ACTIONS OF STIMULATION TO MEDULLARY PYRAMID ON SINGLE NEURONS IN CAT'S MOTOR CORTEX By

Sawa, Masaichi; Maruyama, Naoshige; Kaji, Shizuo; Hanai, Taiji

doi:10.1111/j.1440-1819.1960.tb02253.x

Cited by 9 publications

(5 citation statements)

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“…The values of their membrane potentials at 230 C (Table 3) then fell within the range found at 370 C in cells identified by antidromic stimulation as pyramidal motoneurones (Phillips, 1956;Li, 1959;Sawa et al 1960). The gangliosides are n-acetyl-neuraminic acid H. HILLMAN AND H. HYDI@N containing fatty acids, which have a variety of biochemical properties, including that of restoring to cerebral slices their ability to respond biochemically to electrical stimulation, after it had been lost owing to the application of basic proteins (for review, see Mcllwain, 1963).…”

Section: Ganglioside Preparationsupporting

confidence: 64%

“…Recently, Ito, Hongo, Yoshida, Okada & Obata (1964) have recorded in Deiters' neurones of anaesthetized cats resting potentials of 50-70 mV. In mammalian pyramidal cells in vivo (Phillips, 1956;Sawa, Maruyama, Kaji & Hanai, 1960), and in cells which gave spike discharges in cerebral slices in vitro (Hillman, Campbell & McIlwain, 1963), the mean resting potentials were generally 50-55 mV, which is only 10-15 mV higher than those found here at the lower temperature. However, addition of a ganglioside preparation increased the resting potential to within the range found in vivo (Table 3).…”

Section: Ganglioside Preparationmentioning

confidence: 46%

“…Many amino acids and other agents applied iontophoretically to cerebral and spinal motoneurones depolarize them (Krnjevic & Phillis, 1963;Curtis, Perrin & Watkins, 1960;Curtis, Phillis & Watkins, 1960), but a ganglioside preparation here had the effect of increasing cellular polarization, as it did in cerebral slices (Hillman, 1961). The values of their membrane potentials at 230 C (Table 3) then fell within the range found at 370 C in cells identified by antidromic stimulation as pyramidal motoneurones (Phillips, 1956;Li, 1959;Sawa et al 1960). The gangliosides are n-acetyl-neuraminic acid H. HILLMAN AND H. HYDI@N containing fatty acids, which have a variety of biochemical properties, including that of restoring to cerebral slices their ability to respond biochemically to electrical stimulation, after it had been lost owing to the application of basic proteins (for review, see Mcllwain, 1963).…”

Section: Ganglioside Preparationmentioning

confidence: 64%

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Membrane potentials in isolated neurones in vitro from Deiters' nucleus of rabbit

Hillman¹,

Hydén²

1965

The Journal of Physiology

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The biochemical properties of isolated neurones of Deiters' nucleus of rabbit have been the subject of considerable study (for review, see Hyden, 1961), but their physiological status has not been investigated. In the present study, the ability of the isolated neurones of Deiters' nucleus to maintain resting potentials at 23°C has been demonstrated, and the effect of hypoxia, different medium glucose, potassium and sodium concentrations, and a ganglioside preparation has been examined. The latter agent was tested as it had been found to increase the membrane potential of cells in guinea-pig cerebral slices in vitro (Hillman, 1961). METHODS ApparatusA chamber was designed which would fit on a microscope stage, and allow the microelectrode to be in the same atmosphere as the cells; in this closed system, the cells could be subjected to a high concentration of oxygen, and could be viewed through the glass top of the chamber. The volume of the incubating medium was 300-400,u1. A drawing of the chamber is shown in Fig. 1. RecordingThe membrane potentials were recorded with micro-electrodes of tip diameter less than 11,, and resistances between 5 and 15 MQ2. These were attached to a non-polarizable electrode, connected to a Bak amplifier, and a Tektronix 502 oscilloscope. The electrode was mounted on a de Fonbrune micromanipulator, and the cells viewed through a Zeiss stereomicroscope II, 1958 model. They were usually penetrated under a magnification of 100 times. MediaFor more than a year attempts were made to record membrane potentials at 23 and 370 C in the Krebs-Ringer bicarbonate-glucose saline, of the same composition as had been used for studying guinea-pig cerebral slices in itro (Li & McIlwain, 1957; Hillman & Mcllwain, 1961). However, in this medium only 20-30 mV potentials could be recorded from the cells (Table 2, column 2).Therefore many variations in the K+, Na+, buffer, and glucose were tried. A solution containing the following constituents as final concentrations (mM) was finally adopted, because at room temperature it permitted mean membrane potentials of 39 mV, which could be significantly and reversibly altered (Table 1): NaCl 84, KCI 5, KH2PO4 1-24, MgSO4 1-3, CaCl2 2-8, NaHCO3 26 and glucose 50, equilibrated for at least 10 min with 95 % *Present address, Institute of Neurology, Queen Square, London.

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Section: Ganglioside Preparationsupporting

confidence: 64%

Section: Ganglioside Preparationmentioning

confidence: 46%

Section: Ganglioside Preparationmentioning

confidence: 64%

See 1 more Smart Citation

Membrane potentials in isolated neurones in vitro from Deiters' nucleus of rabbit

Hillman¹,

Hydén²

1965

The Journal of Physiology

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“…Depolarizing waves generated by single shocks to the medullary pyramid are considered to be excitatory post-synaptic potentials or EPSPs12, 15,17). In the course of strychninization, these elicited EPSPs become larger in amplitude and longer in duration, showing a similar pattern to the spontaneously occurring long-lasting depolarizing wave : Thus, it is quite reasonable to assume that the latter could also be summated EPSPs.…”

Section: Discussionmentioning

confidence: 99%

“…Hyperpolarizing waves elicited by the medullary pyramidal shocks are considered to be inhibitory post-synaptic potentials or IPSPs12, 15,17). Thus, by analogy in the cases of EPSPs above mentioned, hyperpolarizing waves.…”

Section: Discussionmentioning

confidence: 99%