Direct electrical stimulation of the premotor cortex shuts down awareness of voluntary actions.

A challenge for neuroscience is to understand the conscious and unconscious processes underlying construction of willed actions. We investigated the neural substrate of human motor awareness during awake brain surgery. In a first experiment, awake patients performed a voluntary hand motor task and verbally monitored their real-time performance, while different brain areas were transiently impaired by direct electrical stimulation (DES). In a second experiment, awake patients retrospectively reported their motor performance after DES. Based on anatomo-clinical evidence from motor awareness disorders following brain damage, the premotor cortex (PMC) was selected as a target area and the primary somatosensory cortex (S1) as a control area. In both experiments, DES on both PMC and S1 interrupted movement execution, but only DES on PMC dramatically altered the patients' motor awareness, making them unconscious of the motor arrest. These findings endorse PMC as a crucial hub in the anatomo-functional network of human motor awareness.

Short echo-time Magnetic Resonance Spectroscopy in ALS, simultaneous quantification of glutamate and GABA at 3 T.

Cortical hyperexcitability has been found in early Amyotrophic Lateral Sclerosis (ALS) and is hypothesized to be a key factor in pathogenesis. The current pilot study aimed to investigate cortical inhibitory/excitatory balance in ALS using short-echo Magnetic Resonance Spectroscopy (MRS). Patients suffering from ALS were scanned on a 3 T Trio Siemens MR scanner using Spin Echo Full Intensity Acquired Localized (SPECIAL) Magnetic Resonance Spectroscopy in primary motor cortex and the occipital lobe. Data was compared to a group of healthy subjects. Nine patients completed the scan. MRS data was of an excellent quality allowing for quantification of a range of metabolites of interest in ALS. In motor cortex, patients had Glutamate/GABA and GABA/Cr- ratios comparable to healthy subjects. However, Glutamate/Cr (p = 0.002) and the neuronal marker N-acetyl-aspartate (NAA/Cr) (p = 0.034) were low, possibly due to grey-matter atrophy, whereas Glutathione/Cr (p = 0.04) was elevated. In patients, NAA levels correlated significantly with both hand strength (p = 0.027) and disease severity (p = 0.016). In summary SPECIAL MRS at 3 T allows of reliable quantification of a range of metabolites of interest in ALS, including both excitatory and inhibitory neurotransmitters. The method is a promising new technique as a biomarker for future studies on ALS pathophysiology and monitoring of disease progression.

Assessing Susceptibility to Epilepsy in Three Rat Strains Using Brain Metabolic Profiling Based on HRMAS NMR Spectroscopy and Chemometrics.

The possibility that a metabolomic approach can inform about the pathophysiology of a given form of epilepsy was addressed. Using chemometric analyses of HRMAS NMR data, we compared several brain structures in three rat strains with different susceptibilities to absence epilepsy: Genetic Absence Epilepsy Rats from Strasbourg (GAERS), Non Epileptic Control rats (NEC), and Wistar rats. Two ages were investigated: 14 days postnatal (P14) before the onset of seizures and 5 month old adults with fully developed seizures (Adults). The relative concentrations of 19 metabolites were assessed using (1)H HRMAS NMR experiments. Univariate and multivariate analyses including multiblock models were used to identify the most discriminant metabolites. A strain-dependent evolution of glutamate, glutamine, scyllo-inositol, alanine, and glutathione was highlighted during cerebral maturation. In Adults, data from somatosensory and motor cortices allowed discrimination between GAERS and NEC rats with higher levels of scyllo-inositol, taurine, and phosphoethanolamine in NEC. This epileptic metabolic phenotype was in accordance with current pathophysiological hypothesis of absence epilepsy (i.e., seizure-generating and control networks) and putative resistance of NEC rats and was observed before seizure onset. This methodology could be very efficient in a clinical context.

Organization of multisynaptic inputs from prefrontal cortex to primary motor cortex as revealed by retrograde transneuronal transport of rabies virus.

