Inhibition of macrophage phagocytosis by methylation inhibitors. Lack of correlation of protein carboxymethylation and phospholipid methylation with phagocytosis

Abstract

Adenosine (Ado), deoxyadenosine (dAdo), and adenine arabinoside (AraA) inhibit the phagocytosis of IgG-coated erythrocytes and zymosan by resident and thioglycollate-elicited macrophages (thio-macrophages) in a dose-dependent and reversible manner. 3-Deazaadenosine (3cAdo) and adenine (Ade) also inhibit the phagocytosis by resident macrophages. Homocysteine thiolactonate (Hcy) potentiates the inhibition by Ado and 3cAdo while erythro-9-(2-hydroxy-3-nonyl)adenine (EHNA) potentiates the inhibition by Ado, dAdo and AraA. This inhibition has a very rapid onset and the drugs do not interfere with the binding of IgG-coated erythrocytes to macrophages. The combination of Ado, Hcy and EHNA does not appreciably affect the intracellular level of ATP and S-adenosyl-L-methionine (AdoMet) in thio-macrophages but causes accumulations of Ado and S-adenosyl-L-homocysteine (AdoHcy) up to 135 and 145 nmol/mg of protein, respectively. During phagocytosis reversal, Ado is metabolized within 15 min while AdoHcy decreases log-arithmically with a half-life of 50 min. Carboxymethylation and phospholipid methylation, however, resume about 60-90 min after phagocytosis has recovered, and thus cannot function as transmembrane signals for phagocytosis. Other evidence showing the lack of correlation between phagocytosis and carboxymethylation inhibition include 1) Ado + Hcy inhibit carboxymethylation much better than Ado + EHNA (91 versus 75%) in thio-macrophage, but the two combinations show comparable phagocytosis inhibition potency; 2) Ado + Hcy inhibit carboxymethylation almost as well as Ado + Hcy + EHNA, but the latter is a much more effective drug combination for phagocytosis inhibition; 3) Ade and 3cAdo, although inhibiting resident macrophage phagocytosis as well as Ado + EHNA + Hcy, are much weaker carboxymethylation inhibitors; 4) dAdo and AraA potently inhibit phagocytosis but not carboxymethylation. The difference in the apparent methylation levels is not due to changes in the specific activities of AdoMet, which decrease with a half-life of 88 min. Interestingly, after the initial lag phase of about 90 min after the initiation of inhibition reversal, carboxymethylation and phagocytosis increase in parallel. In a log-log plot of carboxymethylation, phospholipid methylation, or phagocytosis versus the intracellular AdoHcy accumulation, a linear relationship is obtained. It is possible that AdoHcy accumulation is responsible for phagocytosis inhibition but inhibits by a mechanism other than interfering with protein and lipid methylations.