Gated channel

A subset of ion channels not gated by traditional neurotransmitters represents another receptor class. These iaclude potassium, calcium, sodium, and cychc adenosiae monophosphate (cAMP)-gated channels (14—16) for which a large number of synthetic molecules exist that alter ceUular function. 

Capsaicin receptor" agonists capsaicin, resmiferatoxin II, Via voltage-gated channels maitotoxm ( ) OH ... 

Adenylyl Cyclases Guanylyl Cyclases Transmembrane Signalling Cyclic Adenosine Monophosphate Cyclic Guanosine Monophosphate Cyclic Nucleotide-gated Channels Phosphodiesterases... 

Hypeipolarisation-activated and cyclic nucleotide-gated-channel. 

Hyperpolarization-activated and Cyclic Nucleotide-gated Channels (HCN)... 

Besides sodium channels, other ion channels such calcium- and potassium channels as well as certain ligand-gated channels are affected by local anaesthetics. However, this plays only a minor role for nerve block but may have more impact on adverse effects induced by systemical concentrations of these drags. 

The open channel has in most cases a selective permeability, allowing a restricted class of ions to flow,for example Na+, K+, Ca++ or Cl- and, accordingly, these channels are called Na+-channels, K+-channels, Ca -channels and Cr-channels. In contrast, cation-permeable channels with little selectivity reject all anions but discriminate little among small cations. Little is known about the structures and functions of these non-selective cation channels [1], and so far only one of them, the nicotinic acetylcholine receptor (nAChR, see Nicotinic Receptors), has been characterized in depth [2, 3]. The nAChR is a ligand-gated channel (see below) that does not select well among cations the channel is even permeable to choline, glycine ethylester and tris buffer cations. A number of other plasma... 

Neutrophils represent an ideal system for studying osmotic effects on exocytosis. Stimulation of cytochalasin-B-treated neutrophils with the chemotactic peptide Jlf-formylmethionyl-leucyl-phenyl-alanine (FMLP) results in a rapid compound exocytosis up to 80% of lysosomal enzymes are released within 30 s (9-14). Secretion appears to be triggered by a rise in the level of cytosolic free calcium (15-18) promoted in part by entry of extracellular calcium through receptor-gated channels and in part by release of calcium that is sequestered or bound at some intracellular site (19-21). In this presentation, we augment our previously published data (22,23), which demonstrates that lysosomal enzyme release from neutrophils is inhibited under hyperosmotic conditions and that the rise in cytosolic calcium preceding secretion is inhibited as well. 

In addition to the pre-synaptic effects, CX3CL1 modulates the functional properties of ligand-gated channels at post-synaptic sites. In SK-N-SH cells, a human neuroblastoma cell line, CX3CL1 reduces the amplitude of NMDA-induced calcium transients (Deiva et al. 2004). In these cells, CX3CL1 application causes a PTX insensitive transient increase in the intracellular Ca " concentration dependent on... 

Burnashev, N (1996) Calcium permeability of glutamate-gated channels in the central nervous system. Curr. Opin. Neurohiol. 6 311-317. 

At this time, more then thirty channel DNAs have been cloned and characterized from various sources, predominantly from Drosophila melanogaster, mouse, rat and human cDNA/genomic libraries [6-31]. Inspection of the derived primary K channel protein sequences indicates that voltage-gated channels belong to a... 

Structure and biophysical properties of cloned voltage-gated channels... 

Historically the Shaker (Sh) K channel was the first K channel which was cloned and characterized [6-10]. Subsequently many more channel cDNAs and genes have been isolated and studied. Yet Sh channels remained in the forefront of channel research. The study of Sh channel mutants has provided the most thorough insight into structure-function relationships of K channels to date. I will first discuss in this chapter the primary sequences of voltage-gated channels. I will only use a few selected examples for discussion. As of this time, so many related K channel protein sequences have been published that it is not feasible to discuss all of them. Subsequently, I will describe in detail the present knowledge about functional K" " channel domains which are implicated in activation, inactivation and selectivity of the channel. 

The intracellular hgand-gated Ca " channels include the channels in endoplasmic and sarcoplasmic reticulum (SR) membranes that are opened upon binding of the second messenger, inositol triphosphate (IP3). These are intracellular Ca release channels that allow Ca to exit from intracellular stores, and consequently to increase the concentration of cytoplasmic Ca [5]. A second type of intracellular Ca release channel is the Ca - and ryanodine-sensitive channel that was originally characterized and isolated from cardiac and skeletal muscle [5-7] but appears to exist in many types of cells. It has become evident that IP3-gated channels and ryanodine-sensitive channels are structurally related but distinct proteins [8] that are present in many cell types [9]. While very interesting, time and space will not allow for further discussion of these channels. 

At an inhibitory synapse, binding of the neurotransmitter to its receptor increases permeability of the membrane to K+ ions or to Ch ions through chemical messenger-gated channels. As a result, K+ ions may leave the cell down their concentration gradient carrying (+) charges outward or Cl ions... 

Inositol triphosphate (IP3)-gated channels are also associated with membrane-bound receptors for hormones and neurotransmitters. In this case, binding of a given substance to its receptor causes activation of another membrane-bound protein, phospholipase C. This enzyme promotes hydrolysis of phosphatidylinositol 4,5-diphosphate (PIP2) to IP3. The IP3 then diffuses to the sarcoplasmic reticulum and opens its calcium channels to release Ca++ ions from this intracellular storage site. 

Chang, K.T., Berg, D.K. Voltage-gated channels block nicotinic regulation of CREB phosphorylation and gene expression in neurons. Neuron. 32 855, 2001. 

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