Hyperpolarization

In a normal Hartree-Fock job, the hyperpolarizability tensor is given only in the archive entry, in the section beginning HyperPolar=. This tensor is also in lower tetrahedral order, but expressed in the input (Z-matrix) orientation. (This is also true of the polarizability tensor within the archive entry.)... 

In the following, the cardiac action potential is explained (Fig. 1) An action potential is initiated by depolarization of the plasma membrane due to the pacemaker current (If) (carried by K+ and Na+, which can be modulated by acetylcholine and by adenosine) modulated by effects of sympathetic innervation and (3-adrenergic activation of Ca2+-influx as well as by acetylcholine- or adenosine-dependent K+-channels [in sinus nodal and atrioventricular nodal cells] or to dqjolarization of the neighbouring cell. Depolarization opens the fast Na+ channel resulting in a fast depolarization (phase 0 ofthe action potential). These channels then inactivate and can only be activated if the membrane is hyperpolarized... 

The antimuscarinic drug atropine, and its derivative ipratropiumbromide, can also be used for antiarrhyth-mic treatment. Muscarinic receptors (M2 subtype) are mainly present in supraventricular tissue and in the AV node. They inhibit adenylylcyclase via G proteins and thereby reduce intracellular cAMP. On the other hand, activation of the M2 receptor leads to opening of hyperpolarizing Ik.acii and inhibits the pacemaker current If probably via the (3y-subunit of the Gi protein associated with this receptor. The results are hyperpolarization and slower spontaneous depolarization. Muscarinic receptor antagonists like atropine lead to increased heart rate and accelerated atrioventricular conduction. There are no or only slight effects on the ventricular electrophysiology. 

A shift of the voltage-dependence of inactivation to a hyperpolarizing direction, resulting in a lower fraction of channels available for activation at action potential threshold. 

The disruption of C1C-2 in mice leads to male infertility, blindness, and leukodystrophy, and was attributed to defective extracellular ion homeostasis in narrow clefts. C1C-2 yields currents that slowly activate upon hyperpolarization. It is also activated by cell swelling and by extracellular acidification. Structural determinants that are essential for these types of activation were identified by mutagenesis. There is a report that C1C-2 might be mutated in human epilepsy, but this has not been confirmed in fiuther studies. 

Frere SGA, Kuisle M, Liithi A (2004) Regulation of recombinant and native hyperpolarization-activated cation channels. Mol Neurobiol 30 279-305... 

GABAa receptors are pentameric complexes on the postsynaptic membrane with a central pore with selectivity for chloride ions. Benzodiazepines and barbiturates increase the GABA-induced chloride currents, leading to hyperpolarization of the postsynaptic membrane. 

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

Inward Rectifier K+ Channels. Figure 2 High [K+] inside cells relative to outside results in normal rectification, whereby outward (positive by convention) potassium currents (/) when cells are depolarized (is positive relative to EK), are biggerthan inward (negative) currents at hyperpolarized (negative) voltages. Inward or anomalous rectifiers show strong or weak inward rectification whereby outward currents are smaller than inward currents. 

The GABAA-receptor and the glycine receptor are Cl-channels (Table 1). When they open at a resting membrane potential of about -60 mV, the consequence is an entry of Cl-, hyperpolarization and an inhibitory postsynaptic potential (DPSP Fig. 1). 

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