The organization of multisynaptic projections from the prefrontal cortex to the primary motor cortex (MI) was examined in macaque monkeys by retrograde transneuronal transport of rabies virus. In the first series of experiments, the virus was injected into the MI forelimb region, and the time-dependent distribution patterns of transsynaptic labeling were analyzed in the frontal lobe with various survivals (2-4 d). Two days after the viral injection, neuronal labeling emerged in the caudal aspects of the nonprimary motor-related areas that are known to project to the MI directly. At the same time, the motor thalamus contained labeled neurons. On the third day, cortical labeling extended into the rostral motor-related areas and, also, prearcuate area 8. Moreover, a number of labeled neurons were located in the internal pallidum and the cerebellar nuclei. At the 4 d postinjection period, neuronal labeling occurred widely in prefrontal areas as well as in the putamen and the cerebellar cortex. In the second series of experiments, the viral injection was made into the MI hindlimb region, and the distribution pattern of prefrontal labeling on the fourth day was compared with that in the forelimb-injection case. The labeled neurons in each prefrontal area were much fewer in the hindlimb-injection case than in the forelimb-injection case. Whereas ventral area 46 was most densely labeled from the forelimb region, only sparse labeling from the hindlimb region was observed in this prefrontal area. The present results suggest the importance of ventral area 46 in the cognitive control of forelimb movements.

Regional, laminar, and cellular distribution of immunoreactivity for ER alpha and ER beta in the cerebral cortex of hormonally intact, adult male and female rats.

Behavioral, biochemical and anatomical studies suggest that estrogen stimulates structure and/or function in the adult cerebral cortex. The studies presented here used immunocytochemistry to map the alpha and beta isoforms of intracellular estrogen receptors (ER alpha, ER beta) in major subdivisions of adult rat cortex to identify potential sites for relevant receptor-mediated hormone actions. These studies revealed that immunoreactivity for ER alpha (ER alpha-IR) and ER beta (ER beta-IR) was present in most cortical areas, was associated exclusively with neurons, and was similar in males and females. Each receptor isoform also had its own unique distribution with respect to cortical regions, layers, and cells. In sensorimotor areas, for example, ER beta-IR was more prominent than ER alpha-IR, and was concentrated in layer V neurons that were immunoreactive for parvalbumin. In contrast, ER alpha-IR was scattered among parvalbumin-immunonegative cells in layers II/III and V/VI. Likewise, in entorhinal cortex, ER beta-IR was present in calbindin-containing cells in layers III-VI, while ER alpha-IR was restricted to small numbers of calbindin-negative neurons in infragranular layers. In sum, ER beta-IR and ER alpha-IR were differentially distributed both with respect to cortical compartments and with respect to each other. Accordingly, estrogen activation at these two sites may be anticipated to impact disparate sets of cortical circuits, cells, and functions.

Maturation of locomotor and Fos responses to the NMDA antagonists, PCP and MK-801.

Antagonists at the N-methyl-D-aspartate (NMDA)-type glutamate receptor, such as phencyclidine (PCP) and dizocilpine (MK-801), are well-known to evoke increases in locomotor activity in adult rats and mice. However, little is known about the effects of NMDA antagonists on locomotor activity as a function of development. The present study examined locomotor responses to PCP or MK-801 in male rats of varying ages and found that prepubertal rats were more sensitive to the locomotor-elevating effects of PCP (1.5 mg/kg and 3. 0 mg/kg, s.c.) than were adults. Locomotor responses to MK-801 (0.1 and 0.2 mg/kg, s.c.) were not dependent on age. The age-dependent response to PCP may be related to developmental events in the motor cortex, since more Fos-immunoreactive neurons were observed in the motor cortex of prepubertal animals after PCP administration relative to adult animals. An opposite pattern of age-dependent Fos responses was observed in the posterior retrosplenial cortex. The results suggest that locomotor responses to NMDA antagonists can be influenced in an age- and drug-dependent manner and that maturational events in the motor cortex may modify responses to PCP.

