Abstract
Small-cell lung cancers (SCLC) are defective in many regulatory mechanisms that control cell cycle progression, i.e., functional retinoblastoma protein (pRb). Flavopiridol inhibits proliferation and induces apoptosis in SCLC cell lines. We hypothesized that the sequence flavopiridol followed by doxorubicin would be synergistic in pRb-deficient SCLC cells. A H69 pRb-deficient SCLC cell line, H865, with functional pRb and H865 pRb small interfering RNA (siRNA) knockdown cells were used for in vitro and in vivo experiments. The in vivo efficiencies of various sequential combinations were tested using nude/nude athymic mice and human SCLC xenograft models. Flavopiridol then doxorubicin sequential treatment was synergistic in the pRB-negative H69 cell line. By knocking down pRb with specific siRNA, H865 clones with complete pRb knockdown became sensitive to flavopiridol and doxorubicin combinations. pRb-deficient SCLC cell lines were highly sensitive to flavopiridol-induced apoptosis. pRb-positive H865 cells arrested in G0-G1 with flavopiridol exposure, whereas doxorubicin and all flavopiridol/doxorubicin combinations caused a G2-M block. In contrast, pRb-negative SCLC cells did not arrest in G0-G1 with flavopiridol exposure. Flavopiridol treatment alone did not have an in vivo antitumor effect, but sequential flavopiridol followed by doxorubicin treatment provided tumor growth control and a survival advantage in Rb-negative xenograft models, compared with the other sequential treatments. Flavopiridol and doxorubicin sequential treatment induces potent in vitro and in vivo synergism in pRb-negative SCLC cells and should be clinically tested in tumors lacking functional pRB.
Highlights
Small-cell lung cancer (SCLC) accounts for f13% of the lung cancers [1, 2]
We show that flavopiridol pretreatment makes pRb-negative SCLC cells more sensitive to doxorubicin both in vitro and in vivo while decreasing toxicities to normal renewal tissues
We show that de novo SCLC cells are relatively sensitive to both flavopiridol and doxorubicin, and flavopiridol and doxorubicin combinations exert both in vitro and in vivo synergistic effects
Summary
Despite the high response rate of SCLC to many anticancer agents, during the last 30 years there has been only a modest change in survival, for patients with extensive-stage disease. The aromatic chromophore portion of doxorubicin interacts with two base pairs of the DNA by intercalation [12, 13] In extensive-stage small-cell lung cancer (SCLC), chemotherapy response provides only a modest change in survival. The retinoblastoma (pRb) tumor suppressor gene, the master regulator of the G1-S phase transition, is inactivated in more than 90% of SCLC. Decreasing the extent of toxicity while increasing antitumor response with low-dose flavopiridol and doxorubicin combination might provide some survival benefit to these heavily pretreated patients
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