THE structurally related natural products rapamycin and FK506 bind to
the same intracellular receptor, FKBP12, yet the resulting complexes i
nterfere with distinct signalling pathways(1,2). FKBP12- rapamycin inh
ibits progression through the G1 phase of the cell cycle in osteosarco
ma(3), liver(4,5) and T cells(6,7) as well as in yeasts, and interfere
s with mitogenic signalling pathways that are involved in G1 progressi
ong(9,10), namely with activation of the protein p70(S6k) (refs 5, 11-
13) and cyclin-dependent kinases(3,14-16). Here we isolate a mammalian
FKBP-rapamycin-associated protein (FRAP) whose binding to structural
variants of rapamycin complexed to FKBP12 correlates with the ability
of these ligands to inhibit cell-cycle progression. Peptide sequences
from purified bovine FRAP were used to isolate a human cDNA clone that
is highly related to the DRR1/TOR1 and DRR2/TOR2 gene products from S
accharomyces cerevisiae(8,17,18). Although it has not been previously
demonstrated that either of the DRR/TOR gene products can bind the FKB
P-rapamycin complex directly(17,19), these yeast genes have been genet
ically linked to a rapamycin-sensitive pathway and are thought to enco
de lipid kinases(17-20).