The novel tubulin-binding drug BTO-956 inhibits R3230Ac mammary carcinoma growth and angiogenesis in fischer 344 rats

Siqing Shah; A. Craig Lockhart; Wilfred Y. Saito; A. Merrill Knapp; Keith R. Laderoute; Mark W. Dewhirst

The novel tubulin-binding drug BTO-956 inhibits R3230Ac mammary carcinoma growth and angiogenesis in fischer 344 rats

Siqing Shah, A. Craig Lockhart, Wilfred Y. Saito, A. Merrill Knapp, Keith R. Laderoute, Mark W. Dewhirst

Research output: Contribution to journal › Article › peer-review

Abstract

BTO-956 [methyl-3, 5-diiodo-4-(4′-methoxyphenoxy)benzoate], a novel tubulin-binding drug and thyroid hormone analogue, was originally found to inhibit human carcinoma cell proliferation in vitro and to have potent growth delay activity in human breast and ovarian carcinoma xenografts in nude mice. Here we report that BTO-956 given to Fischer 344 rats also inhibits corneal angiogenesis and the growth and neovascularization of the R3230Ac rat mammary carcinoma tumor implanted in skin-fold window chambers. Hydron pellets containing recombinant human basic fibroblast growth factor (50 ng) and Sucralfate (20 μg) were implanted into surgically created corneal micropockets (day 0). BTO-956 was administrated by oral garage (500 mg/kg, twice a day for 6 days) on days 1-6 (controls received vehicle alone). On day 7, rats received retrogade infusions of India ink via the thoracic aorta to visualize the corneal vasculature. Digitized images of slide-mounted corneas from control and treated animals were taken with a microscope. For the tumor growth and angiogenesis study, small pieces of R3230Ac tumor from a donor rat were implanted into surgically prepared window chambers (day 0). BTO-956 was given during days 5-11, and images of the tumors and their vasculature were recorded on day 12. No body weight loss was observed in either study. BTO-956 significantly inhibited corneal angiogenesis (by 50-80%), as assessed by measurements of limbal circumference displaying neovascularization, vessel length, vascularized area, and vascular area density. In the window chamber assay, tumors from treated animals were >50% smaller than tumors in control animals. In addition, vascular length densities in peripheral tumor zones were 30% less in treated compared with control animals. Together, these findings demonstrate that BTO-956 can inhibit angiogenesis induced by a growth factor in the rat cornea and in the peripheral area of implanted tumors, where tumor angiogenesis is most active.

Original language	English (US)
Pages (from-to)	2590-2596
Number of pages	7
Journal	Clinical Cancer Research
Volume	7
Issue number	8
State	Published - 2001
Externally published	Yes

ASJC Scopus subject areas

Oncology
Cancer Research

Cite this

@article{c52c194cf3a74cdf82f9b43dcf8349e2,

title = "The novel tubulin-binding drug BTO-956 inhibits R3230Ac mammary carcinoma growth and angiogenesis in fischer 344 rats",

abstract = "BTO-956 [methyl-3, 5-diiodo-4-(4′-methoxyphenoxy)benzoate], a novel tubulin-binding drug and thyroid hormone analogue, was originally found to inhibit human carcinoma cell proliferation in vitro and to have potent growth delay activity in human breast and ovarian carcinoma xenografts in nude mice. Here we report that BTO-956 given to Fischer 344 rats also inhibits corneal angiogenesis and the growth and neovascularization of the R3230Ac rat mammary carcinoma tumor implanted in skin-fold window chambers. Hydron pellets containing recombinant human basic fibroblast growth factor (50 ng) and Sucralfate (20 μg) were implanted into surgically created corneal micropockets (day 0). BTO-956 was administrated by oral garage (500 mg/kg, twice a day for 6 days) on days 1-6 (controls received vehicle alone). On day 7, rats received retrogade infusions of India ink via the thoracic aorta to visualize the corneal vasculature. Digitized images of slide-mounted corneas from control and treated animals were taken with a microscope. For the tumor growth and angiogenesis study, small pieces of R3230Ac tumor from a donor rat were implanted into surgically prepared window chambers (day 0). BTO-956 was given during days 5-11, and images of the tumors and their vasculature were recorded on day 12. No body weight loss was observed in either study. BTO-956 significantly inhibited corneal angiogenesis (by 50-80%), as assessed by measurements of limbal circumference displaying neovascularization, vessel length, vascularized area, and vascular area density. In the window chamber assay, tumors from treated animals were >50% smaller than tumors in control animals. In addition, vascular length densities in peripheral tumor zones were 30% less in treated compared with control animals. Together, these findings demonstrate that BTO-956 can inhibit angiogenesis induced by a growth factor in the rat cornea and in the peripheral area of implanted tumors, where tumor angiogenesis is most active.",

author = "Siqing Shah and Lockhart, {A. Craig} and Saito, {Wilfred Y.} and Knapp, {A. Merrill} and Laderoute, {Keith R.} and Dewhirst, {Mark W.}",

year = "2001",

language = "English (US)",

volume = "7",

pages = "2590--2596",

journal = "Clinical Cancer Research",

issn = "1078-0432",

publisher = "American Association for Cancer Research Inc.",

number = "8",

}

TY - JOUR

T1 - The novel tubulin-binding drug BTO-956 inhibits R3230Ac mammary carcinoma growth and angiogenesis in fischer 344 rats

AU - Shah, Siqing

AU - Lockhart, A. Craig

AU - Saito, Wilfred Y.

