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Inactivation determined by a single site in K+ pores (1993)

Biasi, M. ; Hartmann, H. A. ; Drewe, J. A. ; [et al.]

Springer

Pflügers Archiv 422 (1993), S. 354-363

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ISSN: 1432-2013

Keywords: K+ channel inactivation ; N-type inactivation ; C-type inactivation ; Pore or P-type inactivation ; External TEA enhancement of current ; External K+ enhancement of current ; Conductance ; Pore mutations

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Abstract An N-terminus peptide or a C-terminus mechanism involving a single residue in transmembrane segment 6 produces inactivation in voltage-dependent K+ channels. Here we show that a single position in the pore of K+ channels can produce inactivation having characteristics distinct from either N- or C-type inactivation. In a chimeric K+ channel (CHM), the point reversion CHM V 369I produced fast inactivation and CHM V 369S had the additional effect of halving K+ conductance consistent with a position in the pore. The result was not restricted to CHM; mutating position 369 in the naturally occurring channel Kv2.1 also produced fast inactivation. Like N- and C-types of inactivation, pore or P-type inactivation was characterized by short bursts terminated by rapid entry into the inactivated state. Unlike C-type inactivation, in which external tetraethylammonium (TEA) produced a simple blockade that slowed inactivation and reduced currents, in P-type inactivation external TEA increased currents. Unlike N-type inactivation, internal TEA produced a simple reduction in current and K+ occupancy of the pore had no effect. External TEA was not the only cation to increase current; external K+ enhanced channel availability and recovery from inactivation. Additional features of P-type inactivation were residue-specific effects on the extent of inactivation and removal of inactivation by a point reversion at position 374, which also regulates conductance. The demonstration of P-type inactivation indicates that pore residues in K+ channels may be part of the inactivation gating machinery.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00374291

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The selectivity of different external binding sites for quaternary ammonium ions in cloned potassium channels (1995)

Jarolimek, W. ; Soman, K. V. ; Alam, M. ; [et al.]

Springer

Pflügers Archiv 430 (1995), S. 672-681

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ISSN: 1432-2013

Keywords: Outward rectifier ; Potassium channels ; Tetraethylammonium ; Tetrapentylammonium ; Quaternary ammonium ion ; Cation π-electron interaction

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Abstract Tetraethylammonium (TEA) is thought to be the most effective quaternary ammonium (QA) ion blocker at the external site of K+ channels, and small changes to the TEA ion reduce its potency. To examine the properties of the external QA receptor, we applied a variety of QA ions to excised patches from human embryonic kidney cells or Xenopus oocytes transfected with the delayed rectifying K+ channels Kv 2.1 and Kv 3.1. In outside-out patches of Kv 3.1, the relative potencies were TEA 〉 tetrapropylammonium (TPA) 〉 tetrabutylammonium (TBA). In contrast to Kv 3.1, the relative potencies in Kv 2.1 were TBA 〉 TEA 〉 TPA. In Kv 3.1 and Kv 2.1, external tetrapentylammonium (TPeA) blocked K+ currents in a fast, reversible and, in contrast to TEA, time-dependent manner. The external binding of TPeA appeared to be voltage independent, unlike the effects of TPeA applied to inside-out patches. External n-alkyl-triethylammonium compounds (C8, C10 chain length) had a lower affinity than TEA in Kv 3.1, but a higher affinity than TEA in Kv 2.1. In Kv 3.1, the decrease in QA affinity was large when one or two methyl groups were substituted for ethyl groups in TEA, but minor when propyl groups replaced ethyl groups. Changes in the free energy of binding could be correlated to changes in the free energy of hydration of TEA derivatives calculated by continuum methodology. These results reveal a substantial hydrophobic component of external QA ion binding to Kv 2.1, and to a lesser degree to Kv 3.1, in addition to the generally accepted electrostatic interactions. The chain length of hydrophobic TEA derivatives affects the affinity for the hydrophobic binding site, whereas the hydropathy of QA ions determines the electrostatic interaction energy.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00386161

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