Sodium-activated potassium conductance participates in the depolarizing afterpotential following a single action potential in rat hippocampal CA1 pyramidal cells

The depolarizing afterpotential (DAP) following an action potential increases the excitability of a neuron. Mechanisms related to the DAP following an antidromic or current-induced spike were studied in CA1 pyramidal cells by whole-cell recordings in hippocampal slices in vitro. In DAP-holding voltage curves, the DAP at 10 ms after the spike peak (DAP10) was extrapolated to reverse at about -50 mV. Increase of extracellular K(+) concentration increased DAP and neuronal bursting. DAP10 reversal potential shifted positively with an increase in [K(+)](o) and with the blockade of K(+) conductance using pipettes filled with Cs(+). Similarly, extracellular tetraethylammonium (TEA; 10 mM), 4-aminopyridine (3-10 mM) increased DAP and shifted the DAP10 reversal potential to a depolarizing direction. Decrease of [Ca(2+)](o) did not alter DAP significantly, suggesting a nonessential role of Ca(2+) in the DAP. Perfusion of tetrodotoxin (TTX; 0.1-1 microM) and replacement of extracellular Na(+) by choline(+) suppressed both spike height and DAP simultaneously. Replacement of extracellular Na(+) by Li(+) increased DAP and spike bursts, and caused a positive shift of the DAP10 reversal potential. It is suggested that Li(+) increased DAP by blocking an Na(+)-activated K(+) current. In summary, multiple K(+) conductances are normally active during the DAP following a single action potential.     

Application of image-guided surface coil P-31 MR spectroscopy to human liver, heart, and kidney

Localized phosphorus-31 magnetic resonance (MR) spectroscopy in humans has previously been accomplished with surface coils by means of depth-resolved surface coil spectroscopy or rotating frame experiments, in which the extent of tissue sampled critically depends on surface coil placement. The authors' goal was to modify the surface coil image-selected in vivo spectroscopy (ISIS) experiment to accomplish three-dimensional volume selection through application of selective pulses in the presence of B0 gradients. Advantages of ISIS include the ability to use proton images to define the volume of interest (VOI) and reduced dependence on exact positioning of the surface coil. However, rapid replication of the surface coil ISIS experiment can cause spectral contamination from signals originating outside the VOI. A modified version of the ISIS experiment was developed to alleviate contamination under conditions of rapid replication. Applications of localized P-31 MR spectroscopy for observation of high-energy phosphorus metabolites are presented in human liver, heart, and transplanted and normal kidney.     

Hypothalamic hamartoma: the role of surgery in a series of eight patients

Hypothalamic hamartoma are rare lesions. We report a new series of eight patients treated for precocious puberty (six cases) or gelastic seizures (two cases). Surgical resection was total in four cases (three pediculated and one sessile). Precocious puberty was controlled by surgical treatment in all cases. Gelastic seizures were controlled by medical treatment, but the patients did not become seizure free. We observed no mortality and no endocrinological or visual morbidity. The fact that a vascular ”rete mirabilis” was observed on the surface of the lesion in our surgical material is an argument favoring a vascular mechanism in precocious puberty. Coagulation of this vascular structure can help control precocious puberty. Our series confirms that the hypothalamic hamartoma can be surgically treated when patients fail to respond to medical treatment, when the length of the treatment cannot be tolerated by the chidren and their families, and when there are uncontrolled gelastic seizures Received: 14 February 2000     

Inactivation of the medial prefrontal cortex of the rat impairs strategy set-shifting, but not reversal learning, using a novel, automated procedure

The medial prefrontal cortex (mPFC) of the rat plays an essential role in behavioral flexibility, as lesions or inactivations of this region impair shifting between strategies or attentional sets using a variety of different behavioral tests. In the present study, we assessed the effects of inactivation of the mPFC on strategy set-shifting and reversal learning, using a novel, automated procedure conducted in an operant chamber. In Experiment 1, inactivation of the mPFC with bupivacaine did not impair the initial learning of a visual-cue (i.e.; always press the lever with a cue light illuminated above it) or a response (i.e.; always press the left lever) discrimination. Control rats required greater number of trials to shift from using a visual-cue to a response strategy than the opposite shift. mPFC inactivation impaired performance of a visual-cue-response set-shift, but not the easier response-visual-cue shift. In Experiment 2, pre-exposure to the visual-cue stimulus lights increased the difficulty of the response-visual-cue shift, reflected by a greater number of trials required by control rats to achieve criterion relative to those in Experiment 1. Under these conditions, inactivation of the mPFC did impair performance of this set-shift. In contrast, mPFC inactivation did not affect reversal learning of a response discrimination. These findings highlight the utility of this automated procedure for assessing set-shifting mediated by the mPFC. Furthermore, they reveal that the relative difficulty of the type of shift rats are required to perform has a direct impact on whether or not the mPFC contributes to this form of behavioral flexibility.     

The association of V249I and T280M fractalkine receptor haplotypes with disease course of multiple sclerosis

We investigated the association of CX3CR1 genotypes/haplotypes with MS and performed the prediction analysis of protein sequence variants' effects on CX3CL1/CX3CR1 interaction. We found no association of CX3CR1 with MS susceptibility. Frequency of I(249)T(280) haplotype was significantly lower in SP compared to RR patients (RR>10 years, OR=0.30, 95%CI=0.11-0.79, p=0.01; OR=0.53, 95%CI=0.18-1.56, p=0.2, in SP<10 years vs. RR>10 years). Prediction analysis showed that I249 T280 protein variant would significantly affect CX3CL1/CX3CR1 interaction. Our results suggest that CX3CR1 I???T??? haplotype could have protective effect for switch to SP MS. Further research is warranted to validate and replicate currently observed results.     

氯化四乙基铵及维拉帕米对家兔缺血心肌不应期的影响

实验比较了K⁺通道阻断剂氯化四乙基铵(TEA)及Ca²⁺通道阻断剂维拉帕米(verapamil,Ver)对家兔缺血性心室肌不应期(ERP)的影响。结果表明,阻断冠脉10min及30min后,缺血中心区(CIZ)和缺血边缘区(BIZ)心肌ERP比缺血前均明显缩短,而TEA和Ver均能延长急性缺血性心肌的ERP,可能对心肌缺血引起的心律失常有预防作用。     

Hippocampal long‐term potentiation is enhanced in urethane‐anesthetized RGS2 knockout mice

RGS2 is a member of the regulator of G‐protein signaling (RGS) family and has been implicated in cellular mechanisms associated with neuronal plasticity. Long‐term potentiation (LTP) of RGS2 knockout and wild‐type mice was examined at the Schaffer collaterals to CA1 pathway in urethane‐anesthetized mice in vivo to examine RGS2's possible role in the regulation of potentiation. As compared to wild‐type mice, RGS2 knockouts demonstrated much stronger LTP of the extracellular population spikes at the somatic and dendritic layers in CA1 region and more pronounced LTP of the population excitatory postsynaptic current sink. Under baseline conditions, RGS2 knockouts showed lower paired‐pulse facilitation of the excitatory postsynaptic potentials and associated current sinks in vivo as compared with wild‐type mice. The data show for the first time that RGS2 deficient mice in vivo differ from wild‐type mice in both short‐term and long‐term synaptic plasticity suggesting that RGS2 serves as a negative regulator of long‐term synaptic plasticity. © 2009 Wiley‐Liss, Inc.