A population of Insula neurons encodes for social preference only after acute social isolation in mice.

The Insula functions as a multisensory relay involved in socio-emotional processing with projections to sensory, cognitive, emotional, and motivational regions. Notably, the interhemispheric projection from the Insula to the contralateral Insula is a robust yet underexplored connection. Using viral-based tracing neuroanatomy, ex vivo and in vivo electrophysiology, in vivo fiber photometry along with targeted circuit manipulation, we elucidated the nature and role of Insula communication in social and anxiety processing in mice.

Dopamine D Receptor Is a Regulator of Morphine-Induced Plasticity in the Rat Dorsal Striatum.

Long-term exposition to morphine elicits structural and synaptic plasticity in reward-related regions of the brain, playing a critical role in addiction. However, morphine-induced neuroadaptations in the dorsal striatum have been poorly studied despite its key function in drug-related habit learning. Here, we show that prolonged treatment with morphine triggered the retraction of the dendritic arbor and the loss of dendritic spines in the dorsal striatal projection neurons (MSNs).

Dopamine D2-Like Receptors Modulate Intrinsic Properties and Synaptic Transmission of Parvalbumin Interneurons in the Mouse Primary Motor Cortex.

Dopamine (DA) plays a crucial role in the control of motor and higher cognitive functions such as learning, working memory, and decision making. The primary motor cortex (M1), which is essential for motor control and the acquisition of motor skills, receives dopaminergic inputs in its superficial and deep layers from the midbrain. However, the precise action of DA and DA receptor subtypes on the cortical microcircuits of M1 remains poorly understood.

D5 dopamine receptors control glutamatergic AMPA transmission between the motor cortex and subthalamic nucleus.

Corticofugal fibers target the subthalamic nucleus (STN), a component nucleus of the basal ganglia, in addition to the striatum, their main input. The cortico-subthalamic, or hyperdirect, pathway, is thought to supplement the cortico-striatal pathways in order to interrupt/change planned actions. To explore the previously unknown properties of the neurons that project to the STN, retrograde and anterograde tools were used to specifically identify them in the motor cortex and selectively stimulate their synapses in the STN.

Inhibiting subthalamic D5 receptor constitutive activity alleviates abnormal electrical activity and reverses motor impairment in a rat model of Parkinson's disease.

Burst firing has been reported as a pathological activity of subthalamic nucleus (STN) neurons in Parkinson's disease. However, the origin of bursts and their causal link with motor deficits remain unknown. Here we tested the hypothesis that dopamine D5 receptors (D5Rs), characterized by a high constitutive activity, may contribute to the emergence of burst firing in STN.

Regulation of subthalamic neuron activity by endocannabinoids.

High levels of anandamide are located in the basal ganglia. The subthalamic nucleus (STN) is considered to be an important modulator of basal ganglia output. The present study aims at characterizing the modulation of the electrical activity of STN neurons by exogenous anandamide or endocannabinoids.

Inhibitory transmission in locus coeruleus neurons expressing GABAA receptor epsilon subunit has a number of unique properties.

Fast inhibitory synaptic transmission in the brain relies on ionotropic GABA(A) receptors (GABA(A)R). Eighteen genes code for GABA(A)R subunits, but little is known about the epsilon subunit. Our aim was to identify the synaptic transmission properties displayed by native receptors incorporating epsilon.

Involvement of Basal Ganglia network in motor disabilities induced by typical antipsychotics.

Background: Clinical treatments with typical antipsychotic drugs (APDs) are accompanied by extrapyramidal motor side-effects (EPS) such as hypokinesia and catalepsy. As little is known about electrophysiological substrates of such motor disturbances, we investigated the effects of a typical APD, alpha-flupentixol, on the motor behavior and the neuronal activity of the whole basal ganglia nuclei in the rat.

Methods And Findings: The motor behavior was examined by the open field actimeter and the neuronal activity of basal ganglia nuclei was investigated using extracellular single unit recordings on urethane anesthetized rats.

Noradrenergic modulation of subthalamic nucleus activity: behavioral and electrophysiological evidence in intact and 6-hydroxydopamine-lesioned rats.

The subthalamic nucleus (STN) plays a key role in the pathophysiology of Parkinson's disease. The modulation of the STN by norepinephrine, however, is unknown. The present study aims at characterizing the effects of systemic administration of noradrenergic agents on locomotor activity and on in vivo extracellularly recorded STN neuronal activity in intact and 6-hydroxydopamine (6-OHDA)-lesioned rats.

Dopamine receptors set the pattern of activity generated in subthalamic neurons.

Information processing in the brain requires adequate background neuronal activity. As Parkinson's disease progresses, patients typically become akinetic; the death of dopaminergic neurons leads to a dopamine-depleted state, which disrupts information processing related to movement in a brain area called the basal ganglia. Using agonists of dopamine receptors in the D1 and D2 families on rat brain slices, we show that dopamine receptors in these two families govern the firing pattern of neurons in the subthalamic nucleus, a crucial part of the basal ganglia.

A new ATP-sensitive K+ channel-independent mechanism is involved in glucose-excited neurons of mouse arcuate nucleus.

Glucose is known to modify electrical activity of neurons in different hypothalamic areas such as the arcuate nucleus (ARC) or the ventromedian nucleus. In these structures, it has been demonstrated that glucose-induced excitation of neurons involves ATP-sensitive K(+) (K(ATP)) channel closure. The aim of the present study was to determine whether ARC neurons were able to detect high extracellular glucose concentrations and which mechanisms were involved in this detection by using whole-cell and cell-attached patch-clamp techniques in acute mouse brain slices.