Novel cerebral lesions in the Eker rat model of tuberous sclerosis: cortical tuber and anaplastic ganglioglioma.

The Eker rat is a model for human tuberous sclerosis (TSC) caused by a mutation in the Tsc2 gene. We describe here histological and immunohistochemical findings of the brain lesions in Eker rats, with emphasis on 2 novel lesions found in this study: a cortical tuber and an anaplastic ganglioglioma. The rat cortical tuber resembled those of humans, and further confirmed the value of this animal model as a tool for investigating the molecular pathology of tuberous sclerosis. On the other hand, the rat anaplastic ganglioglioma had features of a malignant neoplasm that are absent from human subependymal giant cell astrocytomas.

The effect of lesionectomy and the perilesional GABAergic neuronal changes in alumina cream-induced focal motor epilepsy in cats.

The effect of lesionectomy depends on the reversibility of the epileptogenic changes in the perilesional cortex. We studied how the perilesional GABAergic neuronal changes are related to the effect of lesionectomy in the alumina cream-induced focal epilepsy model in cats. Sequential changes of GABAergic neurons and spike activities were measured after the micro-injections of alumina cream (AC). Alumina granulomas were excised 15 days and 40 days after the injections. At day 20 following the AC injection, GABAergic neurons were decreased 25 to 40% compared with those in the contralateral intact cortex. At day 40, a significant increase of spike activities occurred. GABA positive cells were decreased more than 50% compared with those in the contralateral cortex. At day 80, significant cell loss in perilesional cortex was demonstrated. The effect of lesionectomy was greater in the early excised group than in the late excised group. Decrease of GABAergic neuron was more severe in the late excised group compared to the early excised group. Our results indicate that more than 50% reduction of perilesional GABA neurons may be a critical point in epileptogenesis in this model. Lesionectomy alone prior to a 50% reduction in perilesional GABAergic neurons may be sufficient for seizure control. With these data it is still unclear whether these findings contribute to the choice between lesionectomy alone and lesionectomy with resection of the perilesional cortex. Further study is needed to understand the difference between the AC epilepsy model and human chronic epilepsy.

Zif268 and Fos-like immunoreactivity in tetanus toxin-induced epilepsy: reciprocal changes in the epileptic focus and the surround.

Altered gene expression for a number of molecules has been suggested as one of the underlying mechanisms of epileptogenesis. Changes in expression of the immediate early genes, zif268 and c-fos, were investigated in chronic focal epilepsy induced by tetanus toxin (TT, 20-35 ng) injected in the rat motor cortex. Most rats injected with TT and perfused on postoperative day 5, 7 or 14 had recurrent focal seizures after a latent period of 4-13 days, and showed enhanced Zif268 immunoreactivity in a cluster of neurons at the injection site, as well as reduced Zif268 immunoreactivity in a distinct cortical zone around this cluster. C-fos or Fos-related immunoreactivity was decreased over widespread areas of frontoparietal and piriform cortex in epileptic rats, except for a focus at the injection site which, in most cases, showed increases in Fos-like immunoreactivity. Some epileptic rats showed increased Zif268 immunoreactivity in neurons of the ipsilateral ventral lateral and central lateral thalamic nuclei and increased Zif268 and Fos-like immunoreactivity in the pontine nuclei. Rats perfused before onset of seizures, showed no overt changes other than a slight decrease in Zif268 and Fos-like immunoreactivity at the injection site. The reciprocal changes in Zif268 immunoreactive neurons in the epileptic focus and the immediate surround parallel changes in gene expression for a number of molecules important in epileptogenesis and suggest a state of functional disconnection of the epileptic focus from other cortical areas that may contribute to the development and maintenance of focal epilepsy.

