     

Responses of adrenal sympathetic nerve activity and catecholamine secretion to cutaneous stimulation in anesthetized rats

Reflex effects of cutaneous mechanical stimulation on adrenal sympathetic efferent nerve activity and secretion rates of the adrenal medullary hormones (epinephrine and norepinephrine) were studied in anesthetized rats. Noxious pinching stimulation of the lower chest or hindpaw skin for 3 min produced proportional reflex increases in both the nerve activity and secretion rates of epinephrine and norepinephrine from the adrenal medulla in animals with an intact central nervous system. However, lower chest stimulation elicited a longer lasting response than hindpaw stimulation, 7-17 min vs 1 min after cessation of the stimulation, respectively. After spinal transection at the C1-2 level, only lower chest stimulation was capable of producing a reflex response, lasting 1 min after cessation of the stimulation. Contrary to the responses elicited by pinching, non-noxious brushing stimulation of the lower chest or hindlimb skin for 3 min in animals with an intact central nervous system produced proportional reflex decreases in nerve activity and epinephrine and norepinephrine secretion rates during the stimulation period only. Some slight increases in both nerve activity and secretion rates, lasting several minutes, followed cessation of the stimulation. However, in spinalized animals, non-noxious lower chest or hindlimb stimulation produced opposite effects, increasing both the nerve activity and secretion rates of epinephrine and norepinephrine. In spinalized animals lower chest brushing stimulation elicited a much stronger response than hindlimb brushing stimulation. It was concluded that; (1) the secretion of adrenal medullary hormones can be controlled reflexly by mechanical cutaneous stimulation through the central nervous system via adrenal sympathetic efferent nerves; (2) the excitatory effect of the cutaneo-adrenal medullary reflexes was independent of noxious or non-noxious stimulation at the spinal level, whereas in rats with an intact central nervous system the effect was either excitatory or inhibitory in response to noxious or non-noxious stimulation, respectively; (3) there is a marked segmental organization of this reflex at the spinal level which is modified into a generalized response through supraspinal central structures.     

脊髓小胶质细胞反应性在大鼠周围神经再生中的作用(英文)

为探讨大鼠坐骨神经损伤后脊髓小胶质细胞反应性、脊髓腹角运动神经元脱失与坐骨神经再生之间的关系,制备了SD大鼠右侧坐骨神经钳夹损伤模型,术后3d和7d测定相应脊髓节段小胶质细胞免疫反应性、腹角运动神经元数量,4周时于光镜和电镜下评价坐骨神经变性和再生。结果显示:(1)坐骨神经损伤后3d,脊髓腹角小胶质细胞OX-42免疫反应性开始明显增强(P<0.05);(2)脊髓腹角损伤同侧与对侧运动神经元数量比明显降低(P<0.05),说明同侧运动神经元存活数量减少;(3)组织学评价显示损伤神经再生不良;(4)simvastatin(一种降胆固醇药物,具有潜在的免疫调节作用)干预组较非simvastatin干预组小胶质细胞进一步激活,运动神经元存活数量增加,坐骨神经再生良好。本研究结果提示,脊髓腹角小胶质细胞的激活可能在大鼠周围神经损伤后的再生中发挥重要的保护作用。     

Responses of dorsal spinal cord blood flow to noxious mechanical stimulation of the skin in anesthetized rats

In urethane-anesthetized, artificially ventilated rats, alterations in dorsal spinal cord blood flow (SCBF) at the L4-6 level were measured with laser Doppler flowmetry in response to noxious mechanical cutaneous stimulation (pinching) of either a forepaw or a hindpaw. The stimulation was delivered ipsilaterally or contralaterally to the site of blood flow measurement. Pinching of the forepaw or the hindpaw on either side increased mean arterial pressure (MAP) to the same degree. However, the SCBF response to pinching of the ipsilateral hindpaw was significantly greater than that to other stimulations. These responses were not influenced by denervation of the baroreceptors. The responses of SCBF to pinching of the ipsilateral hindpaw persisted both after treatment with phenoxybenzamine and after spinalization at the C1-2 level, whereas the responses to pinching at other sites disappeared. The responses of MAP to stimulation at all four sites became negligible after treatment with phenoxybenzamine and after spinalization at the C1-2 level. These results indicate that noxious mechanical stimulation of the skin produces increases in SCBF via two mechanisms: one is via an elevation of systemic arterial pressure; the other is via a localized spinal mechanism evoked by ipsilateral, segmental inputs.     

Comparison of muscle sympathetic nerve activity during exercise in dominant and nondominant forearm

Summary To determine whether or not muscle endurance training alters exercise-induced sympathetic nerve response, we recorded muscle sympathetic nerve activity (MSNA) microneurographically during forearm exercise and compared MSNA between dominant (D) and nondominant (ND) forearms of players of racket sports. Three kinds of forearm exercise were conducted on each side; static (SHG) and dynamic (DHG, at a rate of 1 Hz) handgrip exercise at a loading of 25°10 of maximal voluntary contraction until exhaustion, and 10-min submaximal dynamic handgrip (at a rate of 1 Hz) at an intensity of 0.9 W. Heart rate, ventilation and blood pressure were also monitored at rest and during SHG and DHG exercises. During the last minute of SHG exercise, MSNA burst rate had increased on average by 290 (SEM 46) % in D and 330 (SEM 46) % in ND, while during DHG it increased by 288 (SEM 38) % in D and 344 (SEM 36) % in ND, respectively. There were no significant differences in the MSNA responses between D and ND forearms in either exercise modes. Significant increases in heart rate, ventilation and blood pressure during the last minute of fatiguing SHG and DHG were observed, but there were no significant differences between the two forearms. During submaximal DHG, while MSNA increased significantly above control values in both D and ND, the MSNA response was less in D than that in ND forearm. The results would suggest that exercise-induced MSNA responsiveness is influenced little by muscle endurance training but the intensity of response may be due to the magnitude of metaboreceptor stimulation in the exercising muscle.     

Effects of hydralazine on renal sympathetic nerve activity in normal and congestive heart failure rats

We investigated the effects of hydralazine on renal sympathetic nerve activity in anaesthetized heart failure rats. Sham-operated rats (group 1) received 0.5 mg kg^?1 of hydralazine as bolus and were then infused with 0.3–0.5 mg kg^?1 h^?1 for 3 h intravenously. Heart failure rats received either the same regime (group 2) as group 1, or the same volume of vehicle (group 3). Heart failure rats exhibited lower mean blood pressure (P < 0.05) and elevated renal sympathetic nerve activity (P < 0.01) in the basal state. In group 2, the mean blood pressure decreased 26% after 30 min of hydralazine administration and remained lower for 3 h, with unchanged renal sympathetic nerve activity. In group 1, the mean blood pressure decreased 36%, and the heart rate and renal sympathetic nerve activity were significantly inhibited. Bilateral vagotomy did not alter renal sympathetic nerve response to hydralazine, but resulted in tachycardia. The results indicate that hydralazine, despite its profound hypotensive effect, did not activate renal sympathetic nerve activity in heart failure rats and inhibited renal sympathetic nerve activity in sham-operated rats. This inhibition was not mediated through the vagal nerve.     

Responses of spinal cord neurones to noxious and non-noxious stimulation of the skin and testicle of the rat

In chloralose-urethane anaesthetized male rats, 24 single units in the lumbar spinal cord which responded to testicular compression were recorded extracellularly with micropipettes. All responded to noxious testicular compression. In addition, 2 units responded to innocuous testicular compression, 10 to noxious cutaneous stimulation and 2 to innocuous warming of the skin. Five units out of 24 had long ascending projections.