The N-terminal 34 residues of the 55 kDa regulatory subunits of phosphoinositide 5-kinase interact with tubulin

There are five regulatory subunit isoforms of phosphoinositide 3-kinase (PI 3-kinase), which are classified into three groups: proteins of 85 kDa (p85 alpha and p85 beta), 55 kDa (p55 alpha and p55 gamma) and 50 kDa (p50 alph a). Structural differences between the three groups reside in the N-terminu s. To elucidate the unique functional role of the 55 kDa regulatory subunit s, GST (glutathione S-transferase) fusion proteins containing a unique N-te rminal portion consisting of a 34-amino-acid sequence of p55 alpha or p55 g amma (GST-p55 alpha/gamma N1-34) were used as affinity matrices to screen r at brain cell extracts for proteins to which this portion binds specificall y. A protein that bound was identified as beta-tubulin by protein sequencin g. In addition, not only the beta isoform of tubulin, but also the alpha an d gamma isoforms, were detected in the protein absorbed from cell lysates w ith GST-p55 gamma N1-34 and GST-p55 alpha N1-34 by immunoblotting. Indeed, the only regulatory subunit present in the purified microtubule assembly fr om rat brain was the 55 kDa isoform; neither 85 kDa nor 50 kDa subunits wer e detected. These results indicate endogenous binding of 55 kDa regulatory subunits of PI 3-kinase to tubulin in the brain. Finally, we measured tubul in-associated PI 3-kinase activity in CHO/IR cells overexpressing each of t he five regulatory subunit isoforms. Only in cells expressing p55 alpha or p55 gamma was there a significant elevation of tubulin-associated PI 3-kina se activity in response to insulin. These results suggest that the p55 alph a and p55 gamma regulatory subunits have important roles in regulating PI 3 -kinase activity, particularly for microtubules at the cell periphery.