Concentration- and schedule-dependent effects of chemotherapy on the angiogenic potential and drug sensitivity of vascular endothelial cells
Cancer Research
Physiology
Clinical Biochemistry
Blotting, Western
610
Antineoplastic Agents
3101 Biochemistry and Cell Biology
Cardiovascular
Small Interfering
anzsrc-for: 1103 Clinical Sciences
Polymerase Chain Reaction
Drug Administration Schedule
Cell Line
Dose-Response Relationship
03 medical and health sciences
Tubulin
Vascular
anzsrc-for: 1115 Pharmacology and Pharmaceutical Sciences
616
Humans
Endothelium
Gene Silencing
anzsrc-for: 31 Biological Sciences
RNA, Small Interfering
Neovascularization
Cancer
Cell Line, Transformed
DNA Primers
Pathologic
Original Paper
0303 health sciences
Base Sequence
Dose-Response Relationship, Drug
Neovascularization, Pathologic
Blotting
anzsrc-for: 3101 Biochemistry and Cell Biology
3. Good health
Transformed
5.1 Pharmaceuticals
RNA
Endothelium, Vascular
Drug
Western
31 Biological Sciences
DOI:
10.1007/s10456-012-9321-x
Publication Date:
2012-11-09T10:57:55Z
AUTHORS (8)
ABSTRACT
The anti-angiogenic activity of chemotherapy is both dose- and schedule-dependent. While conventional maximum tolerated dose (MTD) chemotherapy exerts only mild and reversible anti-angiogenic effects, low-dose metronomic (LDM) chemotherapy was developed to specifically target tumour angiogenesis. However, the long-term effects of either MTD or LDM chemotherapy on vascular endothelial cells have never been investigated. Here, we demonstrated that repeated exposure to MTD and LDM chemotherapy differentially impact on the angiogenic potential and chemosensitivity of immortalized endothelial cells. Repeated MTD vinblastine treatment of vascular endothelial cells led to an increased proliferation rate and resistance to paclitaxel. In contrast, repeated LDM treatment with vinblastine or etoposide impaired the angiogenic potential of endothelial cells and increased their chemosensitivity. This effect was associated with a significant decrease in βII- and βIII-tubulin expression. Functional analysis using siRNA showed that silencing the expression of βIII-tubulin in endothelial cells significantly decreased their capacity to form vascular structures and increased their sensitivity to the anti-angiogenic and vascular-disrupting effects of chemotherapy, whereas silencing βII-tubulin expression had no effect. Collectively our results show that LDM chemotherapy impairs the angiogenic potential of endothelial cells while increasing their chemosensitivity-an effect at least in part mediated by the down-regulation of βIII-tubulin expression. Furthermore, our study suggests that βIII-tubulin represents an attractive therapeutic target to increase the anti-angiogenic effects of chemotherapy and overall anti-tumour efficacy.
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