Distinct K+conductive pathways are required for Cl−and K+secretion across distal colonic epithelium

Halm, Susan T.; Liao, Tianjiang; Halm, Dan R.

doi:10.1152/ajpcell.00557.2005

Cited by 32 publications

(47 citation statements)

References 70 publications

(154 reference statements)

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“…CFTR is known to regulate a variety of ion channels and transporters, including CaCCs (46), and there may simply be compensatory changes in expression of other channels, including Best2. Finally, the idea that membrane hyperpolarization is required for a cholinergic response is not universal: cholinergic agonists can stimulate anion secretion when the membrane potential is clamped at a depolarized level (6) and when K Ca 3.1 channels are blocked pharmacologically (9). Although species differences may explain some discrepancies, the mechanisms of cholinergic action in colon are clearly murky.…”

Section: Discussionmentioning

confidence: 99%

“…However, the mechanisms underlying the Ca 2+ -stimulated anion current are unclear (3). One school of thought favors a role for Ca 2+ -activated Cl -channels (6,9), whereas another believes that Ca 2+ activates K Ca 3.1 K + channels that hyperpolarize the membrane and increase the driving force for anion secretion through CFTR (10)(11)(12)(13).…”

Section: Introductionmentioning

confidence: 99%

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Bestrophin-2 mediates bicarbonate transport by goblet cells in mouse colon

et al. 2010

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Anion transport by the colonic mucosa maintains the hydration and pH of the colonic lumen, and its disruption causes a variety of diarrheal diseases. Cholinergic agonists raise cytosolic Ca 2+ levels and stimulate anion secretion, but the mechanisms underlying this effect remain unclear. Cholinergic stimulation of anion secretion may occur via activation of Ca 2+ -activated Cl -channels (CaCCs) or an increase in the Cl -driving force through CFTR after activation of Ca 2+ -dependent K + channels. Here we investigated the role of a candidate CaCC protein, bestrophin-2 (Best2), using Best2 -/-mice. Cholinergic stimulation of anion current was greatly reduced in Best2 -/-mice, consistent with our proposed role for Best2 as a CaCC. However, immunostaining revealed Best2 localized to the basolateral membrane of mucin-secreting colonic goblet cells, not the apical membrane of Cl --secreting enterocytes. In addition, in the absence of HCO 3 -, cholinergic-activated current was identical in control and Best2 -/-tissue preparations, which suggests that most of the Best2 current was carried by HCO 3 -. These data delineate an alternative model of cholinergic regulation of colonic anion secretion in which goblet cells play a critical role in HCO 3 -homeostasis. We therefore propose that Best2 is a HCO 3 -channel that works in concert with a Cl:HCO 3 -exchanger in the apical membrane to affect transcellular HCO 3 -transport. Furthermore, previous models implicating CFTR in cholinergic Cl -secretion may be explained by substantial downregulation of Best2 in Cftr -/-mice.

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Section: Discussionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Bestrophin-2 mediates bicarbonate transport by goblet cells in mouse colon

et al. 2010

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“…Three modes of electrogenic ion secretion (11,25,33,49,52) were stimulated by secretagogs to examine the action of the neuroendocrinepeptide PYY, epinephrine for modulatory mode, PGE 2 for flushing mode, and PGE 2 ϩ carbachol (CCh) for synergistic mode. Adding PYY to the serosal bathing solution during the basal quiescent state reduced the negative I sc toward zero and decreased G t (Fig.…”

Section: Suppression Of CLmentioning

confidence: 99%

“…A mode of ion secretion particularly evident in the distal colon is electrogenic K ϩ secretion, which can be stimulated via ␤-adrenergic activation (23,27,42,52) from the sympathetic nervous system (17,26,45). This modulatory mode of secretion occurs with minimal sustained Cl Ϫ secretion, which distinguishes it from the well-studied flushing mode that exhibits high rates of sustained electrogenic Cl Ϫ secretion (25,33,39). A sympathetic response in the distal colon therefore includes a sustained electrogenic K ϩ secretion in concert with the slowing of motility and vasoconstriction that diverts blood away from the gut.…”

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confidence: 99%

Adrenergic activation of electrogenic K⁺ secretion in guinea pig distal colonic epithelium: desensitization via the Y2-neuropeptide receptor

