Loading…
Antiangiogenic chemotherapeutic agents: characterization in comparison to their tumor growth inhibition in human renal cell carcinoma models
The mechanism of action of anticancer chemotherapeutic agents is mainly thought to be due to a direct inhibition of tumor cell proliferation. The enhanced endothelial cell proliferation rate in tumor specimens raised the question of whether therapeutic effects of chemotherapeutic agents might be at...
Saved in:
Published in: | Clinical cancer research 1998-05, Vol.4 (5), p.1331-1336 |
---|---|
Main Authors: | , , , |
Format: | Article |
Language: | English |
Subjects: | |
Online Access: | Get full text |
Tags: |
Add Tag
No Tags, Be the first to tag this record!
|
Summary: | The mechanism of action of anticancer chemotherapeutic agents is mainly thought to be due to a direct inhibition of tumor
cell proliferation. The enhanced endothelial cell proliferation rate in tumor specimens raised the question of whether therapeutic
effects of chemotherapeutic agents might be at least partially attributed to inhibition of tumor angiogenesis. In the present
study, we investigated the potential effects of chemotherapeutic agents on human renal carcinoma angiogenesis with the alginate
implantation model in mice. For the first time, we also compared results from the angiogenesis model with the inhibitory effects
on growth of s.c. xenografts in nude mice. Vincristine and bleomycin exerted strong inhibition of tumor angiogenesis in both
carcinoma lines close to the level of the standard antiangiogenic agent O-chloroacetyl-carbamyl-fumagillol (AGM-1470; T/C
22%). Adriamycin reduced angiogenesis of Caki-2 cells (T/C 33%) but had no effect on Caki-1 angiogenesis (T/C 137%). Etoposide
and 5-fluorouracil reduced Caki-1 tumor angiogenesis but had no effect on Caki-2. Despite antiangiogenic effects in both carcinoma
lines, vincristine, bleomycin, and AGM-1470 significantly reduced only the growth of fast-growing Caki-1 s.c. xenografts but
not the slow-growing Caki-2. Antivascular effects by bleomycin and AGM-1470 were also shown by a decrease of microvessel density
in nude mouse xenografts. Our findings suggest that chemotherapeutic agents may exert inhibition of tumor angiogenesis, which
could be exploitable by combination therapy of fast-growing tumors. The resistance of the slow-growing Caki-2 carcinoma against
acute angiogenesis inhibition indicates a need for well-tolerated angiogenesis inhibitors. Our results also suggest the use
of fast-growing s.c. xenografts for demonstrating growth inhibition by antiangiogenic compounds. Further characterization
of antiangiogenic compounds considered for clinical application should, however, have its focus on slow-growing tumors, which
are not accessible for most therapeutic strategies. |
---|---|
ISSN: | 1078-0432 1557-3265 |