Abstract
The epithelial Na(+) channel (ENaC) in the aldosterone-sensitive distal nephron (ASDN) is under tonic inhibition by a local purinergic signaling system responding to changes in dietary sodium intake. Normal BK(Ca) channel function is required for flow-sensitive ATP secretion in the ASDN. We tested here whether ATP secreted through connexin channels in a coupled manner with K(+) efflux through BK(Ca) channels is required for inhibitory purinergic regulation of ENaC in response to increases in sodium intake. Inhibition of connexin channels relieves purinergic inhibition of ENaC. Deletion of the BK-β4 regulatory subunit, which is required for normal BK(Ca) channel function and flow-sensitive ATP secretion in the ASDN, suppresses increases in urinary ATP in response to increases in sodium intake. As a consequence, ENaC activity, particularly in the presence of high sodium intake, is inappropriately elevated in BK-β4 null mice. ENaC in BK-β4 null mice, however, responds normally to exogenous ATP, indicating that increases in activity do not result from end-organ resistance but rather from lowered urinary ATP. Consistent with this, disruption of purinergic regulation increases ENaC activity in wild type but not BK-β4 null mice. Consequently, sodium excretion is impaired in BK-β4 null mice. These results demonstrate that the ATP secreted in the ASDN in a BK(Ca) channel-dependent manner is physiologically available for purinergic inhibition of ENaC in response to changes in sodium homeostasis. Impaired sodium excretion resulting form loss of normal purinergic regulation of ENaC in BK-β4 null mice likely contributes to their elevated blood pressure.
Highlights
Urinary ATP modulates renal sodium excretion in response to sodium homeostasis
We tested here whether ATP secreted through connexin channels in a coupled manner with K؉ efflux through big Kϩ channels (BKCa) channels is required for inhibitory purinergic regulation of epithelial Na؉ channel (ENaC) in response to increases in sodium intake
These results demonstrate that the ATP secreted in the aldosterone-sensitive distal nephron (ASDN) in a BKCa channel-dependent manner is physiologically available for purinergic inhibition of ENaC in response to changes in sodium homeostasis
Summary
Urinary ATP modulates renal sodium excretion in response to sodium homeostasis. Results: ATP released through connexin channels in a BKCa channel-sensitive manner inhibits ENaC. It is clear that local regulation of ENaC by inhibitory purinergic signaling plays a key role in modulating sodium excretion and, blood pressure in response to changes in sodium intake and that BKCa channels function during flowsensitive, Kϩ efflux-coupled ATP release into the ASDN, it is obscure whether ATP released through this mechanism is biologically available for inhibition of ENaC and whether such release constitutes a source of ATP important for conveying information to ENaC about changes in sodium balance. A consequence of compromising this inhibitory purinergic regulation of ENaC in BK-4 null mice is that ENaC and renal sodium excretion no longer respond appropriately to changes in sodium intake This inappropriate hyperactivity of ENaC and loss of normal sodium-dependent feedback regulation of the channel likely contribute to the elevations in blood pressure noted in BK-4 null mice
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