Abstract
Rat proximal and distal colon are net K+ secretory and net K+ absorptive epithelia, respectively. Chronic dietary K+ loading increases net K+ secretion in the proximal colon and transforms net K+ absorption to net K+ secretion in the distal colon, but changes in apical K+ channel expression are unclear. We evaluated expression/activity of apical K+ (BK) channels in surface colonocytes in proximal and distal colon of control and K+-loaded animals using patch-clamp recording, immunohistochemistry, and Western blot analyses. In controls, BK channels were more abundant in surface colonocytes from K+ secretory proximal colon (39% of patches) than in those from K+-absorptive distal colon (12% of patches). Immunostaining demonstrated more pronounced BK channel α-subunit protein expression in surface cells and cells in the upper 25% of crypts in proximal colon, compared with distal colon. Dietary K+ loading had no clear-cut effects on the abundance, immunolocalization, or expression of BK channels in proximal colon. By contrast, in distal colon, K+ loading 1) increased BK channel abundance in patches from 12 to 41%; 2) increased density of immunostaining in surface cells, which extended along the upper 50% of crypts; and 3) increased expression of BK channel α-subunit protein when assessed by Western blotting (P < 0.001). Thus apical BK channels are normally more abundant in K+ secretory proximal colon than in K+ absorptive distal colon, and apical BK channel expression in distal (but not proximal) colon is greatly stimulated as part of the enhanced K+ secretory response to dietary K+ loading.
Highlights
Mammalian colon is an important Kϩ homeostatic organ
Under in vitro conditions, net Kϩ secretion is a feature of the proximal colon [6], whereas net Kϩ absorption occurs in the distal colon as a result of Kϩ-Hϩ-ATPasemediated apical Kϩ uptake and a negligible apical membrane Kϩ conductance [6, 17, 35]
We found that while the biophysical properties of BK channels were similar in rat proximal and distal colon, and were unchanged by Kϩ loading, this dietary perturbation increased the abundance of BK channels and increased the expression of BK channels along the upper crypts in distal colon, whereas these changes were not seen in the proximal colon
Summary
Chronic dietary Kϩ loading stimulates apical BK channelmediated pan-colonic Kϩ secretion, the overall Kϩ secretory response being greater distally than proximally. Chronic dietary Kϩ loading stimulates an active Kϩ secretory process throughout rat colon, enhancing net Kϩ secretion in the proximal segment and reversing net Kϩ absorption to net Kϩ secretion in the distal segment [8, 9]. Patch-clamp studies have identified high-conductance apical Kϩ (BK) channels at relatively low abundance in surface cells in the distal colon of rats fed a control diet, which increased substantially during chronic dietary Kϩ loading [4], but it unclear whether a similar change occurs in rat proximal colon. BK CHANNEL EXPRESSION IN COLONIC Kϩ ADAPTATION ing that enhanced colonic Kϩ secretion was mediated via aldosterone-dependent apical BK channels [42]
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