Abstract
The cyclin-dependent kinase-interacting proteins Cyclin-dependent Kinase Subunit 1 and 2 (CKS1 and 2) are frequently overexpressed in cancer and linked to increased aggressiveness and poor prognoses. We previously showed that CKS protein overexpression overrides the replication stress checkpoint activated by oncoproteins. Since CKS overexpression and oncoprotein activation/overexpression are often observed in the same tumors, we have hypothesized that CKS-mediated checkpoint override could enhance the ability of premalignant cells experiencing oncoprotein-induced replication stress to expand. This tumor advantage, however, could represent a vulnerability to exploit therapeutically. Here, we first show in vitro that CKS protein overexpression selectively sensitizes tumor-derived cell lines to nucleoside analog-mediated toxicity under replication stress conditions. A treatment combination of the nucleoside analog gemcitabine and an agent that induces replication stress (thymidine or methotrexate) resulted in selective targeting of CKS protein-overexpressing tumor-derived cells while protecting proliferative cells with low CKS protein levels from gemcitabine toxicity. We validated this strategy in vivo and observed that Cks2-overexpressing mammary tumors in nude mice were selectively sensitized to gemcitabine under conditions of methotrexate-induced replication stress. These results suggest that high CKS expression might be useful as a biomarker to identify subgroups of cancer patients who might benefit from the described therapeutic approach.
Highlights
Cyclin-dependent Kinase Subunit (CKS) proteins are small (9 kDa) cyclin-dependent kinase (CDK)-interacting proteins expressed in all eukaryotes
We previously showed that CKS protein overexpression overrides the replication stress checkpoint activated by oncoproteins
We previously showed that in response to replication stress triggered by treatment with hydroxyurea or thymidine, or by overexpression of the oncoprotein cyclin E, CKS-overexpressing cells failed to arrest in S-phase [18]
Summary
Cyclin-dependent Kinase Subunit (CKS) proteins are small (9 kDa) cyclin-dependent kinase (CDK)-interacting proteins expressed in all eukaryotes. Germline deletion of both CKS1 and CKS2 results in early embryonic lethality, most likely because CKS proteins are essential for the expression of cyclins A and B and CDK1 [6]. Cks is an essential accessory protein for the ubiquitin ligase SCFSkp, mediating the ubiquitin-dependent proteolysis of the CDK inhibitors p27Kip, p21Kip, and the Rb-related protein p130 [7, 9, 10]. The only paralog expressed in the germline, is essential for meiosis, as CKS2-/- mice are sterile due to spermatocyte and oocyte arrest at meiotic metaphase I [8]
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