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Experimental Therapeutics, Preclinical Pharmacology |
Departments of Neurosurgery [J. H. U., N. P. D., J. S. R.] and Neuro-Oncology [J. H. U., A. P. K.], The University of Texas M. D. Anderson Cancer Center, Houston, Texas 77030, and Department of Pathology-Neuropathology, University of Alabama at Birmingham, Birmingham, Alabama 35294 [C. L. G.]
Vitronectin (VN) is an extracellular matrix (ECM) protein, the synthesis of which in vivo by glioma cells correlates with tumor grade. Although the role of VN as a permissive substrate for glioma migration has been well characterized, its role in conferring a survival advantage for tumor cells has not been addressed previously. By using an in vitro assay of DNA fragmentation as a quantitative measure of apoptotic cell death, we sought to determine whether the sensitivity of two human glioma cell lines (D54 and U251) to drug-induced apoptosis could be inhibited by VN. As well, the extent to which apoptosis could be inhibited was correlated with the levels of the Bcl-2 family of proteins that are known to modulate apoptosis and chemoresistance. Results of the study were: (a) VN coatings, in a dose-dependent manner, inhibited topoisomerase (Topo)-induced apoptosis by up to 50% (optimal coating density, 500 ng/cm2); in contrast, fibronectin (FN), an ECM protein present in abundance in the brain, demonstrated no protection; (b) in a dose-response study, VN clearly conferred a survival advantage (LD50 of Topo: on VN, 120 ng/ml; on FN, 35 ng/ml); (c) the protective effect of VN was not due to enhanced cell adhesion or alterations in the cell cycle distribution; (d) both of the classic integrin receptors that bind VN (
ß3, ß5) were capable of mediating this protective effect, because ligation of either of the two classic integrins conferred chemoresistance to Topo; and (e) chemoresistance observed with VN was associated with an increase in expression of two antiapoptotic proteins, Bcl-2 and Bcl-XL, with a consequent increase in the ratios for Bcl-2:Bax and Bcl-XL:Bax. VN, an ECM protein preferentially expressed at the tumor-brain interface in vivo, may confer a survival advantage to glioma cells at the advancing tumor margin and may thus, in part, underlie the high level of tumor recurrence at this interface.
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