Sonic hedgehog is a neuromodulator in the adult subthalamic nucleus.

It is well established that members of the hedgehog family are involved in tissue patterning during development. We herein show that sonic hedgehog signaling molecules are differentially regulated by dopamine depletion in the basal ganglia of adult animals and specifically that sonic hedgehog levels are reduced in an animal model of Parkinson's disease. In addition, we show that sonic hedgehog protein inhibits electrical activity in the subthalamic nucleus, a key element of basal ganglia, within minutes of application.

D5 (not D1) dopamine receptors potentiate burst-firing in neurons of the subthalamic nucleus by modulating an L-type calcium conductance.

Dopamine is a crucial factor in basal ganglia functioning. In current models of basal ganglia, dopamine is postulated to act on striatal neurons. However, it may also act on the subthalamic nucleus (STN), a key nucleus in the basal ganglia circuit.

Activation of GABA(A) receptors in subthalamic neurons in vitro: properties of native receptors and inhibition mechanisms.

The subthalamic nucleus (STN) influences the output of the basal ganglia, thereby interfering with motor behavior. The main inputs to the STN are GABAergic. We characterized the GABA(A) receptors expressed in the STN and investigated the response of subthalamic neurons to the activation of GABA(A) receptors.

Molecular and electrophysiological evidence for a GABAc receptor in thyrotropin-secreting cells.

In the pituitary, GABA regulates the release of several hormones via different receptors. GABA(C) receptors are heterooligomers that differ from GABA(A) receptors in that they contain p-subunits and are insensitive to bicuculline. However, molecular and functional evidence for the presence of GABA(C) receptors outside the retina has yet to be established.

Intracellular calcium concentration and hormone secretion are controlled differently by TRH in rat neonatal lactotrophs and somatotrophs.

We studied the effects of TRH on the cytosolic free calcium concentration ([Ca2+]i) of female rat pituitary prolactin-secreting (lactotroph) and GH-secreting (somatotroph) cells in the early postnatal period, i.e. at postnatal days 5 and 10.

Long-term GABAA receptor activation increases [Ca2+]i in single lactotrophs.

Prolactin (PRL) release by pituitary lactotrophs is inhibited by gamma-aminobutyric acid (GABA). We have investigated the effect of long-lasting activation of GABAA receptors on membrane potential and cytosolic free calcium concentration ([Ca2+]i) in single identified lactotrophs. Membrane potential was recorded using the perforated patch-clamp technique and [Ca2+]i using indo 1 as a fluorescent Ca2+ probe.

Recording of a large-conductance chloride channel in normal rat lactotrophs.

Membrane current fluctuations resembling channel openings and closings were observed in the whole cell configuration of the patch-clamp technique in normal rat lactotrophs in primary culture. Using high-gain head stage in whole cell configuration, we characterized the nature and pharmacological properties of the ionic channel underlying these fluctuations. This channel, found in small numbers (< 10 per cell), was specific for Cl- because its reversal potential varied with Cl- gradients, according to the Nernst equation, and its unitary amplitude was linearly related to membrane potential from -100 to 0 mV.

Short applications of gamma-aminobutyric acid increase intracellular calcium concentrations in single identified rat lactotrophs.

We have investigated the direct effect of GABA receptor agonists on the cytosolic free calcium concentration ([Ca2+]i) and the membrane potential of rat lactotrophs in primary culture. [Ca2+]i was recorded in single identified lactotrophs by dual emission microspectrofluorimetry using indo-1 as intracellular fluorescent calcium probe. Whole cell and perforated patch-clamp were performed.

[Electrophysiological study of the action mechanism of somatoliberin (GH-RH) on hypophyseal GH3 tumor cells].

We have investigated the electrical response of patched GH3 cells to Growth-Hormone Releasing-Hormone (GH-RH). GH-RH (100 nM) enhanced firing frequency of action potentials. This is accompanied by membrane depolarization (5-10 mV) and conductance increase.

[Prevention of recurrent hemorrhage in patients with cirrhosis. Results of a controlled trial of propranolol versus endoscopic sclerotherapy].

Between July 1984 and March 1986, we conducted a prospective randomized trial comparing propranolol and endoscopic sclerotherapy in the prevention of recurrent variceal hemorrhage in a group of non selected alcoholic cirrhotics. Seventy-six patients with variceal hemorrhage were randomized to receive propranolol (P) (34 patients), or sclerotherapy (S) (42 patients) approximately 12 days after initial bleeding. The 2 groups were similar as concern age, sex, etiology of cirrhosis, severity of liver failure, the number of previous hemorrhages, and the severity of initial hemorrhage.

Electrophysiological response to thyrotropin-releasing hormone of rat lactotrophs in primary culture.

The response of rat pituitary cells to thyrotropin-releasing hormone (TRH) in primary culture was studied in the whole-cell configuration with the patch-clamp technique. Prolactin (PRL)-containing cells were identified in the culture with a peroxidase-antiperoxidase immunocytochemical method. The cells were cultured from the pituitaries of diestrous (D) and lactating (L) female rats.

[Phorbol myristate acetate promotes entry of calcium in hypophysial cells GH3 B6 via potential dependent calcium channels].

10 GH3/B6 cells were patched-clamped using a pipette containing NMG as internal cation, 2 mM ATP and 100 microM leupeptin. Whole-cell calcium or barium currents were recorded prior and after PMA (10(-8) or 10(-7) M). PMA increased the inward calcium current at potential levels close to threshold in 8 cells; 7 cells only exhibited an increase in transitory calcium current at potential levels close to threshold; in one cell, both transitory and conventional calcium currents were increased.