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Extracellular ATP stimulates an amiloride-sensitive sodium influx in human lymphocytes.

Wiley JS, Jamieson GP, Mayger W, Cragoe EJ, Jopson M

  • Journal Archives of biochemistry and biophysics

  • Published 13 Aug 1990

  • Volume 280

  • ISSUE 2

  • Pagination 263-8

  • DOI 10.1016/0003-9861(90)90328-v


Extracellular ATP has been shown to increase the Na+ permeability of human lymphocytes by 3 to 12-fold. The kinetics of this ATP-induced response were studied by measuring 22Na+ influx into chronic lymphocytic leukemic lymphocytes incubated in low-sodium media without divalent cations. ATP-stimulated uptake of 22Na-ions was linear over 4 min incubation and this influx component showed a sigmoid dependence on ATP concentration. Hill analysis yielded a K1/2 of 160 microM and a n value of 2.5. The nucleotide ATP-gamma-S (1-2 mM) gave 30% of the permeability increase produced by ATP, but UTP (2 mM) and dTTP (2 mM) had no effect on 22Na influx. The amiloride analogs 5-(N-ethyl-N-isopropyl) amiloride and 5-(N,N-hexamethylene) amiloride, which are potent inhibitors of Na(+)-H+ countertransport, abolished 72-95% of the ATP-stimulated 22Na+ influx. However, the involvement of Na(+)-H+ countertransport in the ATP-stimulated Na+ influx was excluded by three lines of evidence. Sodium influx was stimulated 7-fold by extracellular ATP but only 2.4-fold by hypertonic conditions which are known to activate Na(+)-H+ countertransport. Addition of ATP to lymphocytes produced no change in intracellular pH when these cells were suspended in isotonic NaCl media. Finally ATP caused a membrane depolarization of lymphocytes which is inconsistent with stimulation of electroneutral Na(+)-H+ exchange. These data suggest that ATP acts cooperatively to induce the formation of membrane channels which allow increased Na+ influx by a pathway which is partially inhibited by amiloride and its analogs.