Projeçöes diencefálicas para o córtex motor e o núcleo pedunculopontino do tegmento, imunorreativas ao hormônio concentrador de melanina (MCH) e/ou ao neuropeptídeo EI (NEI): um estudo com múltiplos traçadores neuronais / Diencephalic origns of melanin-concentrating hormone-and neuropeptide EI - immunoreactive projections to pedunculopontine nucleous and motor cortex: a study with multiple neuronal tracers

O hormônio concentrador de melanina (MCH) é um heptadecapeptídeo cíclico descrito pela primeira vez em hipófise de salmäo e posteriormente em alguns mamíferos. Os corpos celulares McH-ir encontram-se localizados em regiöes específicas do sistema nervoso central (SNC) do rato, como a Zona Incerta (EI) e a Área Hipotalâmica Lateral (AHL) enquanto que as fibras apresentam-se espalhadas por todo o neuro-eixo. Indica que a inervaçäo cortical é densa e homogênea por todo o neocórtex, assim como, a inervaçäo de várias regiöes da formaçäo reticular, como o núcleo pedunculopontino do tegmento (PPTg). Faz um estudo com múltiplos traçadores neuronais em ratos albinos machos (Wistar) usando 6 procedimentos distintos. Utiliza injeçöes de Diamidino Yellow (DY) no córtex motor (CxM) e de True Blue (TB) no PPTg. Demonstra a existência de neurônios MCH-ir marcados com ambos os traçadores distintamente, tanto na ZI quanto na AHL. Realiza controle com leucoaglutimina do Phaseolus vulgaris (PHA-L) injetado nestes territórios, demonstrando a inervaçäo do CxM e do PPTg originários das regiöes onde as células dupla e triplamente marcada foram encontradas. Conclui que estas células säo também NEI-ir; os resultados envidenciam a presença de colaterais de AHL e ZI para 2 regiöes de SNC envolvidas com o comportamento locomotor. Discute a pesquisa em termos de envolvimento do MCH com o comportamento alimentar, que justamente com o locomotor indica uma atuaçäo na busca do alojamento (a maior quantidade de células marcadas säo originárias de fibras localizadas na regiäo motora das vibrissas), e no sistema reticular ativador ascendente

Laminar patterns of expression of GABA-A receptor subunit mRNAs in monkey sensory motor cortex.

Radioactive complementary RNA probes, made from monkey-specific cDNAs specific for the alpha 1, alpha 2, alpha 4, alpha 5, beta 1, beta 2, and gamma 2 subunits of the gamma-aminobutyric acid A (GABAA) receptor were used for in situ hybridization histochemistry of the primary motor, somatosensory, and anterior parietal areas of the cerebral cortex in macaque monkeys. mRNAs for the alpha 1, beta 2, and gamma 2 subunit polypeptides, which form receptors with the full range of classical properties, are expressed at much higher levels in all areas and show laminar- and sublaminar-specific concentrations. alpha 2, alpha 4, alpha 5, and beta 1 subunit transcripts are expressed at much lower levels but also display individual, laminar-specific concentrations; alpha 5 expression, in particular, is highly expressed in layer IV in the somatosensory and parietal areas and in a layer IV-like band in the motor cortex. In layers in which expression of a particular transcript is high, all neurons may express the gene, but in layers in which expression is moderate, it is possible to detect differences in the degree of labeling of individual neurons for a particular mRNA, and some neurons may not express certain subunit transcripts in detectable amounts. These findings indicate the variability in expression of different GABAA receptor subunits in the cerebral cortex. Laminar differences may indicate the assembly of functional receptors from different arrangements of available subunits in different classes of cells.

[The use of phenylthiocarbamide for evaluating the degree of cAMP-dependent resistance to hypoxia in animals]. / Ispol'zovanie feniltiokarbamida dlia otsenki stepeni tsAMF-zavisimoi rezistentnosti zhivotnykh k gipoksii.

Responses to a 5-min anoxia were studied in cats with different taste sensitivity for phenilthiocarbamide (PTC). The sensitive animals were more resistant against hypoxia. The difference in the cats seems to be determined by the condition of the cAMP system involved in adaptive responses.

