BIOMAT Database Logo BIOMAT Database Logo

Modulation of calcium currents by G-proteins and adenosine receptors in myenteric neurones cultured from adult guinea-pig small intestine. 1995

L V Baidan, and A V Zholos, and J D Wood
Department of Physiology, College of Medicine, Ohio State University, Columbus 43210-1218, USA.

1. Whole-cell patch clamp methods were used to analyse voltage-dependent calcium currents in cultured myenteric neurones enzymatically isolated from adult guinea-pig small intestine. 2. Activation of G-proteins by intracellular administration of GTP-gamma-S (100-200 microM in pipette) decreased the amplitude of high voltage activated Ca2+ current (ICa) by more than 50%. Residual ICa was activated more slowly and was non-inactivating during 500 ms test pulses when GTP-gamma-S was included in the pipette solution. 3. Inclusion of 500 microM GDP-beta-S in the patch pipettes increased the amplitude of ICa by over 30% without altering the voltage-dependency. 4. Extracellular application of 2-chloroadenosine suppressed ICa dose-dependently by reducing both transient and sustained components of the current. 5. Pretreatment of the neurones with cholera toxin or forskolin did not alter the actions of GTP-gamma-S or GDP-beta-S or 2-chloroadenosine. 6. The results suggest that high threshold calcium channels in myenteric neurones are influenced by G-proteins and that the inhibitory action of 2-chloroadenosine on ICa involves G-protein coupling of the adenosine receptors to the Ca2+ channel.

UI MeSH Term Description Entries
D007421 Intestine, Small The portion of the GASTROINTESTINAL TRACT between the PYLORUS of the STOMACH and the ILEOCECAL VALVE of the LARGE INTESTINE. It is divisible into three portions: the DUODENUM, the JEJUNUM, and the ILEUM. Small Intestine,Intestines, Small,Small Intestines
D009197 Myenteric Plexus One of two ganglionated neural networks which together form the ENTERIC NERVOUS SYSTEM. The myenteric (Auerbach's) plexus is located between the longitudinal and circular muscle layers of the gut. Its neurons project to the circular muscle, to other myenteric ganglia, to submucosal ganglia, or directly to the epithelium, and play an important role in regulating and patterning gut motility. (From FASEB J 1989;3:127-38) Auerbach's Plexus,Auerbach Plexus,Auerbachs Plexus,Plexus, Auerbach's,Plexus, Myenteric
D002478 Cells, Cultured Cells propagated in vitro in special media conducive to their growth. Cultured cells are used to study developmental, morphologic, metabolic, physiologic, and genetic processes, among others. Cultured Cells,Cell, Cultured,Cultured Cell
D006160 Guanosine Triphosphate Guanosine 5'-(tetrahydrogen triphosphate). A guanine nucleotide containing three phosphate groups esterified to the sugar moiety. GTP,Triphosphate, Guanosine
D006168 Guinea Pigs A common name used for the genus Cavia. The most common species is Cavia porcellus which is the domesticated guinea pig used for pets and biomedical research. Cavia,Cavia porcellus,Guinea Pig,Pig, Guinea,Pigs, Guinea
D000241 Adenosine A nucleoside that is composed of ADENINE and D-RIBOSE. Adenosine or adenosine derivatives play many important biological roles in addition to being components of DNA and RNA. Adenosine itself is a neurotransmitter. Adenocard,Adenoscan
D000818 Animals Unicellular or multicellular, heterotrophic organisms, that have sensation and the power of voluntary movement. Under the older five kingdom paradigm, Animalia was one of the kingdoms. Under the modern three domain model, Animalia represents one of the many groups in the domain EUKARYOTA. Animal,Metazoa,Animalia
D013997 Time Factors Elements of limited time intervals, contributing to particular results or situations. Time Series,Factor, Time,Time Factor
D015220 Calcium Channels Voltage-dependent cell membrane glycoproteins selectively permeable to calcium ions. They are categorized as L-, T-, N-, P-, Q-, and R-types based on the activation and inactivation kinetics, ion specificity, and sensitivity to drugs and toxins. The L- and T-types are present throughout the cardiovascular and central nervous systems and the N-, P-, Q-, & R-types are located in neuronal tissue. Ion Channels, Calcium,Receptors, Calcium Channel Blocker,Voltage-Dependent Calcium Channel,Calcium Channel,Calcium Channel Antagonist Receptor,Calcium Channel Antagonist Receptors,Calcium Channel Blocker Receptor,Calcium Channel Blocker Receptors,Ion Channel, Calcium,Receptors, Calcium Channel Antagonist,VDCC,Voltage-Dependent Calcium Channels,Calcium Channel, Voltage-Dependent,Calcium Channels, Voltage-Dependent,Calcium Ion Channel,Calcium Ion Channels,Channel, Voltage-Dependent Calcium,Channels, Voltage-Dependent Calcium,Voltage Dependent Calcium Channel,Voltage Dependent Calcium Channels
D018408 Patch-Clamp Techniques An electrophysiologic technique for studying cells, cell membranes, and occasionally isolated organelles. All patch-clamp methods rely on a very high-resistance seal between a micropipette and a membrane; the seal is usually attained by gentle suction. The four most common variants include on-cell patch, inside-out patch, outside-out patch, and whole-cell clamp. Patch-clamp methods are commonly used to voltage clamp, that is control the voltage across the membrane and measure current flow, but current-clamp methods, in which the current is controlled and the voltage is measured, are also used. Patch Clamp Technique,Patch-Clamp Technic,Patch-Clamp Technique,Voltage-Clamp Technic,Voltage-Clamp Technique,Voltage-Clamp Techniques,Whole-Cell Recording,Patch-Clamp Technics,Voltage-Clamp Technics,Clamp Technique, Patch,Clamp Techniques, Patch,Patch Clamp Technic,Patch Clamp Technics,Patch Clamp Techniques,Recording, Whole-Cell,Recordings, Whole-Cell,Technic, Patch-Clamp,Technic, Voltage-Clamp,Technics, Patch-Clamp,Technics, Voltage-Clamp,Technique, Patch Clamp,Technique, Patch-Clamp,Technique, Voltage-Clamp,Techniques, Patch Clamp,Techniques, Patch-Clamp,Techniques, Voltage-Clamp,Voltage Clamp Technic,Voltage Clamp Technics,Voltage Clamp Technique,Voltage Clamp Techniques,Whole Cell Recording,Whole-Cell Recordings

