Abstract

Circulating lymphocytes are rounded, non-motile cells which on contact with cytokines, specialized or activated endothelium, acquire a constantly shape-changing, polarized morphology which enables migration into appropriate sites. The biochemical mechanisms which regulate this switch are not understood but the various stimuli may have a common final pathway. In this study we show that protein kinase C (PKC) inhibitors of the bisindolylmaleimide type (GF 109203X, Ro 31-8220, CGP 41,251) induce resting, spherical lymphocytes to change rapidly (< 30 min) into polarized, locomotory cells. This phenomenon was seen with diverse populations of blood T lymphocytes, tonsillar B cells and Jurkat and Molt4 T-cell lines. Consistent with this, down-regulation of PKC by chronic treatment (44 hr) with bryostatin also induced the polarized phenotype in blood lymphocytes and non-motile Molt4 cells. Conversely, treatment of a spontaneously motile subline of Molt4 cells with various PKC activators caused a reversion to the non-motile phenotype within minutes. PKC activation must be sufficient to overcome the effects of a constitutively active phosphatase because bisindolylmaleimide induction of motility could be prevented by pretreatment of the cells with a phosphatase inhibitor, calyculin A. It is concluded that, in resting lymphocytes, chronic activation of a PKC offsets the action of a constitutively active phosphatase and the net result is maintenance of the non-motile state. Agents which alter the kinase/phosphatase balance in favour of dephosphorylation result in induction of the locomotory phenotype.