W Liu

Publications (3)5.47 Total impact

• Article: Heterogeneous expression of tandem-pore K+ channel genes in adult and embryonic rat heart quantified by real-time polymerase chain reaction.

  W Liu, D A Saint
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  ABSTRACT: 1. Many members of the tandem-pore K+ channel gene family have been reported to be present in cardiac cells. However, the pattern of gene expression of these channels in the heart is a matter of some dispute. 2. Here, we used reverse transcription and real-time quantitative polymerase chain reaction to investigate the pattern of gene expression of nine members of the tandem-pore K+ channel genes in adult and embryonic rat heart. The genes (TWIK-1, TWIK-2, TASK-1, TASK-2, TASK-3, TREK-1, TREK-2, TRAAK and KCNK6) were quantified, relative to glyceraldehyde-3-phosphate dehydrogenase (GADPH), in all four chambers of adult rat hearts and in the ventricles of embryonic rat hearts. 3. All these genes were detected in at least one chamber of the heart, with a predominance of TWIK-2, TASK-1 and TREK-1 expression. The expression of TWIK-2 was higher in the right atrium than in other cardiac chambers, TASK-1 was expressed more in atria than in ventricles and TREK-1 was highly expressed in the right ventricle. 4. The expression levels of the three predominant genes in embryonic rat ventricle are much lower than their expression in adult rat ventricles. 5. The physiological implications of the differential gene expression of the tandem-pore K+ channels is discussed.
  Clinical and Experimental Pharmacology and Physiology 04/2004; 31(3):174-8. · 1.85 Impact Factor
• Article: Trek-like potassium channels in rat cardiac ventricular myocytes are activated by intracellular ATP.

  J H C Tan, W Liu, D A Saint
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  ABSTRACT: Large (111 +/- 3.0 pS) K+ channels were recorded in membrane patches from adult rat ventricular myocytes using patch-clamp techniques. The channels were not blocked by 4-AP (5 mM), intracellular TEA (5 mM) or glybenclamide (100 mM). Applying stretch to the membrane (as pipette suction) increased channel open probability (Po) in both cell-attached and isolated patches (typically, Po approximately equals 0.005 with no pressure; approximately equals 0.328 with 90 cm H2O: Vm = 40 mV, pHi = 7.2). The channels were activated by a decrease in intracellular pH; decreasing pHi to 5.5 from 7.2 increased Po to 0.16 from approx. 0.005 (no suction, Vm held at 40 mV). These properties are consistent with those demonstrated for TREK-1, a member of the recently cloned tandem pore family. We confirmed, using RT-PCR, that TREK-1 is expressed in rat ventricle, suggesting that the channel being recorded is indeed TREK-1. However, we show also that the channels are activated by millimolar concentrations of intracellular ATP. At a pH of 6 with no ATP at the intracellular membrane face, Po was 0.048 +/-0.023, whereas Po increased to 0.22 +/- 0.1 with 1 mM ATP, and to 0.348 +/- 0.13 with 3 mM (n = 5; no membrane stretch applied). The rapid time course of the response and the fact that we see the effect in isolated patches appear to preclude phosphorylation. We conclude that intracellular ATP directly activates TREK-like channels, a property not previously described.
  Journal of Membrane Biology 03/2002; 185(3):201-7. · 1.81 Impact Factor
• Article: Trek-like Potassium Channels in Rat Cardiac Ventricular Myocytes Are Activated by Intracellular ATP

  J.H.C. Tan, W. Liu, D.A. Saint
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  ABSTRACT: Large (111 3.0 pS) K+ channels were recorded in membrane patches from adult rat ventricular myocytes using patch-clamp techniques. The channels were not blocked by 4-AP (5 mM), intracellular TEA (5 mM) or glybenclamide (100 mM). Applying stretch to the membrane (as pipette suction) increased channel open probability (Po) in both cell-attached and isolated patches (typically, Po ~ 0.005 with no pressure; ~0.328 with 90 cm H2O: Vm = 40 mV, pHi = 7.2). The channels were activated by a decrease in intracellular pH; decreasing pHi to 5.5 from 7.2 increased Po to 0.16 from approx. 0.005 (no suction, Vm held at 40 mV). These properties are consistent with those demonstrated for TREK-1, a member of the recently cloned tandem pore family. We confirmed, using RT-PCR, that TREK-1 is expressed in rat ventricle, suggesting that the channel being recorded is indeed TREK-1. However, we show also that the channels are activated by millimolar concentrations of intracellular ATP. At a pH of 6 with no ATP at the intracellular membrane face, Po was 0.048 0.023, whereas Po increased to 0.22 0.1 with 1 mM ATP, and to 0.348 0.13 with 3 mM (n = 5; no membrane stretch applied). The rapid time course of the response and the fact that we see the effect in isolated patches appear to preclude phosphorylation. We conclude that intracellular ATP directly activates TREK-like channels, a property not previously described.
  Journal of Membrane Biology 01/2002; 185(3):201-207. · 1.81 Impact Factor