Activation of P-type calcium channel regulates a unique thapsigargin-sensitive calcium pool in embryonic motoneurons

1. Whole cell recordings were obtained from pyramidal neurons acutely dissociated from the sensorimotor cortex of adult (from Lorenzon and Foehring, companion paper) and immature rats postnatal day 1 (P1) to adult. 2. Whole cell calcium channel currents were similar in appearance at all ages. Current amplitudes and estimated densities were initially low (approximately 16 pA/pF at ages < P6) and increased gradually, attaining adult values at approximately 4-5 wk postnatally (approximately 100 pA/pF). 3. L-type current was operationally defined as that blocked by 5 microM nifedipine, N-type current as that blocked by 1 microM omega-conotoxin GVIA, and P-type current as that blocked by 100 nM omega-agatoxin IVA. A resistant current remained in the presence of the combination of these three blockers. The proportions of these four current types did not change during ontogeny. 4. Few biophysical differences were found between the pharmacologically defined current components in adult or 1-wk-old cells. At both ages the resistant current had a more rapid time-to-peak and inactivated more completely and rapidly than the other three types. Resistant currents also activated at more negative potentials. N-, L-, and P-type currents activated at more positive potentials in 1-wk-old cells than in adult cells. For the resistant current, the voltage dependence of activation was not significantly different between the two ages.

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Whole cell and single-channel properties of a unique voltage-activated sustained calcium current identified in teleost retinal horizontal cells

Journal of Neurophysiology ◽

10.1152/jn.1996.75.2.609 ◽

1996 ◽

Vol 75 (2) ◽

pp. 609-619 ◽

Cited By ~ 12

Author(s):

C. L. Pfeiffer-Linn ◽

E. M. Lasater

Keyword(s):

Calcium Channel ◽

Calcium Current ◽

Single Channel ◽

Horizontal Cell ◽

Horizontal Cells ◽

Unique Type ◽

Whole Cell ◽

White Bass ◽

Cell Current ◽

P Type

1. A voltage-activated, sustained calcium current in white bass retinal cone horizontal cells was characterized on the basis of electrophysiological and pharmacological criteria. Studies were performed with the use of a combination of whole cell and single-channel analysis of outside-out excised patches from isolated, cultured retinal horizontal cells. 2. We found that the white bass sustained calcium channel represents a unique type of calcium channel. On the basis of our analysis, it does not fall into any current classification scheme. The horizontal cell channel shares some biophysical and pharmacological properties with the typical high-voltage-activated L-type channel, but it also has features in common with the P-type channel. 3. The biophysical characteristics of the channel were most typical of an L-type channel. It activated above -30 mV membrane potential and only very slowly inactivated. It had a single-channel conductance of 25 pS. 4. Like the typical L-type current, the horizontal cell current was sensitive to the dihydropyridine agonist Bay K 8644. It prolonged the channel open time, which resulted in a large increase in macroscopic current flow into the cell. However, unlike the typical L current, dihydropyridine antagonists (nifedipine, nimodipine, etc.) as well as the specific L-channel inhibitor diltiazem were only moderately effective at best. 5. In a previous study, we found the current was antagonized by a factor found in funnel-web spider toxin. Here we show that the current is completely blocked by low doses of omega-agatoxin IVA. These are characteristics of the P-type calcium channel. But unlike the P current, the horizontal cell current is relatively insensitive to low or high doses of omega-conotoxin MVIIC. 6. The overall combination of calcium channel characteristics sets apart the calcium channel in bass horizontal cells from previously described channels. It appears to be a unique, tissue-specific ion channel, which we have labeled the PL channel.

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