Stanislava Zhuravleva scite author profile

Stanislava Zhuravleva

4Publications

31Citation Statements Received

50Citation Statements Given

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Affiliations

National Academy of Sciences of Ukraine, Bogomoletz Institute of Physiology

Publications

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Divalent cation selectivity of the subtypes of low voltage-activated Ca2+ channels in thalamic neurons

1999

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LVA Ca2+ current in isolated associative neurons from the laterodorsal thalamic nucleus of 14- to 17-day-old rats was dissected into two, 'fast' and 'slow', components based on the difference in the kinetics of inactivation. The selectivity of the channel responsible for the fast LVA current for Ca2+, Sr2+ and Ba2+ (I(Ca):I(Sr):I(Ba) = 1.0:1.23:0.94) as well as the shifts of the I-V produced by these ions were found to be almost identical to those observed for LVA channels in other preparations. The channel responsible for the slow LVA current showed selectivity more characteristic of HVA Ca2+ channels (I(Ca):I(Sr):I(Ba) = 1.0:2.5:3.4), although the ability of Ca2+, Sr2+ and Ba2+ to shift its voltage dependence remained the same as for the fast channel.

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Subtypes of low voltage-activated Ca 2+ channels in laterodorsal thalamic neurons: possible localization and physiological roles

Zhuravleva

Kostyuk

Shuba

2001

Pfl�gers Archiv European Journal of Physiology

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The macroscopic, low-voltage-activated (LVA or T-type) Ca2+ current in isolated associative (or local-circuit) neurons from the laterodorsal thalamic nucleus of 14-17-day old rats was dissected into two components ("fast" and "slow"), corresponding to the activation of two LVA channel subtypes, based on the difference in the kinetics of inactivation and recovery from inactivation. The steady-state activation and inactivation properties of the channel subtypes endowed slow channels with a substantial window current, whereas fast channels had almost no such current. Fast channels were almost 2 times more sensitive to 30 microM nifedipine (78% inhibition), 10 microM flunarizine (92% inhibition) and 1 microM La3+ (87% inhibition), but about 1.8-fold less sensitive to 100 microM Ni2+ (32% inhibition) than slow channels (40%, 52%, 46% and 56% inhibition respectively). Both channels were almost equally sensitive to 100 microM amiloride (58% and 51% inhibition of fast and slow channels respectively). Comparison of the fast and slow LVA Ca2+ current amplitudes and densities between enzymatically isolated and intact (in brain slices) neurons suggest a predominant localization of the fast channels in soma and the proximal dendrites that remain intact during isolation procedure, whereas the slow channels are more evenly distributed with some preference to the distal areas. These data, together with our previous studies, support the notion of two LVA Ca2+ channel subtypes in associative thalamic neurons and suggest a role for the slow channels in providing the constant Ca2+ influx necessary for the outgrowth of the neurites and for the fast channels in the generation of low-threshold Ca2+ spikes and bursting activity.

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Expression of Ca2+ channels from rat brain with model phenylketonuria in Xenopus oocytes

et al. 1998

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Low voltage-activated Ca2+ conductances in thalamic neurons

et al. 1998

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Low voltage-activated (LVA) Ca 2 § conductances were characterized in the neurons of the associative laterodorsal (LD) thalamic nucleus In rat brain slices and in enzymatically isolated thalamic units using electrophysiological techniques. Voltage dependence, kinetics of inactivation, pharmacology, and selectivity of the LVA current in the thalamic neurons from animals older than 14 postnatal days were consistent with the existence of two, "fast" and "slow," subtypes of LVA Ca 2 § channels. "Slow" LVA current in enzymatically isolated thalamic neurons was much le.~ prominent, compared with that in slice neurons, suggesting that respective channels are predominantly located on the distal dendrites. "Fast" Ca 2 § channels were sensitive to nifedipine (Kd -2.6/zM) and La 3+ (Ka -1.0 raM), whereas "slow" Ca 2 § channels were sensitive to Ni 2 § (25/zM). Selectivity of the "fast" Ca 2+ channels was similar to that found for the LVA Ca 2 § channels in other preparations (1ca : Isr : IBa -1.0 : 1.23 : 0.94), while selectivity of the "slow" Ca 2 § channels more resembled selectivity of the HVA Ca 2 § channels (1ca : Ist : IB8 -1.0 : 2.5 : 3.4).

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