Zf. Chang et al., SERINE-13 IS THE SITE OF MITOTIC PHOSPHORYLATION OF HUMAN THYMIDINE KINASE, The Journal of biological chemistry, 273(20), 1998, pp. 12095-12100
It has been reported that the polypeptide of thymidine kinase type 1 (
TK1) from human and mouse cells can be modified by phosphorylation, Ou
r laboratory has further shown that the level of human TK phosphorylat
ion increases during mitotic arrest in different cell types (Chang, Z.
-F., Huang, D.-Y., and Hsue, N.-C. (1994) J. Biol, Chem. 269:21249-212
54). In the present study, we demonstrated that a mutation converting
Ser(13) to Ala abolished the mitotic phosphorylation of native TK1 exp
ressed in Ltk(-) cells. Furthermore, we expressed recombinant proteins
of wild-type and mutated human TK1 with fused FLAG epitope in HeLa ce
lls, and confirmed the occurrence of mitotic phosphorylation on Ser(13
) of hTK1. By using an in vitro phosphorylation assay, it was shown th
at wild-type hTK1, but not mutant TK1(Ala13), could serve as a good su
bstrate for Cdc2 or Cdk2 kinase. Coexpression of p21(waf1/cip1), which
is a universal inhibitor of Cdk kinases, in Ltk(-) fibroblasts also s
uppressed mitotic phosphorylation of hTK1 expressed in this cell line.
Thus, Cdc2 or related kinase(s) is probably involved in mitotic phosp
horylation on Ser(13) of the hTK1 polypeptide. We also found that muta
tion on Ser(13) did not affect the functional activity of hTK1, As the
sequences around Ser(13) are highly conserved in vertebrate TK1s, we
speculate that phosphorylation of Ser(13) may play a role in the regul
ation of TK1 expression in the cell cycle.