[Adenylate cyclase and 5'-nucleotidase activities in the sensorimotor and limbic structures of the rat brain after training in a manipulative skill]. / Aktivnost' adenilattsiklazy i 5'-nukleotiday v sensomotornykh i limbicheskikh strukturakh mozga krys posle obucheniia manipuliatornomu navyku.

The activities of adenylate cyclase (AC) and 5'-nucleotidase (NT) were studied in the limbic (amygdala, hippocampus) and sensorimotor (cortex, striatum) brain structures of three rat groups: control (without training), not well and well learning to perform movements with pushing the operandum. It was found, that after training the activity of AC was decreased in all structures studied. Moreover, in the cortex and the striatum the decrease was more pronounced in the group of well learning rats, while in the amygdala--in not well learning ones. The activity of NT in all brain structures, excepting the striatum, was more significantly decreased in the rats with low ability to learn the movements with prolonged pushing. Only in the striatum the increase of NT activity (initially the lowest in the control animals--1.0 +/- 0.04 microgram P(i)/mg protein/min) up to 1.3 +/- 0.1 in not well and up to 2.0 +/- 0.1 in well learning animals was found. The interhemispheric [correction of intrahemispheric] asymmetry of AC activity in the cortex and of NT in the hippocampus was revealed. Thus, the changes of the activity of the enzymes, participating in the biogenesis of adenosine (NT) and c-AMP (AC) are different in the limbic and sensorimotor structures dependently on learning ability of rats. The increase of NT activity after learning only in the striatum could reflect a specific role of purinergic system of this brain structure in the regulation of sensory controlled movements.

[Changes in the level of cyclic nucleotides in the left and right sensorimotor areas of the cerebral cortex in rats after corazol-induced kindling]. / Izmeneniia urovenia tsiklicheskikh nukleotidov v levoi i pravoi sensomotornoi oblasti kory mozga krys posle korazolovogo kindlinga.

Levels of cAMP and cGMP in the left and right areas of the rat sensorimotor cortex (SMC) 7 days after pentylenetetrazole kindling (30 days) were determined by radioimmunological assay. It is shown that levels of cyclic nucleotides remained unchanged in rats SMC 7 days after single injection of seizure dose (70 mg/kg) of pentylenetetrazole. Levels of cAMP and cGMP in SMC increased by 2-3 times after 30-day administration of physiological saline as compared to single injection; cortical asymmetry of cAMP and cGMP is absent. Differences in the levels of cyclic nucleotides in sensitive and low-sensitive animals to pentylenetetrazole were not revealed. When kindling was completed cGMP level increased in right SMC and it decreased in left SMC as compared to control animals; cAMP level was unaltered in left and increased in right SMC. The role of cortical asymmetry of cyclic nucleotides development of seizure state is discussed.

[The DNA content of the neurons in the embryonic cerebellum transplanted into the cerebral cortex of adult rats]. / Soderzhanie DNK v neironakh émbrional'nogo mozzhechka, transplantirovannogo v koru golovnogo mozga vzroslykh krys.

Cerebellum of rat embryos at day 17 of gestation was transplanted into sensomotor cortex of adult syngenic rats. DNA content in granule and Purkinje cells of the transplant was determined cytophotometrically on day 30 after surgery. It is shown that granule cells are diploid; about 3% Purkinje cells contain hyperdiploid and tetraploid nuclei which corresponds to the content of such cells in the adult cerebellum. The conclusion is drawn that cell hyperploidy does not depend on the functional load but is essential property of the tissue.

[Dynamics of calmodulin in cerebral structures under the action of modulated UHF electromagnetic fields]. / Dinamika kal'modulina v strukturakh mozga pri vozdeistvii modulirovannogo SVCh-polia.

The influence of modulated UHF-electromagnetic fields (low intensity) on calmodulin levels in several brain structures was studied. It was shown that UHF-electromagnetic fields influence calmodulin levels in the hypothalamus and sensorimotor cortex. Its effect depends on modulation regimes.