Sympathetically mediated hypermetabolic response to cerebral ischemia in the rat

Cerebral ischemia, induced in rats by occlusion of the middle cerebral artery resulted in infarcts affecting the basal ganglia and adjacent frontoparietal cortex. Resting oxygen consumption was similar for sham-operated and ischaemic rats immediately after surgery but was elevated in the latter group (peak value 18-21% above controls) 5-6 h post occlusion. By 24 h, these values had returned to control levels. The increase in VO2 was inhibited by injection of the beta-adrenergic antagonist propranolol but was unaffected by injection of the cyclooxygenase inhibitor ibuprofen. The thermogenic activity of brown adipose tissue was assessed from in vitro binding of guanosine diphosphate to mitochondria isolated from intact and surgically denervated lobes of sham-operated and ischemic rats, 6 h after surgery. Brown adipose tissue specific guanosine diphosphate (GDP) binding was elevated by 86% in intact tissue from ischemic compared with sham-operated rats but was identical in denervated tissue from the two groups. Brown adipose tissue activity correlated with resting oxygen consumption in the ischemic group (r = 0.85, p less than 0.01) but not in controls (r = -0.35, NS). Thus occlusion of the middle cerebral artery in the rat may provide a representative model for both stroke and head injury in man. It is associated with a transient increase in metabolic rate and by sympathetically mediated activation of brown adipose tissue in the rat.     

Sex dependent behavioral response to frontal cortical suction lesions in the rat

Previous reports indicate that male rats given right (but not left) frontal cortical suction lesions develop hyperactivity accompanied by cortical norepinephrine depletions. In this study, female rats given such lesions to either hemisphere developed bilateral cortical norepinephrine depletions but no hyperactivity. Right lesion male rats developed both catecholamine depletions and hyperactivity. Thus, the lateralized hyperactivity response to these cortical lesions is sex-dependent and may involve sex differences in subcortical neural pathways.     

The capacity of central and peripheral catecholaminergic neurons to innervate the pineal organ and cerebral cortex of the rat: in vitro immunohistochemical observations

The locus coeruleus (LC) or superior cervical ganglion (SCG) of neonatal rats were co-cultured either with the pineal organ or cerebral cortex (CX) to investigate the innervating capacity of central and peripheral catacholamine neurons under these experimental conditions. After 2 weeks of co-culturing, cultures were fixed for tyrosine hydroxylase (TH) immunohistochemistry to examine the distribution of catecholamine neurons and their fibers. Glial fibrillary acidic protein and fibronectin immunohistochemistry was performed to determine the cell types proliferating around the explants. In LC/CX co-cultures, numerous astrocytes spread between the two explants, and TH-immunoreactive neurites were generally seen to invade CX explants. In contrast, neurite extension from LC to pineal explants occurred only when a glial cell sheet grew between the two explants, and when the pineal explants were not surrounded by a tight fibronectin-positive cell layer. Neurites of the SCG usually invaded both CX and pineal explants, regardless of the existence of glial or non-glial cell layer. These results indicate that central and peripheral catecholamine neurites have the potential of invading both the cortex and pineal, although they are distributed only in particular regions of the intact brain. The distribution of LC neurites, however, seems to be profoundly affected by the cell types spreading around the explants; glial cells appear to support LC neurite extension, whereas non-glial cells appear to inhibit it.     

Neuronal lesions and behavioral modifications in rat following cerebral ischemia and reperfusion

Neurons of the mammalian CNS differ in their vulnerability to various disease processes and other insults, particularly in their response to total anoxia/ischemia. In this study we have tested the histological and behavioral modifications induced by experimental conditions of partial cerebral ischemia in the rats. The specific morphological and histological alterations, observed in our experimental conditions of reversiblepartial cerebral ischemia, confirm the selective vulnerability of certain neuronal populations to ischemic injury and are also evidenced by behavioral modifications which may mirror the functional impairment observed in humans after a transitory ischemic attack.     

Distribution of cholinergic and catecholaminergic nerves in the colon of the rat with aganglionosis.

We compared localization and distribution of putative cholinergic fibers by acetylcholinesterase and of adrenergic fibers visualized by the glyoxylic acid technique in the aganglionic segment using whole mount preparations of aganglionosis rat (AGR) and compared them with those of normal littermates. We also attempted simultaneous staining of acetylcholinesterase (AChE) and catecholamine fluorescence (C-F) on the same whole mount preparations to compare the differences in distribution pattern. All AGR used in this study had narrowed segments of the bowel extending from the distal ileum to the anus, and had no ganglion cells in these narrowed segments. In the intermuscular space, normally occupied with myenteric ganglion, of the narrowed distal colon and rectum, various sizes of nerve bundles and fibers reactive for AChE and C-F appeared to make coarse and irregular networks. These thick nerve bundles appeared to ascend to the proximal colon and disappeared in the cecum. In the distal ileum, almost totally absence of AChE positive nerve fibers, but a few fine C-F fibers, probably associated with blood vessels, were observed. By the method of simultaneous staining of AChE and C-F method in the whole mount preparations, the thick nerve bundles in the narrowed segments showed both of AChE positive and C-F positive. However, there were differences in peripheral fine nerve fibers in the segment; especially numerous perivascular C-F positive nerve fibers, but a few AChE positive ones were found. In the upper aganglionic narrowed segments, greatly diminished numbers of AChE positive and C-F positive nerve fibers were found in the circular muscle layer and in the submucosal layer. In the lower aganglionic narrowed segments, there were thick nerve bundles, forming irregular interlaced network. The role of these extrinsic nerve fibers in aganglionic segments is unclear.     

