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Attenuation of channel kinetics and conductance by cholesterol: An interpretation using structural stress as a unifying concept (1995)

Chang, H. M. ; Reitstetter, R. ; Mason, R. P. ; [et al.]

Springer

The journal of membrane biology 143 (1995), S. 51-63

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ISSN: 1432-1424

Keywords: Calcium-activated potassium channel ; Cholesterol ; Conductance ; Lateral elastic stress ; Lipid bilayers ; Lipid-channel interactions

Source: Springer Online Journal Archives 1860-2000

Topics: Biology , Chemistry and Pharmacology

Notes: Abstract The ubiquity of cholesterol in cell membranes and changes in its concentration during development, aging and in various diseases suggest that it plays an important role in modulating cell function. We examined this possibility by monitoring the effects of cholesterol on the activity of the calcium-activated potassium (BK) channel reconstituted into lipid bilayers from rat brain homogenates. Increasing the cholesterol concentration to 11% of total lipid weight resulted in a 70% reduction in channel mean open time and a reduction of the open probability of the channel by 80%. Channel conductance was reduced by 7%. Cholesterol is known to change the order state and the modulus of compressibility of bilayers. These physico-chemical changes may be translated into an overall increase in the structural stress in the bilayer, and this force may be transmitted to proteins residing therein. By examining the characteristics of the BK channel as a function of temperature, in the presence and absence of cholesterol, we were able to estimate the activation energy based on Arrhenius plots of channel kinetics. Cholesterol reduced the activation energy of the BK channel by 50% for the open to closed transition. This result is consistent with an increased stress energy in the bilayer and favors the channel moving into the closed state. Taken together, these data are consistent with a model in which cholesterol induces structural stress which enhances the transition from the open to the closed state of the channel. We suggest that this is an important mechanism for regulating the activity of membrane-integral proteins and therefore membrane function, and that the concept of structural stress may be relevant to understanding the modulation of ion channel activity in cell membranes.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00232523

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Agmatine recognizes α2-adrenoceptor binding sites but neither activates nor inhibits α2-adrenoceptors (1995)

Pinthong, D. ; Wright, I. K. ; Hammer, C. ; [et al.]

Springer

Naunyn-Schmiedeberg's archives of pharmacology 351 (1995), S. 10-16

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ISSN: 1432-1912

Keywords: Agmatine ; α2-Adrenoceptor binding sites ; α2-Adrenoceptors ; Clonidine-displacing substance

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Abstract It has been suggested that agmatine (decarboxylated arginine) is an endogenous clonidine-displacing substance (CDS) which recognizes α2-adrenoceptor and non-adrenoceptor, imidazoline binding sites. We have examined the effect of agmatine at α2-adrenoceptor binding sites and pre- and postjunctional α2-adrenoceptors. Agmatine produced a concentration-dependent inhibition of 1 nmol/l 3H-clonidine binding to both rat (pKi–5.10+-0.05) and bovine (pKi–4.77+-0.38) cerebral cortex membranes. However, agmatine (0.1–100 μM) failed to activate pre-junctional α2-adrenoceptors regulating transmitter release in the guinea-pig isolated ileum and rat isolated vas deferens, nor did it activate post-junctional α2-adrenoceptors of the porcine isolated palmar lateral vein which mediate contraction or inhibition of forskolin-stimulated cyclic AMP formation. High concentrations of agmatine (10–30-fold the pKi at α2-adrenoceptor binding sites) failed to influence α2-adrenoceptor activation by either clonidine or UK-14304 (5-bromo-6-[2-imidazolin-2-ylamino]-quinoxaline bitartrate) in any of the peripheral preparations examined. Moreover, even in a preparation where an interaction with α2-adrenoceptor binding sites on cell membranes can be demonstrated, the rat cerebral cortex, agmatine failed to inhibit forskolin-stimulated cyclic AMP in the intact tissue or affect the inhibition produced by the selective α2-adrenoceptor agonist UK-14304. Agmatine was also devoid of agonist activity in two preparations, the rat isolated thoracic aorta and the rat isolated gastric fundus, in which CDS has been reported to produce non-adrenoceptor effects. Thus, we have confirmed that agmatine recognizes α2-adrenoceptor binding sites and, therefore, is a CDS. However, since agmatine is devoid of pharmacological activity at either peripheral or central α2-adrenoceptors it can not account for earlier reports suggesting that brain-derived CDS can activate α2-adrenoceptors.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00169058

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