Related Publications

L V Baidan, and A V Zholos, and J D Wood
Immunoreactivity of Hu proteins facilitates identification of myenteric neurones in guinea-pig small intestine.
April 2002, Neurogastroenterology and motility,
L V Baidan, and A V Zholos, and J D Wood
Suppression of cAMP formation by adenosine in myenteric ganglia from guinea-pig small intestine.
February 1997, European journal of pharmacology,
L V Baidan, and A V Zholos, and J D Wood
Galanin suppresses calcium conductance and activates inwardly rectifying potassium channels in myenteric neurones from guinea-pig small intestine.
June 2001, Neurogastroenterology and motility,
L V Baidan, and A V Zholos, and J D Wood
P2X purinoceptors in cultured myenteric neurons of guinea-pig small intestine.
November 1996, The Journal of physiology,
L V Baidan, and A V Zholos, and J D Wood
Muscarinic agonists and potassium currents in guinea-pig myenteric neurones.
January 1989, British journal of pharmacology,
L V Baidan, and A V Zholos, and J D Wood
Myenteric ganglia from the adult guinea-pig small-intestine in tissue-culture.
June 1994, Neurogastroenterology and motility,
L V Baidan, and A V Zholos, and J D Wood
Electrophysiology and enkephalin immunoreactivity of identified myenteric plexus neurones of guinea-pig small intestine.
June 1984, The Journal of physiology,
L V Baidan, and A V Zholos, and J D Wood
Effects of forskolin on electrical behaviour of myenteric neurones in guinea-pig small intestine.
July 1986, The Journal of physiology,
L V Baidan, and A V Zholos, and J D Wood
Synaptic modulation of calcium-dependent potassium conductance in myenteric neurones in the guinea-pig.
August 1980, The Journal of physiology,
L V Baidan, and A V Zholos, and J D Wood
R-type calcium channels in myenteric neurons of guinea pig small intestine.
July 2004, American journal of physiology. Gastrointestinal and liver physiology,
Copied contents to your clipboard!