2-Chloroadenosine: a selective lethal effect to mouse macrophages and its mechanism.

Abstract

In our studies on the effects of purine compounds on immune responses in vitro, we found that 2-chloroadenosine (2-Cl Ado) exhibited a potent lethal effect on a viability of mouse adherent cells derived from the peritoneal cavity. The lethal effect was specific for adherent peritoneal cells (PC) (macrophages) and was prevented by exogenous addition of adenosine (Ado) or coformycin, a potent inhibitor of adenosine deaminase. A rapid decrease of intracellular ATP content (26% of control) in adherent PC was observed soon after 1 hr exposure to 2-Cl Ado (0.1 mM), and this decrease of ATP was comparable with that of monoiodoacetate (MIA, 0.1 mM)- or NaN3 (5 mM)-treated adherent PC. The ATP decrease by 2-Cl Ado was restored to 88 or 90% of control value by 1 hr addition of Ado or coformycin, respectively. Polymorphonuclear cells and lymphocytes to which 2-Cl Ado did not exhibit the lethal effect did not cause a significant ATP decrease of the cells. Therefore, the data suggested that the reason for the lethal effect on adherent PC treated with 2-Cl Ado could be attributed to a rapid decrease of ATP content at an early time. We assume that 2-Cl Ado competes with intracellular Ado in macrophages and then causes the adenosine starvation resulting in the ATP decrease.