AU - Knapp, A. Merrill

AU - Laderoute, Keith R.

AU - Dewhirst, Mark W.

PY - 2001

Y1 - 2001

N2 - BTO-956 [methyl-3, 5-diiodo-4-(4′-methoxyphenoxy)benzoate], a novel tubulin-binding drug and thyroid hormone analogue, was originally found to inhibit human carcinoma cell proliferation in vitro and to have potent growth delay activity in human breast and ovarian carcinoma xenografts in nude mice. Here we report that BTO-956 given to Fischer 344 rats also inhibits corneal angiogenesis and the growth and neovascularization of the R3230Ac rat mammary carcinoma tumor implanted in skin-fold window chambers. Hydron pellets containing recombinant human basic fibroblast growth factor (50 ng) and Sucralfate (20 μg) were implanted into surgically created corneal micropockets (day 0). BTO-956 was administrated by oral garage (500 mg/kg, twice a day for 6 days) on days 1-6 (controls received vehicle alone). On day 7, rats received retrogade infusions of India ink via the thoracic aorta to visualize the corneal vasculature. Digitized images of slide-mounted corneas from control and treated animals were taken with a microscope. For the tumor growth and angiogenesis study, small pieces of R3230Ac tumor from a donor rat were implanted into surgically prepared window chambers (day 0). BTO-956 was given during days 5-11, and images of the tumors and their vasculature were recorded on day 12. No body weight loss was observed in either study. BTO-956 significantly inhibited corneal angiogenesis (by 50-80%), as assessed by measurements of limbal circumference displaying neovascularization, vessel length, vascularized area, and vascular area density. In the window chamber assay, tumors from treated animals were >50% smaller than tumors in control animals. In addition, vascular length densities in peripheral tumor zones were 30% less in treated compared with control animals. Together, these findings demonstrate that BTO-956 can inhibit angiogenesis induced by a growth factor in the rat cornea and in the peripheral area of implanted tumors, where tumor angiogenesis is most active.

AB - BTO-956 [methyl-3, 5-diiodo-4-(4′-methoxyphenoxy)benzoate], a novel tubulin-binding drug and thyroid hormone analogue, was originally found to inhibit human carcinoma cell proliferation in vitro and to have potent growth delay activity in human breast and ovarian carcinoma xenografts in nude mice. Here we report that BTO-956 given to Fischer 344 rats also inhibits corneal angiogenesis and the growth and neovascularization of the R3230Ac rat mammary carcinoma tumor implanted in skin-fold window chambers. Hydron pellets containing recombinant human basic fibroblast growth factor (50 ng) and Sucralfate (20 μg) were implanted into surgically created corneal micropockets (day 0). BTO-956 was administrated by oral garage (500 mg/kg, twice a day for 6 days) on days 1-6 (controls received vehicle alone). On day 7, rats received retrogade infusions of India ink via the thoracic aorta to visualize the corneal vasculature. Digitized images of slide-mounted corneas from control and treated animals were taken with a microscope. For the tumor growth and angiogenesis study, small pieces of R3230Ac tumor from a donor rat were implanted into surgically prepared window chambers (day 0). BTO-956 was given during days 5-11, and images of the tumors and their vasculature were recorded on day 12. No body weight loss was observed in either study. BTO-956 significantly inhibited corneal angiogenesis (by 50-80%), as assessed by measurements of limbal circumference displaying neovascularization, vessel length, vascularized area, and vascular area density. In the window chamber assay, tumors from treated animals were >50% smaller than tumors in control animals. In addition, vascular length densities in peripheral tumor zones were 30% less in treated compared with control animals. Together, these findings demonstrate that BTO-956 can inhibit angiogenesis induced by a growth factor in the rat cornea and in the peripheral area of implanted tumors, where tumor angiogenesis is most active.

UR - http://www.scopus.com/inward/record.url?scp=0034892665&partnerID=8YFLogxK

UR - http://www.scopus.com/inward/citedby.url?scp=0034892665&partnerID=8YFLogxK

M3 - Article

C2 - 11489843

AN - SCOPUS:0034892665

VL - 7

SP - 2590

EP - 2596

JO - Clinical Cancer Research

JF - Clinical Cancer Research

SN - 1078-0432

IS - 8

ER -

The novel tubulin-binding drug BTO-956 inhibits R3230Ac mammary carcinoma growth and angiogenesis in fischer 344 rats

Abstract

ASJC Scopus subject areas

Other files and links

Fingerprint

Cite this