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| Field | Value |
| Title | Characterization of single-channel depolarizations in smooth muscle by analysis of ATP-activated membrane voltage noise |
| Names |
MANCHANDA, R
DANGE, SY |
| Date Issued | 1998 (iso8601) |
| Abstract | Membrane voltage "noise" produced by adenosine 5'-triphosphate (ATP) in smooth muscle cells has been analyzed to infer the properties of individual ATP-activated membrane ionic channels and compare these with the kinetics of the quantal synaptic potential in smooth muscle, the spontaneous excitatory junction potential (sEJP). Pressure application of ATP (10 mu M in Krebs solution) for 10-30 seconds through a micropipette, but not application of Krebs alone, produced steady, low-amplitude membrane depolarizations accompanied by an increase in membrane voltage noise. Spectral noise analysis yielded a channel mean open time (m.o.t.) for ATP-activated channels of 45.7+/-4.5 ms at 37 degrees C. The decay time constant of SEJPs under similar conditions was 42.2 +/- 18.3 ms. This was not significantly different (P>0.05) compared with the m.o.t. of ATP-activated channels. By analogy with other synapses, it is concluded that ATP produces channel activations in smooth muscle consistent with its mediation of sEJPs. Our analysis suggests the amplitude of the elementary depolarization to be (similar to)20-30 mu V, thus the number of ATP-activated channels underlying typical sEJPs of amplitude 3-12 mV may be approximately 100-500. These findings ate discussed in relation to the microphysiology of operation of the autonomic nerve-smooth muscle synapse. |
| Genre | Proceedings Paper |
| Topic | Neurotransmission |
| Identifier | PROCEEDINGS OF THE 20TH ANNUAL INTERNATIONAL CONFERENCE OF THE IEEE ENGINEERING IN MEDICINE AND BIOLOGY SOCIETY, VOL 20, PTS 1-6: BIOMEDICAL ENGINEERING TOWARDS THE YEAR 2000 AND BEYOND,20,3060-3063 |