Upregulation of Cardiac Uptake 1 Carrier in Ischemic and Nonischemic Rat Heart

Abstract

Neuronal uptake₁ constitutes the main elimination process of cardiac norepinephrine under normoxic conditions. Uptake₁ may be subject to changes during myocardial ischemia. We therefore studied the regulation of the uptake₁ carrier in isolated perfused rat hearts, comparing ischemic and nonischemic conditions. Radioligand binding with [³H]mazindol was used to determine carrier densities and affinities, whereas cardiac clearance of [³H]norepinephrine served as a measure of the transport capacity of the uptake₁ carrier. When exocytotic norepinephrine release was induced in nonischemic rat hearts by electrical field stimulations, we observed an increase in the cardiac density of uptake₁ carriers (B_max) to 210±5 fmol/mg protein (versus 134±3 fmol/mg in control hearts). Simultaneously, the cardiac clearance of [³H]norepinephrine increased to 41±4% versus 30±4% in control hearts. Both carrier density and norepinephrine clearance returned to baseline values within a period of 40 minutes after stimulation. Carrier affinities (K_d values) did not differ between the groups. Stop-flow ischemia induced a substantial overflow of norepinephrine by itself. Additionally, carrier density was increased to 144% after 40 minutes of stop-flow ischemia (P<.005 versus control hearts). When ischemia was followed by 20 minutes of reperfusion, the B_max of the uptake₁ carrier remained significantly elevated. With a further extension of the reperfusion period to 40 minutes, however, carrier density declined to baseline values. K_d values were not influenced by any of these interventions. Clearance of [³H]norepinephrine was suppressed (to 5±2%) in the first minutes of reperfusion, which may reflect the inverse transport direction of the norepinephrine carrier known to occur in ischemia. After 20 minutes of reperfusion, clearance increased to 39±5% (P<.005 versus control hearts) and then fell to 29±5% after 40 minutes of reperfusion (NS). These results demonstrate that after both electrical field stimulation and myocardial ischemia, the density of uptake₁ carrier proteins temporarily increases, which may result in an increased transport capacity for norepinephrine.