Details

Autor(en) / Beteiligte

• Leenders, A. G. Miriam
• Van Den Maagdenberg, Arn M. J. M.
• Da Silva, Fernando H. Lopes
• Sheng, Zu-Hang
• Molenaar, Peter C.
• Ghijsen, Wim E. J. M.

Titel

Neurotransmitter release from tottering mice nerve terminals with reduced expression of mutated P- and Q-type Ca2+-channels

Ist Teil von

• The European journal of neuroscience, 2002-01, Vol.15 (1), p.13-18

Ort / Verlag

Oxford, UK: Blackwell Science, Ltd

Erscheinungsjahr

2002

Quelle

EBSCOhost Psychology and Behavioral Sciences Collection

Beschreibungen/Notizen

• Neurotransmitter release is triggered by Ca2+‐influx through multiple sub‐types of high voltage‐activated Ca2+‐channels. Tottering mice have a mutation in the α1A pore‐forming subunit of P‐ and Q‐type Ca2+‐channels, two prominent sub‐types that regulate transmitter release from central nerve terminals. Immunoblotting analysis of purified forebrain terminals from tottering mice revealed an 85% reduction in the protein expression level of the mutated α1A subunit compared to expression of the α1A subunit in wild‐type terminals. In contrast, the expression of the α1B subunit of the N‐type Ca2+‐channels was unchanged. Release of the amino acids glutamate and GABA and of the neuropeptide cholecystokinin (CCK) induced by a short (100 ms) depolarization pulse was unchanged in the terminals of tottering mice. Studies using specific blockers of Ca2+‐channels however, revealed a reduced contribution of P‐ and Q‐type Ca2+‐channels to glutamate and cholecystokinin release, whereas a greater reliance on N‐type Ca2+‐channels for release of these transmitters was observed. In contrast, the contribution of the P‐, Q‐ and N‐type Ca2+‐channels to the release of GABA was not altered in tottering mice. These results indicate that the expression of the α1A subunit was decreased in terminals from tottering mice, and that a decreased contribution of P‐ and Q‐type Ca2+‐channels to the release of glutamate and cholecystokinin was functionally compensated by an increased contribution of N‐type Ca2+‐channels.