Ivana Gritti

GABAergic and other noncholinergic basal forebrain neurons, together with cholinergic neurons, project to the mesocortex and isocortex in the rat.

The extrathalamic relay from the brainstem reticular formation to the cerebral cortex in the basal forebrain has been thought to be constituted predominantly, if not exclusively, by cholinergic neurons. In contrast, the septohippocampal projection has been shown to contain an important contingent of γ‐aminobutyric acid (GABA)ergic neurons. In the present study, we investigated whether GABAergic neurons also contribute to the projection from the basal forebrain to neocortical regions, including the mesocortex (limbic) and the isocortex in the rat. For this purpose, retrograde transport of cholera toxin (CT) was examined from the medial prefrontal cortex for the mesocortex and from the parietal cortex for the isocortex and was combined with dual‐immunohistochemical staining for either choline acetyltransferase (ChAT) or glutamic acid decarboxylase (GAD) in adjacent series of sections.

Parvalbumin, Calbindin, or Calretinin in Cortically Projecting and GABAergic, Cholinergic, or Glutamatergic Basal Forebrain Neurons of the Rat

The basal forebrain (BF) plays an important role in modulating cortical activity and facilitating processes of attention, learning, and memory. This role is subserved by cholinergic neurons but also requires the participation of other noncholinergic neurons. Noncholinergic neurons include γ‐amino butyric acidergic (GABAergic) neurons, some of which project in parallel with the cholinergic cells to the cerebral cortex, others of which project caudally or locally. With the original aim of distinguishing different subgroups of GABAergic neurons, we examined immunostaining for the calcium binding proteins (CBPs) parvalbumin (Parv), calbindin (Calb), and calretinin (Calret) in the rat. Although the CBP+ cell groups were distributed in a coextensive manner with the GABAergic cells, they were collectively more numerous. Of cells retrogradely labeled with cholera toxin (CT) from the prefrontal or parietal cortex, Parv+ and Calb+ cells, but not Calret+ cells, represented substantial proportions (∼35–45% each) that collectively were greater than that of GABAergic projection neurons. From dual immunostaining for the CBPs and glutamic acid decarboxylase (GAD), it appeared that the vast majority (>90%) of the Parv+ group was GAD+, whereas only a small minority (<10%) of the Calb+ or Calret+ group was GAD+. Significant proportions of Calb+ (>40%) and Calret+ (>80%) neurons were immunopositive for phosphate‐activated glutaminase, the synthetic enzyme for transmitter glutamate. The results suggested that, whereas Calret+ cells predominantly comprise caudally or locally projecting, possibly glutamatergic BF neurons, Parv+ cells likely comprise the cortically projecting GABAergic BF neurons and Calb+ cells the cortically projecting, possibly glutamatergic BF neurons that would collectively participate with the cholinergic cells in the modulation of cortical activity. J. Comp. Neurol. 458:11–31, 2003.

Stereological estimates of the basal forebrain cell population in the rat, including neurons containing choline acetyltransferase, glutamic acid decarboxylase or phosphate-activated glutaminase and colocalizing vesicular glutamate transporters.

The basal forebrain (BF) plays an important role in modulating cortical activity and influencing attention, learning and memory. These activities are fulfilled importantly yet not entirely by cholinergic neurons. Noncholinergic neurons also contribute and comprise GABAergic neurons and other possibly glutamatergic neurons. The aim of the present study was to estimate the total number of cells in the BF of the rat and the proportions of that total represented by cholinergic, GABAergic and glutamatergic neurons. For this purpose, cells were counted using unbiased stereological methods within the medial septum, diagonal band, magnocellular preoptic nucleus, substantia innominata and globus pallidus in sections stained for Nissl substance and/or the neurotransmitter enzymes, choline acetyltransferase (ChAT), glutamic acid decarboxylase (GAD) or phosphate-activated glutaminase (PAG). In Nissl-stained sections, the total number of neurons in the BF was estimated as approximately 355,000 and the numbers of ChAT-immuno-positive (+) as approximately 22,000, GAD+ approximately 119,000 and PAG+ approximately 316,000, corresponding to approximately 5%, approximately 35% and approximately 90% of the total. Thus, of the large population of BF neurons, only a small proportion has the capacity to synthesize acetylcholine (ACh), one third to synthesize GABA and the vast majority to synthesize glutamate (Glu). Moreover, through the presence of PAG, a proportion of ACh- and GABA-synthesizing neurons also has the capacity to synthesize Glu. In sections dual fluorescent immunostained for vesicular transporters, vesicular glutamate transporter (VGluT) 3 and not VGluT2 was present in the cell bodies of most PAG+ and ChAT+ and half the GAD+ cells. Given previous results showing that VGluT2 and not VGluT3 was present in BF axon terminals and not colocalized with VAChT or VGAT, we conclude that the BF cell population influences cortical and subcortical regions through neurons which release ACh, GABA or Glu from their terminals but which in part can also synthesize and release Glu from their soma or dendrites.

Decreased high density lipoprotein-cholesterol levels in male patients with transient ischemic attacks

Plasma lipid and lipoproteins levels were determined in a continuous series of 50 patients (36 males and 14 females), mean age around 50 years, with a clinical diagnosis of transient ischemic attacks (TIAs). TIA was defined as a sudden episode of focal cerebrovascular insufficiency, with complete resolution of the symptoms within 24 h. TIAs are considered an important prognostic symptom for ischemic cerebrovascular diseases, being manifest in approximately 45% of the patients later undergoing a complete stroke. Plasma total cholesterol levels did not differ in these patients, when compared with a similar series of patients of the same age and sex, free of cerebrovascular lesions. A slight elevation of mean triglyceride levels was detected in the patients of both sexes, as well as higher incidence of type IV hyperlipoproteinemia. The most significant finding, however, observed only in male TIA patients, was that of significantly reduced high density lipoprotein (HDL)-cholesterol levels. This reduction (-19.7% compared to the control group) is similar to that recently reported for patients with clear-cut ischemic cerebrovascular disease. The detection of decreased HDL-cholesterol levels in male TIA patients may be of considerable significance for a prognostic evaluation of this biochemical parameter.

