The European journal of neuroscience
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In patients at risk of developing epilepsy after an initial precipitating injury to the brain, the epileptogenic latent period may offer a window of opportunity for initiating potential antiepileptogenic therapy in an attempt to prevent epilepsy from developing. One potential target for antiepileptogenesis is the development of neuronal hyperexcitability during the latent period. Surprisingly, some recent studies in models of temporal lobe epilepsy (TLE) have suggested that proconvulsant drugs could have favourable effects on epileptogenesis, resulting in the proposal of pursuing proconvulsant prophylaxis for epileptogenesis. ⋯ We then studied whether prolonged infusion of a proconvulsant dose of PTZ at different times after kainate or pilocarpine affected the development of epilepsy. PTZ did not prevent the development of spontaneous recurrent seizures and did not decrease their frequency or severity, but exerted only a moderate disease-modifying effect in that spontaneous seizures in the kainate model were significantly shortened. These data indicate that administration of proconvulsant drugs such as PTZ during the latent period following SE is not a promising strategy for preventing epilepsy.
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Neurons in the intermediate gray layer (SGI) of the mammalian superior colliculus (SC) receive dense cholinergic innervations from the brainstem parabrachial region. Such cholinergic inputs may influence execution of orienting behaviors. To obtain deeper insights into how the cholinergic inputs modulate the SC local circuits, we analysed the cholinergic responses in identified γ-aminobutyric acid (GABA)ergic and non-GABAergic neurons using SC slices obtained from GAD67-GFP knock-in mice. ⋯ On the other hand, the major response pattern in GABAergic neurons was either nIN only (26/54) or nIN + mIN (21/54), followed by nIN + mOUT (4/54), mOUT only (2/54), and no response (1/54). Thus, major effects of cholinergic inputs to both SGI GABAergic and non-GABAergic neurons are excitatory, but the response patterns in these two types of SGI neurons are different. Thus, actions of the cholinergic inputs to non-GABAergic and GABAergic SGI neurons are not simple push-pull mechanisms, like excitation vs inhibition, but might cooperate to balance the level of excitation and inhibition for setting the state of the response property of the local circuit.
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Emotionally salient experiences are better remembered than events that have little emotional context. Several lines of evidence indicate that the amygdala plays an important role in this emotional enhancement of memory. Visual recognition memory relies on synaptic plasticity in the perirhinal cortex, but little is known about the mechanisms involved in emotional enhancement of this form of memory. ⋯ In addition, the present results provide the first evidence that stimulation of the amygdala can reduce the threshold for LTP in the perirhinal cortex. Interestingly, this associative form of LTP requires β-adrenoceptor activation but not NMDA or L-VDCC activation. Knowing the mechanisms that control amygdala-perirhinal cortex interactions will allow better understanding of how emotionally charged visual events are remembered, and may help to understand how memories can consolidate and become intrusive in anxiety-related disorders.
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Psychological stress is a risk factor for the development of musculoskeletal pain of the head and neck; however, the basis for this relationship remains uncertain. This study tested the hypothesis that psychophysical stress alone was sufficient to alter the encoding properties of spinomedullary dorsal horn neurons and masseter muscle activity in male rats. Repeated forced swim conditioning increased markedly both the background firing rate and temporomandibular joint (TMJ)-evoked activity of neurons in deep dorsal horn, while neurons in superficial laminae were less affected. ⋯ The effects of stress were seen preferentially on neurons in deep dorsal horn and included enhanced responses to chemosensory input from the TMJ and mechanical input from overlying facial skin. The stress-induced elevation in TMJ-evoked masseter muscle activity matched well with the changes seen in dorsal horn neurons. It is concluded that the spinomedullary junction region plays a critical role in the integration of psychophysical stress and sensory information relevant for nociception involving deep craniofacial tissues.
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The developing brain is not a small adult brain. Voltage- and transmitter-gated currents, like network-driven patterns, follow a developmental sequence. Studies initially performed in cortical structures and subsequently in subcortical structures have unravelled a developmental sequence of events in which intrinsic voltage-gated calcium currents are followed by nonsynaptic calcium plateaux and synapse-driven giant depolarising potentials, orchestrated by depolarizing actions of GABA and long-lasting NMDA receptor-mediated currents. ⋯ Therefore, although the timetable of development differs in different brain structures, the g sequence is quite similar, relying first on nonsynaptic events and then on synaptic oscillations that entrain large neuronal populations. In keeping with the 'neuroarcheology' theory, genetic mutations or environmental insults that perturb these developmental sequences constitute early signatures of developmental disorders. Birth dating developmental disorders thus provides important indicators of the event that triggers the pathological cascade leading ultimately to disease.