Measurement of tumor load and distribution in a model of cancer-induced osteolysis

Measurement of tumor load and distribution in a model of cancer-induced osteolysis: a necessary precaution when testing novel anti-resorptive therapies

Research output: Contribution to journal › Journal article › Research › peer-review

Standard

Measurement of tumor load and distribution in a model of cancer-induced osteolysis : a necessary precaution when testing novel anti-resorptive therapies. / Amhlaoibh, R Nic; Hoegh-Andersen, P; Brünner, N; Sørensen, A; Winding, B; Holst-Hansen, Claus; Karsdal, M A; Engsig, M T; Delaissé, Jean-Marie; Heegaard, Anne-Marie.

In: Clinical and Experimental Metastasis, Vol. 21, No. 1, 2004, p. 65-74.

Research output: Contribution to journal › Journal article › Research › peer-review

Harvard

Amhlaoibh, RN, Hoegh-Andersen, P, Brünner, N, Sørensen, A, Winding, B, Holst-Hansen, C, Karsdal, MA, Engsig, MT, Delaissé, J-M & Heegaard, A-M 2004, 'Measurement of tumor load and distribution in a model of cancer-induced osteolysis: a necessary precaution when testing novel anti-resorptive therapies', Clinical and Experimental Metastasis, vol. 21, no. 1, pp. 65-74.

APA

Amhlaoibh, R. N., Hoegh-Andersen, P., Brünner, N., Sørensen, A., Winding, B., Holst-Hansen, C., Karsdal, M. A., Engsig, M. T., Delaissé, J-M., & Heegaard, A-M. (2004). Measurement of tumor load and distribution in a model of cancer-induced osteolysis: a necessary precaution when testing novel anti-resorptive therapies. Clinical and Experimental Metastasis, 21(1), 65-74.

Vancouver

Amhlaoibh RN, Hoegh-Andersen P, Brünner N, Sørensen A, Winding B, Holst-Hansen C et al. Measurement of tumor load and distribution in a model of cancer-induced osteolysis: a necessary precaution when testing novel anti-resorptive therapies. Clinical and Experimental Metastasis. 2004;21(1):65-74.

Author

Amhlaoibh, R Nic ; Hoegh-Andersen, P ; Brünner, N ; Sørensen, A ; Winding, B ; Holst-Hansen, Claus ; Karsdal, M A ; Engsig, M T ; Delaissé, Jean-Marie ; Heegaard, Anne-Marie. / Measurement of tumor load and distribution in a model of cancer-induced osteolysis : a necessary precaution when testing novel anti-resorptive therapies. In: Clinical and Experimental Metastasis. 2004 ; Vol. 21, No. 1. pp. 65-74.

Bibtex

@article{6798756c56794e54a41b4989ae6a16b2,

title = "Measurement of tumor load and distribution in a model of cancer-induced osteolysis: a necessary precaution when testing novel anti-resorptive therapies",

abstract = "The Arguello model of cancer metastasis to bone has been used extensively to study breast cancer-induced osteolytic disease. The effects of therapy on skeletal disease and on tumour burden in soft organs are traditionally measured using radiography and/or time-consuming histomorphometry, respectively. The purpose of this study was to develop a sensitive and efficient method for evaluating tumour burden in vivo using MDA-231 cells transduced with the E. coli lacZ gene (MDA-231BAG). Osteolysis was measured by radiography and tumour burden was measured histomorphometrically or biochemically. In untreated mice, measurements of tumour burden in bone extracts using human cytokeratin-associated tissue polypeptide antigen (TPA) ELISA or E. coli beta-galactosidase (beta-gal) activity immunoassay reflected the extent of osteolytic disease as measured by radiography; however, tumour load could be detected before onset of osteolysis. When monitoring the effect of therapy (0.2 mg/kg ibandronate/day), radiography alone proved to be insufficient. Mice treated with the bisphosphonate ibandronate from time of inoculation with cancer cells had no radiologically visible signs of osteolysis but significant tumour load was measured in the bone extracts using these assays. Furthermore, beta-gal activity could be used as a measurement of tumour load in soft organs, and unlike other human breast cancer markers expressed by the MDA-231 cells in vitro, beta-gal activity was detected in the serum of mice with progressive disease. In conclusion, we describe an efficient model of breast cancer-induced osteolysis to quantify the effect of therapy on disease load and distribution, which could be beneficial in evaluating novel therapies for the treatment of the disease.",

