ATP-, K+-dependent heptamer exchange reaction produces hybrids between GroEL and chaperonin from Thermus thermophilus.

Abstract

Chaperonin from Thermus thermophilus (Tcpn6014.Tcpn107) splits at the plane between two Tcpn607 rings into two parts in a solution containing ATP and K+ (Ishii, N., Taguchi, H., Sasabe, H., and Yoshida, M. (1995) FEBS Lett. 362, 121-125). When Escherichia coli GroEL14 was additionally included in the solution described above, hybrid chaperonins GroEL7.Tcpn607 and GroEL7. Tcpn607.Tcpn107 were formed rapidly (<20 s) at 37 degrees C. The hybrid was also formed from Tcpn6014 and GroEL14 but not from a mutant GroEL14 lacking ATPase activity. The hybrid formation was saturated at approximately 300 microM ATP and approximately 300 mM K+. These results imply that GroEL14 also splits and undergoes a heptamer exchange reaction with Thermus chaperonin under nearly physiological conditions. Similar to parent chaperonins, the isolated hybrid chaperonins exhibited ATPase activity that was susceptible to inhibition by Tcpn107 or GroES7 and mediated folding of other proteins. Once formed, the hybrid chaperonins were stable, and the parent chaperonins were not regenerated from the isolated hybrids under the same conditions in which the hybrids had been formed. Only under conditions in which GroEL in the hybrids was selectively destroyed, such as incubation at 70 degrees C, Thermus chaperonin, but not GroEL14, was regenerated from the hybrid. Therefore, the split reaction may not be an obligatory event repeated in each turnover of the chaperonin functional cycles but an event that occurs only when chaperonin is first exposed to ATP/K+.