Regulation of pigment organelle translocation. I. Phosphorylation of the organelle-associated protein p57.

Treatment of goldfish xanthophores with adrenocorticotropin (ACTH) or cyclic AMP (cAMP) induces the centrifugal movement of their pigment organelles from the center of the cells. Using purified xanthophores pulse labeled with 32Pi, we have shown that the dispersion of the organelles is accompanied by the phosphorylation of a pair of polypeptides, termed p57. After fractionation on sucrose gradients, nearly all of the p57 is found associated with the pigment organelles. The phosphorylation induced by ACTH or cAMP apparently occurs at multiple sites on p57. The minimal effective doses of ACTH or cAMP required to induce full pigment dispersion also fully stimulate the phosphorylation of p57. Increased phosphorylation of p57 is detectable within a minute after stimulating the cells and appears to be near completion during the early phases of pigment dispersion. Upon withdrawal of ACTH, these events are reversed; the pigment organelles reaggregate toward the center of the cells and p57 is dephosphorylated. Again, dephosphorylation commences soon after ACTH is withdrawn and is complete before the organelles have completely reaggregated. These results suggest a novel mechanism for governing the movement of these organelles which acts on the organelles themselves through the phosphorylation and dephosphorylation of p57.