Mechanism of cGMP contribution to the vasodilator response to NO in rat middle cerebral arteries

This study examined the mechanism by which cGMP contributes to the vasodilator response to nitric oxide (NO) in rat middle cerebral arteries (MCA). Administration of a NO donor, diethylaminodiazen-1-ium-1,2-dioate (DEA-NONOate), or 8-bromo-cGMP (8-BrcGMP) increased the diameter of serotonin-preconstricted MCA by 79 +/- 3%. The response to DEA-NONOate, but not 8-BrcGMP, was attenuated by iberiotoxin (10(-7) M) or a 80 mM high-K(+) media, suggesting that activation of K(+) channels contributes to the vasodilator response to NO but not 8-BrcGMP. The effects of NO and cGMP on the vasoconstrictor response to Ca(2+) were also studied in MCA that were permeabilized with alpha-toxin and ionomycin. Elevations in bath Ca(2+) from 10(-8) to 10(-5) M decreased the diameter of permeabilized MCA by 76 +/- 5%. DEA-NONOate (10(-6) M) and 8-BrcGMP (10(-4) M) blunted this response by 60%. Inhibition of guanylyl cyclase with 1H-[1,2,4]oxadiazole[4,3-a] quinoxalin-1-one (10(-5) M) blocked the inhibitory effect of the NO donor, but not 8-BrcGMP, on Ca(2+)-induced vasoconstriction. 8-BrcGMP (10(-4) M) had no effect on intracellular Ca(2+) concentration ([Ca(2+)](i)) in control, serotonin-stimulated, or alpha-toxin- and ionomycin-permeabilized vascular smooth muscle cells isolated from the MCA. These results indicate that the vasodilator response to NO in rat MCA is mediated by activation of Ca(2+)-activated K(+) channels via a cGMP-independent pathway and that cGMP also contributes to the vasodilator response to NO by decreasing the contractile response to elevations in [Ca(2+)](i).     

Lateralization in response to social stimuli in a cooperatively breeding cichlid fish

Cerebral lateralization, an evolutionarily ancient and widespread phenomenon among vertebrates, is thought to bestow cognitive advantages. The advantages of lateralization at the individual-level do not necessarily require that the entire population share the same pattern of lateralization. In fact, directional bias in lateralization may lead to behavioural predictability and enhanced predator success or prey evasion. Recent theory has suggested that population-level lateralization may be favored if individuals are better able to perform coordinated behaviours, providing a distinct advantage in cooperative contexts. Here we test whether the highly social, cooperatively breeding cichlid fish Neolamprologus pulcher shows lateralized responses to a social stimulus. We found population-level biases in males; on average male N. pulcher use their right eye/left hemisphere to view their mirror image. Individual females had a preferred hemisphere, but these preferences appeared not to be directionally aligned among females. We discuss these results in the context of coordinated social behaviour and suggest future research directions.     

Amygdalar catecholaminergic input to septal nuclei, relation to clomipramine actions on lateral septal neurons in the rat.

Antidepressants exert mixed actions on serotonergic and catecholaminergic systems. However, it is unknown whether a catecholaminergic blockade impinge on the actions of a tricyclic with serotonergic agonist properties (clomipramine) in limbic structures. The aim of the present study is to explore the effects of a catecholaminergic lesion in the basolateral amygdala on the firing rate of lateral septal, and hippocampal neurons in rats treated with clomipramine. An amygdaline lesion with 6-OHDA resembled the actions of clomipramine on the firing rate in lateral septal neurons, i.e. an increased rate of firing. However, the lesion blocked further effects of clomipramine on septal firing. Clomipramine decreased the firing rate in hippocampal neurons; however, neither the 6-OHDA lesion nor the added treatment with clomipramine modified the firing rate. It is concluded that an intact catecholaminergic amygdaloid input to lateral septal nuclei is necessary for clomipramine actions; however, the initial action of the tricyclic may involve a catecholaminergic blockade.     

