Neutrophils stimulated with a variety of chemoattractants exhibit a rapid activation of two p21-activated kinases (Paks) with molecular masses of approximately 63 and 69 kDa (gamma- and alpha-Pak). A number of in vitro studies suggest that modification of Thr(402) in the activation loop (AL) of gamma-Pak can play a critical role in the regulation of this kinase under certain circumstances. A phosphospecific Ab was generated to this region of Pak (pPak(AL)Ab). This Ab reacted with activated gamma- and alpha-Pak from fMLP-stimulated neutrophils that contain the sequence KRXT(P)XXGTP in their ALS: The rapid but transient activation of Paks in normal stimulated neutrophils coincided with phosphorylation and dephosphorylation at the ALs of these enzymes. In contrast, stressed cells exhibited a prolonged phosphorylation at Thr(402) in both intact gamma-Pak and a proteolytic fragment of this kinase. The pPak(AL)Ab also reacted with the mammalian sterile twenty-like kinases (MSTs) (members of the Pak family) in osmotically stressed neutrophils and neutrophils treated with certain apoptotic agents (i.e., tumor promoters that inhibit type 1 and 2A protein phosphatases) but not in normal fMLP-stimulated cells. Thus, our results indicate that the AL of gamma-Pak undergoes transient phosphorylation during normal neutrophil stimulation and chronic phosphorylation in stressed cells. In addition, we demonstrate that a number of MSTs are present in neutrophils and also undergo phosphorylation during stressful circumstances.