Limbic and brainstem afferents to thalamic mediodorsal nucleus: a horseradish peroxidase study

Subcortical ipsilateral afferents to mediodorsal (MD) thalamic nucleus were investigated by retrograde transport of horseradish peroxidase (HRP). HRP was injected into the rostral and caudal part of MD following both a vertical and an oblique stereotaxic approach. We have identified MD afferents from the following structures: area septalis, amygdaloid complex, hypothalamus, mamillary bodies, tuberculum olfactorium, claustrum, ventral tegmental area, zona incerta, substantia nigra, griseum centralis, formatio reticularis mesencephali and pontis oralis. The projections from hypothalamus, amygdaloid nuclei and area septalis and reticular formation are in agreement with the integrative function of sensory afferents of this thalamic nucleus.

Enhancement of tonic and phasic events of rapid eye movement sleep following bilateral ibotenic acid injections into centralis lateralis thalamic nucleus of cats

The excitotoxin ibotenic acid (1.2-2.6 microliters of 50 micrograms/microliters) was injected bilaterally into the thalamic centralis lateralis nucleus of chronically implanted cats in order to study the effects of tonic excitation followed by destruction of perikarya on the sleep-waking cycle and its electrographic correlates. Ibotenate injections were performed under mild ketamine anaesthesia. Immediately afterwards, the animals showed behavioural arousal accompanied first by ocular nystagmiform movements and then by pontogeniculooccipital waves. By 6-10 h post-injection, the numbers of rapid eye movement sleep episodes, but not their duration, increased compared to the preinjection control period. The injection sites were histologically confirmed using conventional Thionin stains. Additional control was provided by retrograde transport of wheat-germ agglutinin conjugated with horseradish peroxidase. The present results suggest that a population of neurons important for ocular saccades, pontogeniculooccipital waves, and the state of desynchronized sleep is present in the internal medullary lamina, in particular in the centralis lateralis nuclei.

Changes in EEG spindle activity induced by ibotenic acid lesions of medialis dorsalis thalamic nuclei in the cat

The injection of an excitotoxin into medialis dorsalis thalamic nuclei (MD) elicited a short-term increase followed by a depression on EEG spindle waves in chronically implanted cats. This biphasic action provides further evidence to the hypothesis that MD plays a crucial role in transferring and inducing spindling on frontal cortex. In addition, retrograde horseradish peroxidase transport from previously lesioned MD labeled subcortical structures such as basal forebrain, anterior hypothalamus, reticular thalamic nucleus, ventral tegmental area, and locus coeruleus.

Calcitonin binding site distribution in the cat central nervous system: A wider insight of the peptide involvement in brain functions

Calcitonin (CT) binding site distribution has been studied in the cat CNS. The autoradiographic analyses of [125I]-eelCT (ECT) binding showed high density of silver grains in the mesencephalic PAG, in the raphe nuclei and in the dorsal horns, laminae I, IV, V, and VI, where ECT may act to inhibit nociceptive transmission. Other binding-rich areas included the caudatus, the amygdala, the hypothalamus, the substantia nigra, the locus coeruleus and the formatio reticularis mesencephalica. Medium to low density was seen, amongst other areas in the cortex piriformis, the hippocampus, the medial and intralaminar thalamus and the tractus spino-thalamicus. ECT binding site distribution revealed essentially homologous locations in the cat and rat CNS. At difference, the presence of binding in the piriform cortex and in discrete thalamic nuclei suggests a widespread involvement of ECT in a variety of central functions in addition to what already demonstrated.

Ibotenic acid lesions of the thalamic medialis dorsalis nucleus in the cat: Effects on the sleep-waking cycle

Bilateral ibotenic acid lesions of the thalamic medialis dorsalis nucleus in chronically implanted cats produced a significant reduction of slow wave sleep. Rapid eye movement sleep was also affected but in a less significant manner. The lesions were limited to the intermediate portion of the nucleus, which receives projections from the brainstem and prosencephalic structures implicated in sleep mechanisms. These results are consistent with the hypothesis that the medialis dorsalis nucleus plays an important role in the induction and maintenance of sleep.

Stress-related changes in calcitonin gene-related peptide binding sites in the cat central nervous system

The possibility of area-specific changes in binding sites for CGRP in response to stress was studied in cat CNS after repeated sleep-deprivation and restriction of movement. Brain sections were obtained from a cat placed under stressful conditions for 2 h the 1st day, 6 h the 2nd day and 24 h the 3rd day. Changes in CGRP binding sites were evaluated by an in vitro autoradiographic technique with 125I-Tyr-rat-CGRP as a ligand. The autoradiograms were then compared with those of control animals. The results show decreased labelling in the cortex prefrontalis and pyriformis and in some basal ganglia (n. caudatus, claustrum, n. entopedencularis). Increased CGRP binding site densities were seen in areas involved in the integration of sensory information, in the control of endocrine secretion and in those that participate in sleep-walking cycles. These changes in CGRP binding in selective CNS areas following stress suggests that CGRP plays a role in processes of adaptation.