Leroy D, Alghisi G C, Roberts E, Filhol-Cochet O, Gasser S M
Chromatin Research Unit, Swiss Institute for Experimental Cancer Research (ISREC), Epalinges.
Mol Cell Biochem. 1999 Jan;191(1-2):85-95.
Topoisomerase II is a major target of the protein kinase casein kinase 2 (PK CK2) in vivo. All major phosphorylation acceptor sites in the yeast enzyme are found in the C-terminal 350aa. The acceptor sites are generally clustered such that there is more than one modified Ser or Thr within a short peptide. Mutagenesis of the predicted acceptor sites have confirmed that five of the eight predicted sites are targeted in vitro and in vivo by PK CK2. Mutation to nonphosphorylatable, neutral residues provokes at most a 10% increase in mitotic doubling time. Truncation of the enzyme leaves the enzyme catalytically active, but slightly lengthens the doubling time during mitotic growth and impedes progress through meiosis. Since this could reflect the loss of interaction with an important ligand, we have examined whether the C-terminal domain of the yeast enzyme mediates interaction with the regulatory beta subunit of PK CK2, which was previously reported to bind topoisomerase II. We find that point mutation of the phospho-acceptor sites does not abrogate the interaction with a small region of PK CK2beta, while truncation at aa1276 or aa1236 does. The site of interaction within PK CK2beta does not coincide with the highly negatively charged spermine binding site.
拓扑异构酶II是体内蛋白激酶酪蛋白激酶2(PK CK2)的主要作用靶点。酵母酶中所有主要的磷酸化受体位点都位于C端的350个氨基酸区域内。这些受体位点通常聚集在一起,使得在一个短肽内有不止一个被修饰的丝氨酸或苏氨酸。对预测的受体位点进行诱变已证实,八个预测位点中的五个在体外和体内都是PK CK2的作用靶点。突变为不可磷酸化的中性残基最多只会使有丝分裂倍增时间增加10%。酶的截短会使酶保持催化活性,但会略微延长有丝分裂生长期间的倍增时间,并阻碍减数分裂进程。由于这可能反映了与重要配体相互作用的丧失,我们研究了酵母酶的C端结构域是否介导与PK CK2的调节性β亚基的相互作用,之前有报道称该亚基可结合拓扑异构酶II。我们发现,磷酸化受体位点的点突变不会消除与PK CK2β小区域的相互作用,而在第1276位氨基酸或第1236位氨基酸处截短则会消除这种相互作用。PK CK2β内的相互作用位点与高度带负电荷的精胺结合位点并不重合。
