Protein Information

ID 310
Name Ca v
Synonyms CA V; CA VA; CA5; CA5A; CAV; CAVA; Carbonate dehydratase VA; Carbonic anhydrase V…

Compound Information

ID 332
Name 4-aminopyridine
CAS 4-pyridinamine

Reference

PubMed Abstract RScore(About this table)
19302149 Ladera C, Martin R, Bartolome-Martin D, Torres M, Sanchez-Prieto J: Partial compensation for N-type Ca (2+) channel loss by P/Q-type Ca (2+) channels underlines the differential release properties supported by these channels at cerebrocortical nerve terminals. Eur J Neurosci. 2009 Mar;29(6):1131-40.
N-type and P/Q-type Ca (2+) channels support glutamate release at central synapses. To determine whether the glutamate release mediated by these channels exhibits distinct properties, we have isolated each release component in cerebrocortical nerve terminals from wild-type mice by specifically blocking N-type Ca (2+) channels with omega-conotoxin-GVIA and P/Q-type Ca (2+) channels with omega-agatoxin-IVA. In addition, we have determined the release properties at terminals from mice lacking the alpha (1B) subunit of N-type channels (Ca (v) 2.2) to test the possibility that P/Q-type channels can compensate for the loss of N-type Ca (2+) channels. We recently demonstrated that, while evoked glutamate release depends on P/Q- and N-type channels in wild-type nerve terminals, only P/Q-type channels participate in these knockout mice. Moreover, in nerve terminals expressing solely P/Q-type channels, metabotropic glutamate receptor 7 (mGluR7) fails to inhibit the evoked Ca (2+) influx and glutamate release. Here, we show that the failure of mGluR7 to modulate evoked glutamate release is not due to a lack of receptors, as nerve terminals from mice lacking N-type Ca (2+) channels express mGluR7. Indeed, we show that other receptor responses, such as the inhibition of forskolin-induced release, are preserved in these knockout mice. N-type channels are more loosely coupled to release than P/Q-type channels in nerve terminals from wild-type mice, as reflected by the tighter coupling of release in knockout nerve terminals. We conclude that the glutamate release supported by N- and P/Q-type channels exhibits distinct properties, and that P/Q-type channels cannot fully compensate for the loss of N-type channels.
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