Zhang¹,

Halm²,

Halm³

2009

American Journal of Physiology-Gastrointestinal and Liver Physi

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ϩ secretion in isolated mucosa from guinea pig distal colon was desensitized by peptide-YY (PYY). Addition of PYY or neuropeptide-Y (NPY) to the bathing solution of mucosae in Ussing chambers suppressed the short-circuit current (Isc) corresponding to electrogenic Cl Ϫ secretion, whether stimulated by epinephrine (epi), prostaglandin-E2 (PGE2), or carbachol (CCh). Neither peptide markedly inhibited the large transient component of synergistic secretion (PGE2 ϩ CCh). Sustained Cl Ϫ secretory I sc was inhibited ϳ65% by PYY or NPY, with IC50s of 4.1 Ϯ 0.9 nM and 9.4 Ϯ 3.8 nM, respectively. This inhibition was eliminated by BIIE0246, an antagonist of the Y2-neuropeptide receptor (Y2-NpR), but not by Y1-NpR antagonist BVD10. Adrenergic sensitivity for activation of K ϩ secretion in the presence of Y2-NpR blockade by BIIE0246 was (EC50s) 2.9 Ϯ 1.2 nM for epi and 13.3 Ϯ 1.0 nM for norepinephrine, approximately fourfold greater than in the presence of PYY. Expression of mRNA for both Y1-NpR and Y2-NpR was indicated by RT-PCR of RNA from colonic mucosa, and protein expression was indicated by immunoblot. Immunoreactivity (ir) for Y1-NpR and Y2-NpR was distinct in basolateral membranes of columnar epithelial cells in the crypts of Lieberkühn as well as intercrypt surface epithelium. Adrenergic nerves in proximity with crypts were detected by ir for dopamine-␤-hydroxylase, and a portion of these nerves also contained NPY ir . BIIE0246 addition increased secretagog-activated I sc, consistent with in vitro release of either PYY or NPY. Thus PYY and NPY were able to suppress Cl Ϫ secretory capacity and desensitize the adrenergic K ϩ secretory response, providing a direct inhibitory counterbalance against secretory activation.

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“…It is possible that the regulation of Cl Ϫ secretion by estrogen in the distal colon and the components of the molecular mechanism involved may vary depending on the hormonal background of the female. Cl Ϫ secretion in the distal colon can be up-regulated by two distinct mechanisms: an increase in intracellular Ca 2ϩ (12) or cAMP activity (13). Cl Ϫ enters the cell across the basolateral membrane by cotransport with K ϩ and Na ϩ .…”

mentioning

confidence: 99%

Genomic Priming of the Antisecretory Response to Estrogen in Rat Distal Colon throughout the Estrous Cycle

O’Mahony¹,

Alzamora²,

Chung³

et al. 2009

The Journal of Clinical Endocrinology &Amp; Metabolism

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Distinct K⁺conductive pathways are required for Cl⁻and K⁺secretion across distal colonic epithelium

Cited by 32 publications

References 70 publications

Bestrophin-2 mediates bicarbonate transport by goblet cells in mouse colon

Bestrophin-2 mediates bicarbonate transport by goblet cells in mouse colon

Adrenergic activation of electrogenic K⁺ secretion in guinea pig distal colonic epithelium: desensitization via the Y2-neuropeptide receptor

Genomic Priming of the Antisecretory Response to Estrogen in Rat Distal Colon throughout the Estrous Cycle

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Distinct K+conductive pathways are required for Cl−and K+secretion across distal colonic epithelium

Cited by 32 publications

References 70 publications

Bestrophin-2 mediates bicarbonate transport by goblet cells in mouse colon

Bestrophin-2 mediates bicarbonate transport by goblet cells in mouse colon

Adrenergic activation of electrogenic K+ secretion in guinea pig distal colonic epithelium: desensitization via the Y2-neuropeptide receptor

Genomic Priming of the Antisecretory Response to Estrogen in Rat Distal Colon throughout the Estrous Cycle

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Distinct K⁺conductive pathways are required for Cl⁻and K⁺secretion across distal colonic epithelium

Adrenergic activation of electrogenic K⁺ secretion in guinea pig distal colonic epithelium: desensitization via the Y2-neuropeptide receptor