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Cloning of the PABA peptide hydrolase alpha subunit (PPHα) from human small intestine and its expression in COS-1 cells

Dumermuth, E. ; Eldering, J.A. ; Grunberg, J. ; [et al.]

Amsterdam : Elsevier

FEBS Letters 335 (1993), S. 367-375

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ISSN: 0014-5793

Keywords: Astacin ; COS-1 ; Enterocyte ; Human ; Meprin ; PABA peptide hydrolase ; Zinc-metalloendopeptidase

Source: Elsevier Journal Backfiles on ScienceDirect 1907 - 2002

Topics: Biology , Chemistry and Pharmacology , Physics

Type of Medium: Electronic Resource

URL: http://linkinghub.elsevier.com/retrieve/pii/0014-5793(93)80421-P

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Modulation of lemniscal input during conditioned arm movements in the monkey (1988)

Chapman, C. E. ; Jiang, W. ; Lamarre, Y.

Springer

Experimental brain research 72 (1988), S. 316-334

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ISSN: 1432-1106

Keywords: Cutaneous ; Sensory gating ; Evoked potentials ; Sensory cortex ; VPLc thalamus ; Medial lemniscus

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Summary Modulation of sensory transmission in the lemniscal system was investigated in 2 monkeys trained to perform a simple elbow flexion in response to an auditory cue. Evoked responses to peripheral stimulation were recorded in the medial lemniscus, sensory thalamus (ventral posterior lateral nucleus, caudal division, VPLc) and somatosensory cortex. Simultaneous recordings were made from the cortex and either the medial lemniscus or VPLc. At all recording sites, evoked responses to natural (air puff) or electrical, percutaneous stimulation were depressed prior to and during active movement. The time course of the depression was similar at all three levels; the magnitude of the decrease during movement was most pronounced at the cortical level. Cortical evoked responses to central stimulation of effective sites in either the medial lemniscus or VPLc were decreased during, but not before, the onset of movement. The decrease was less than that seen for peripheral evoked potentials. Passive movement of the forearm significantly decreased all but the lemniscal evoked potential. The results indicate that there is a centrally mediated suppression of somatosensory transmission prior to, and during movement, occurring at the level of the first relay, the dorsal column nuclei. During movement, reafferent signals from the moving arm decrease transmission at the thalamocortical level.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00250254

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Modulation of somatosensory evoked responses in the primary somatosensory cortex produced by intracortical microstimulation of the motor cortex in the monkey (1990)

Jiang, W. ; Chapman, C. E. ; Lamarre, Y.

Springer

Experimental brain research 80 (1990), S. 333-344

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ISSN: 1432-1106

Keywords: ICMS ; Motor cortex ; Cutaneous ; Somatosensory evoked potentials ; Somatosensory cortex ; Sensory gating ; Monkey

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Summary Previous studies have shown that the amplitude of somatosensory evoked potentials is diminished prior to, and during, voluntary limb movement. The present study investigated the role of the motor cortex in mediating this movement-related modulation in three chronically prepared, awake monkeys by applying low intensity intracortical microstimulation (ICMS) to different sites within the area 4 representation of the arm. Air puff stimuli were applied to the contralateral arm or adjacent trunk at various delays following the ICMS. Somatosensory evoked potentials were recorded from the primary somatosensory cortex, areas 1 and 3b, with an intracortical microelectrode. The principal finding of this study was that very weak ICMS, itself producing at most a slight, localized, muscle twitch, produced a profound decrease in the magnitude of the short latency component of the somatosensory evoked potentials in the awake money. Higher intensities of ICMS (suprathreshold for eliciting electromyographic (EMG) activity in the “target” muscle, i.e. that muscle activated by area 4 stimulation) were more likely to decrease the evoked response and produced an even greater decrease. The modulation appeared to be, in part, central in origin since (i) it preceded the onset of EMG activity in 23% of experiments, (ii) direct stimulation of the muscle activated by ICMS, which mimicked the feedback associated with the small ICMS-induced twitch, was often ineffective and (iii) the modulation was observed in the absence of EMG activity. Peripheral feedback, however, may also make a contribution. The results also indicate that the efferent signals from the motor cortex can diminish responses in the somatosensory cortex evoked by cutaneous stimuli, in a manner related to the somatotopic order. The effects are organized so that the modulation is directed towards those neurones serving skin areas overlying, or distal to, the motor output.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00228160

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Modulation of the cutaneous responsiveness of neurones in the primary somatosensory cortex during conditioned arm movements in the monkey (1991)

Jiang, W. ; Chapman, C. E. ; Lamarre, Y.

Springer

Experimental brain research 84 (1991), S. 342-354

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ISSN: 1432-1106

Keywords: Somatosensory cortex ; Sensory gating ; Voluntary movement ; Single units ; Cutaneous ; Monkey

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Summary The present experiments were designed to investigate the neuronal mechanisms, at the level of the primary somatosensory cortex, which underlie the observation that somatosensory cortical potentials evoked by air puff stimuli directed at the forearm are decreased, in a nonspecific and widespread manner, during voluntary movements about the elbow. Unitary discharge was recorded from 131 cells receiving cutaneous input from the hairy skin of the forearm or hand (areas 3b and 1) of two monkeys trained to perform rapid movements of the contralateral arm (elbow flexion or extension). Evoked unitary responses to air puff stimuli applied to the centre of the cell's receptive field, at various delays before and after the onset of movement, were recorded. Movement produced a significant decrease in the short latency excitatory response to the air puff in 89% of the cells (117/131); the remaining 11% were not modulated by movement. This movement-related “gating” of cutaneous inputs occurred regardless of the response pattern of the cells to movement alone, being observed in 91% of the cells with no movement-related discharge, and 89% of those with movement-related discharge. The air puff responses of cells with inputs from the forearm and the dorsum of the hand were all similarly modulated by movement and the modulation was clearly present prior to the onset of movement (mean onset, -66 ms). Variation in the depth of modulation as a function of the direction of the movement, flexion or extension, was observed in only a very small proportion of the modulated units (16/117); most showed no relationship to direction. It is suggested that, in this experimental situation, much of the modulation appears to occur at a pre-cortical level since there was no relationship between the pattern of discharge of cells in relation to movement alone and the pattern of movement-related gating of their responses to the air puff. Effects which might be consistent with a cortical origin for the modulation were only infrequently observed. The present results are strikingly similar to those obtained using the evoked potential method, and thus support the hypothesis that, in this task of rapid elbow movements, movement modulates the transmission of cutaneous signals from the hairy skin of the distal forelimb to primary somatosensory cortex in a nonspecific and widespread fashion.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00231455

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