Role of BK channels in hypertension and potassium secretion

Holtzclaw, J. David; Grimm, P. Richard; Sansom, Steven C.

doi:10.1097/mnh.0b013e3283488889

Cited by 63 publications

(53 citation statements)

References 70 publications

(70 reference statements)

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“…That blood pressure is elevated in BK-␤4 null mice is consistent with disruption of inhibitory purinergic regulation of ENaC in these animals (9,23). The current study tests these ideas.…”

supporting

confidence: 69%

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Flow-sensitive K+-coupled ATP Secretion Modulates Activity of the Epithelial Na+ Channel in the Distal Nephron

Bugaj

Sansom

Wen

et al. 2012

Journal of Biological Chemistry

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Background: Urinary ATP modulates renal sodium excretion in response to sodium homeostasis. Results: ATP released through connexin channels in a BK Ca channel-sensitive manner inhibits ENaC. Conclusion: Thus, this ATP is a physiological modulator of sodium excretion. Significance: Impaired sodium excretion resulting from loss of normal purinergic regulation of ENaC in BK-␤4 null mice likely contributes to their elevated blood pressure.

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supporting

confidence: 69%

“…Such inhibition is absent in BK-␤4 null mice, which lack normal BK Ca channel function in the ASDN (9,23). To exclude end-organ resistance to ATP signaling as a mechanism in these mutant mice, we tested whether ENaC in BK-␤4 null mice is responsive to exogenous ATP.…”

Section: Local Atp Release Via CX Hemichannels Results In Tonicmentioning

confidence: 99%

Flow-sensitive K+-coupled ATP Secretion Modulates Activity of the Epithelial Na+ Channel in the Distal Nephron

Bugaj

Sansom

Wen

et al. 2012

Journal of Biological Chemistry

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“…For example, KCNMB1 K/O (knockout) mice are characterized by uncoupling between vasodilating, RyR-generated Ca 21 -sparks and BK channel-generated spontaneous transient outward currents, which leads to increased myogenic tone, and systemic hypertension (Plüger et al, 2000). It should be mentioned, however, that KCNMB1 genetic ablation also results in K 1 retention and hyperaldosteronism, major contributors to the increase in blood pressure found in the KCNMB1 K/O mouse (Holtzclaw et al, 2011). Also in a mouse model, downregulation of BK b1 by NFATc3 activation contributes to systemic hypertension (Nieves-Cintrón et al, 2007).…”

Section: Introductionmentioning

confidence: 99%

Cerebrovascular Dilation via Selective Targeting of the Cholane Steroid-Recognition Site in the BK Channel β1-Subunit by a Novel Nonsteroidal Agent

et al. 2013

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The Ca 21 /voltage-gated K 1 large conductance (BK) channel b1 subunit is particularly abundant in vascular smooth muscle. By determining their phenotype, BK b1 allows the BK channels to reduce myogenic tone, facilitating vasodilation. The endogenous steroid lithocholic acid (LCA) dilates cerebral arteries via BK channel activation, which requires recognition by a BK b1 site that includes Thr169. Whether exogenous nonsteroidal agents can access this site to selectively activate b1-containing BK channels and evoke vasodilation remain unknown. We performed a chemical structure database similarity search using LCA as a template, along with a two-step reaction to generate sodium 3-hydroxyolean-12-en-30-oate (HENA). HENA activated the BK (cbv1 1 b1) channels cloned from rat cerebral artery myocytes with a potency (EC 50 5 53 mM) similar to and an efficacy (Â2.5 potentiation) significantly greater than that of LCA.This HENA action was replicated on native channels in rat cerebral artery myocytes. HENA failed to activate the channels made of cbv1 1 b2, b3, b4, or b1T169A, indicating that this drug selectively targets b1-containing BK channels via the BK b1 steroid-sensing site. HENA (3-45 mM) dilated the rat and C57BL/ 6 mouse pressurized cerebral arteries. Consistent with the electrophysiologic results, this effect was larger than that of LCA. HENA failed to dilate the arteries from the KCNMB1 knockout mouse, underscoring BK b1's role in HENA action. Finally, carotid artery-infusion of HENA (45 mM) dilated the pial cerebral arterioles via selective BK-channel targeting. In conclusion, we have identified for the first time a nonsteroidal agent that selectively activates b1-containing BK channels by targeting the steroid-sensing site in BK b1, rendering vasodilation.

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“…Both of the intracellular signals could increase the BK's open probability and thereby enhance the rate of K 1 efflux into the tubular lumen. These observations have led to an updated model for K 1 secretion in the distal nephron (Figure 8) (74,75). At baseline conditions, it has been proposed that the primary channel that mediates K 1 secretion across the DCT lumen is ROMK.…”

Section: The Wnk-spak/osr1 Signaling Pathway and Nccmentioning

confidence: 99%

Distal Convoluted Tubule

Subramanya

Ellison

2014

Clinical Journal of the American Society of Nephrology

218

185

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The distal convoluted tubule is the nephron segment that lies immediately downstream of the macula densa. Although short in length, the distal convoluted tubule plays a critical role in sodium, potassium, and divalent cation homeostasis. Recent genetic and physiologic studies have greatly expanded our understanding of how the distal convoluted tubule regulates these processes at the molecular level. This article provides an update on the distal convoluted tubule, highlighting concepts and pathophysiology relevant to clinical practice.

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Role of BK channels in hypertension and potassium secretion

Cited by 63 publications

References 70 publications

Flow-sensitive K+-coupled ATP Secretion Modulates Activity of the Epithelial Na+ Channel in the Distal Nephron

Flow-sensitive K+-coupled ATP Secretion Modulates Activity of the Epithelial Na+ Channel in the Distal Nephron

Cerebrovascular Dilation via Selective Targeting of the Cholane Steroid-Recognition Site in the BK Channel β1-Subunit by a Novel Nonsteroidal Agent

Distal Convoluted Tubule

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