Effects of paeoniflorin on the cerebral infarction, behavioral and cognitive impairments at the chronic stage of transient middle cerebral artery occlusion in rats

In the present study, the effects of paeoniflorin (PF), a characteristic monoterpene glucoside isolated from Paeoniae Radix, on cerebral infarction, neurological symptoms, tongue protrusion (TP) and performance in the water maze were examined at the chronic stage (4 weeks) of transient cerebral ischemia using a rat middle cerebral artery occlusion (MCAO) model. One-day (10 mg/kg, twice, s.c.) or seven-day (2.5-10 mg/kg, twice a day, s.c.) injection of PF significantly reduced the infarct volume as well as ameliorated the deficits in neurological symptoms caused by transient MCAO at chronic stage. Transient MCAO also induced impairments in TP and performance in the water maze. Treatment with PF was able to reverse or alleviate these impairments. These results indicate that PF may be effective for treatment of stroke.     

Reduction of the behavioral response to a viscero-peritoneal nociceptive stimulation during the development of experimental polyarthritis in the rat

Writhing behaviour induced by a viscero-peritoneal nociceptive stimulus (i.p. acetic acid) has been investigated during the development of arthritis experimentally induced in rats by s. c. injection of Mycobacterium butyricum; experiments were carried out at various (1-9 weeks) post-inoculation periods. In the most severe phase (2-5 weeks post-inoculation), when arthritis-induced hyperaesthesia was most pronounced, writhing behaviour was strongly reduced (80%). In the following period, the progressive decrease of hyperaesthesia was contemporaneous with a recovery of the writhing behaviour. We conclude that, in this chronic pain model, the behavioural reaction to a viscero-peritoneal nociceptive stimulus is impaired. Such heterotopic inhibitory processes could be relevant to some paradoxical clinical observations such as the masking of a pain by the experience of pain at another locus (i. e. counter-irritation phenomenon).     

Evaluation of the cerebral hemodynamic response to rhythmic handgrip.

The response of the cerebral circulation to exercise has been studied with transcranial Doppler ultrasound (TCD) because this modality provides continuous measurements of blood velocity and is well suited for the exercise environment. The use of TCD as an index of cerebral blood flow, however, requires the assumption that the diameter of the insonated vessel is constant. Here, we examine this assumption for rhythmic handgrip using a spectral index designed to measure trends in vessel flow. Nineteen normal subjects were studied during 5 min of volitional maximum rhythmic right handgrip at 1 Hz. TCD velocities from both middle arteries (left and right), blood pressure, and end-tidal PCO(2) were recorded every 10 s. A spectral weighted sum was also calculated as a flow index (FI). Averages were computed from the last 2 min of handgrip. Relative changes in velocity, FI, and pressure were calculated. The validity of FI was tested by comparing the change in diameter derived from equations relating flow and diameter. Mean blood pressure increased 23.8 +/- 17.8% (SD), and velocity increased 13.3 +/- 9.8% (left) and 9.6 +/- 8.3% (right). Although the mean change in FI was small [2.0 +/- 18. 2% (left) and 4.7 +/- 29.7% (right)], the variation was high: some subjects showed a significant increase in FI and others a significant decrease. Diameter estimates from two equations relating flow and luminal area were not significantly different. Decreases in FI were associated with estimated diameter decreases of 10%. Our data suggest that the cerebral blood flow (CBF) response to rhythmic handgrip is heterogeneous and that middle cerebral artery flow can decrease in some subjects, in agreement with prior studies using the Kety-Schmidt technique. We speculate that the velocity increase is due to sympathetically mediated vasoconstriction rather than a ubiquitous flow increase. Our data suggest that the use of ordinary TCD velocities to interpret the CBF response during exercise may be invalid.     

Immunohistochemical demonstration of catecholaminergic cell bodies in the spinal cord of the rat. Preliminary note

In order to elucidate the anatomy of the spinal dopaminergic system, an immunohistochemical study using a tyrosine-hydroxylase (TH) antibody was undertaken in the rat. Intracisternal 6-hydroxydopamine (6-OHDA) injections were administered to destroy most of the noradrenergic fibres that descend to the spinal cord while preserving the dopaminergic fibres. The density of the remaining TH-like immunoreactive fibres was relatively low at all levels of the spinal cord; the highest density was observed in layers III, IV and X. In addition, we report the first evidence for the existence of TH-like immunoreactive cell bodies at definite levels (especially sacral) of the spinal cord.     

The formation of catecholaminergic structures in the mediobasal hypothalamus of the rat

A study was made of the formation of catecholaminergic system in the medial basal hypothalamus of Wistar rat fetuses using histofluorescent method modified by de la Torre. In the periventricular region of 16-day fetuses the cells with green fluorescence characteristic for catecholamines were found. In 18-day fetuses catecholaminergic cells were found in paraventricular, arcuate and dorsomedial hypothalamic nuclei. In all the nuclei studied the number of catecholaminergic fibers and terminals of various size is greatly increased. The data obtained suggest that medial basal hypothalamus of 18-day fetuses has a complex catecholaminergic system.