S.A. Prestwich scite author profile

The main contributors to increases in [Ca2+]i and tension are the entry of Ca2+ through voltage-dependent channels opened by depolarization or during action potential (AP) or slow-wave discharge, and Ca2+ release from store sites in the cell by the action of IP3 or by Ca(2+)-induced Ca(2+)-release (CICR). The entry of Ca2+ during an AP triggers CICR from up to 20 or more subplasmalemmal store sites (seen as hot spots, using fluorescent indicators); Ca2+ waves then spread from these hot spots, which results in a rise in [Ca2+]i throughout the cell. Spontaneous transient releases of store Ca2+, previously detected as spontaneous transient outward currents (STOCs), are seen as sparks when fluorescent indicators are used. Sparks occur at certain preferred locations--frequent discharge sites (FDSs)--and these and hot spots may represent aggregations of sarcoplasmic reticulum scattered throughout the cytoplasm. Activation of receptors for excitatory signal molecules generally depolarizes the cell while it increases the production of IP3 (causing calcium store release) and diacylglycerols (which activate protein kinases). Activation of receptors for inhibitory signal molecules increases the activity of protein kinases through increases in cAMP or cGMP and often hyperpolarizes the cell. Other receptors link to tyrosine kinases, which trigger signal cascades interacting with trimeric G-protein systems.

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Pertussis toxin reverses adenosine inhibition of neuronal glutamate release

Dolphin

Prestwich

1985

Nature

237

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Adenosine and its analogues are potent inhibitors of synaptic activity in the central and peripheral nervous system. In the central nervous system (CNS), this appears to arise primarily by inhibition of presynaptic release of transmitters, including glutamate, which is possibly the major excitatory transmitter in the brain. In addition, postsynaptic effects of adenosine have been reported which would also serve to reduce neurotransmission. The mechanism by which adenosine inhibits CNS neurotransmission is unknown, although it appears to exert its effect via an A1 receptor which in some systems is negatively coupled to adenylate cyclase. In an attempt to elucidate the mechanism of inhibition, we have examined the effect of pertussis toxin (PTX) on the ability of the stable adenosine analogue (-)phenylisopropyladenosine (PIA) to inhibit glutamate release from cerebellar neurones maintained in primary culture. PTX, by ADP-ribosylating the nucleotide-binding protein Ni, prevents coupling of inhibitory receptors such as the A1 receptor to adenylate cyclase. As reported here, we found that PTX, as well as preventing inhibition of adenylate cyclase by PIA, also converts the PIA-induced inhibition of glutamate release to a stimulation. Our results suggest strongly that purinergic inhibitory modulation of transmitter release occurs by inhibition of adenylate cyclase.

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Effects of G‐protein‐specific antibodies and Gβγ subunits on the muscarinic receptor‐operated cation current in guinea‐pig ileal smooth muscle cells

Yan

Okamoto

Unno

et al. 2003

British J Pharmacology

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1 The effects on the whole-cell carbachol-induced muscarinic cationic current (mIcat) of antibodies against the a-subunits of various G proteins, as well as the effect of a Gbg subunit, were studied in single guinea-pig ileal smooth muscle cells voltage-clamped at À50 mV. Ionized intracellular calcium concentration, [Ca 2+ ] i , was clamped at 100 nM using a 1,2-bis(2-aminophenoxyl-ethane-N,N,N 0 ,N 0 -tetraacetic acid)/Ca 2+ mixture. 2 Application of ascending concentrations of carbachol (1 -300 mM) activated mIcat (mean amplitude 0.83 nA at 300 mM carbachol; EC 50 8 mM; Hill slope 1.0). A 20 min or longer intracellular application via the pipette solution of G i3 /G o or G o antibodies resulted in about a 70% depression of the maximum response without change in the EC 50 value. In contrast, antibodies against a-subunits of G i1 , G i1 /G i2 , G i3 , G q /G 11 or G s protein over a similar or longer period did not significantly reduce mIcat. Antibodies to common Gb or infusion of the Gbg subunit itself had no effect on mIcat.3 If cells were exposed briefly to carbachol (50 or 100 mM) at early times (o3 min) after infusion of antibodies to Ga i3 /Ga o or to Ga o had begun, carbachol responses remained unchanged even after 20 -60 min; that is, the depression of mIcat by these antibodies was prevented. 4 These data show that Ga o protein couples the muscarinic receptor to the cationic channel in guinea-pig ileal longitudinal smooth muscle and that Gbg is not involved. They also show that prior activation of the muscarinic receptor presumably causes a long-lasting postactivation change of the G protein, which is not reflected in mIcat, but acts to hinder antibody binding.

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TRPC3 properties of a native constitutively active Ca²⁺‐permeable cation channel in rabbit ear artery myocytes

Albert

Pucovský

Prestwich

et al. 2006

The Journal of Physiology

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Previously we have described a constitutively active, Ca2+ -permeable, non-selective cation channel in freshly dispersed rabbit ear artery myocytes which has similar properties to some of the canonical transient receptor potential (TRPC) channel proteins. In the present work we have compared the properties of constitutive channel activity with known properties of TRPC proteins by investigating the effect of selective anti-TRPC antibodies and pharmacological agents on whole-cell and single cation channel activity. Bath application of anti-TRPC3 antibodies markedly reduced channel activity in inside-out patches and also produced a pronounced reduction of both current amplitude and variance of constitutively active whole-cell cation currents whereas anti-TRPC1/4/5/6/7 antibodies had no effect on channel activity. In the presence of antigenic peptide, anti-TRPC3 antibodies had no effect on whole-cell or single cation channel activity. Bath application of flufenamic acid, Gd 3+ , La 3+ and Ca 2+ inhibited spontaneous channel activity in outside-out patches with IC 50 values of 6.8 μM, 25 nM, 1.5 μM and 0.124 mM, respectively, which are similar values to those against TRPC3 proteins. Immunocytochemical studies combined with confocal microscopy showed expression of TRPC3 proteins in ear artery myocytes, and these were predominately distributed at, or close to, the plasma membrane. These data provide strong evidence that native constitutively active cation channels in rabbit ear artery myocytes have similar properties to TRPC3 channel proteins and indicate that these proteins may have an important role in mediating this conductance.

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S.A. Prestwich

Excitation-Contraction Coupling in Gastrointestinal and Other Smooth Muscles

Pertussis toxin reverses adenosine inhibition of neuronal glutamate release

Effects of G‐protein‐specific antibodies and Gβγ subunits on the muscarinic receptor‐operated cation current in guinea‐pig ileal smooth muscle cells

TRPC3 properties of a native constitutively active Ca²⁺‐permeable cation channel in rabbit ear artery myocytes

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S.A. Prestwich

Excitation-Contraction Coupling in Gastrointestinal and Other Smooth Muscles

Pertussis toxin reverses adenosine inhibition of neuronal glutamate release

Effects of G‐protein‐specific antibodies and Gβγ subunits on the muscarinic receptor‐operated cation current in guinea‐pig ileal smooth muscle cells

TRPC3 properties of a native constitutively active Ca2+‐permeable cation channel in rabbit ear artery myocytes

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TRPC3 properties of a native constitutively active Ca²⁺‐permeable cation channel in rabbit ear artery myocytes