author = "Amhlaoibh, {R Nic} and P Hoegh-Andersen and N Br{\"u}nner and A S{\o}rensen and B Winding and Claus Holst-Hansen and Karsdal, {M A} and Engsig, {M T} and Jean-Marie Delaiss{\'e} and Anne-Marie Heegaard",

year = "2004",

language = "English",

volume = "21",

pages = "65--74",

journal = "Clinical and Experimental Metastasis",

issn = "0262-0898",

publisher = "Springer",

number = "1",

}

RIS

TY - JOUR

T1 - Measurement of tumor load and distribution in a model of cancer-induced osteolysis

T2 - a necessary precaution when testing novel anti-resorptive therapies

AU - Amhlaoibh, R Nic

AU - Hoegh-Andersen, P

AU - Brünner, N

AU - Sørensen, A

AU - Winding, B

AU - Holst-Hansen, Claus

AU - Karsdal, M A

AU - Engsig, M T

AU - Delaissé, Jean-Marie

AU - Heegaard, Anne-Marie

PY - 2004

Y1 - 2004

N2 - The Arguello model of cancer metastasis to bone has been used extensively to study breast cancer-induced osteolytic disease. The effects of therapy on skeletal disease and on tumour burden in soft organs are traditionally measured using radiography and/or time-consuming histomorphometry, respectively. The purpose of this study was to develop a sensitive and efficient method for evaluating tumour burden in vivo using MDA-231 cells transduced with the E. coli lacZ gene (MDA-231BAG). Osteolysis was measured by radiography and tumour burden was measured histomorphometrically or biochemically. In untreated mice, measurements of tumour burden in bone extracts using human cytokeratin-associated tissue polypeptide antigen (TPA) ELISA or E. coli beta-galactosidase (beta-gal) activity immunoassay reflected the extent of osteolytic disease as measured by radiography; however, tumour load could be detected before onset of osteolysis. When monitoring the effect of therapy (0.2 mg/kg ibandronate/day), radiography alone proved to be insufficient. Mice treated with the bisphosphonate ibandronate from time of inoculation with cancer cells had no radiologically visible signs of osteolysis but significant tumour load was measured in the bone extracts using these assays. Furthermore, beta-gal activity could be used as a measurement of tumour load in soft organs, and unlike other human breast cancer markers expressed by the MDA-231 cells in vitro, beta-gal activity was detected in the serum of mice with progressive disease. In conclusion, we describe an efficient model of breast cancer-induced osteolysis to quantify the effect of therapy on disease load and distribution, which could be beneficial in evaluating novel therapies for the treatment of the disease.

AB - The Arguello model of cancer metastasis to bone has been used extensively to study breast cancer-induced osteolytic disease. The effects of therapy on skeletal disease and on tumour burden in soft organs are traditionally measured using radiography and/or time-consuming histomorphometry, respectively. The purpose of this study was to develop a sensitive and efficient method for evaluating tumour burden in vivo using MDA-231 cells transduced with the E. coli lacZ gene (MDA-231BAG). Osteolysis was measured by radiography and tumour burden was measured histomorphometrically or biochemically. In untreated mice, measurements of tumour burden in bone extracts using human cytokeratin-associated tissue polypeptide antigen (TPA) ELISA or E. coli beta-galactosidase (beta-gal) activity immunoassay reflected the extent of osteolytic disease as measured by radiography; however, tumour load could be detected before onset of osteolysis. When monitoring the effect of therapy (0.2 mg/kg ibandronate/day), radiography alone proved to be insufficient. Mice treated with the bisphosphonate ibandronate from time of inoculation with cancer cells had no radiologically visible signs of osteolysis but significant tumour load was measured in the bone extracts using these assays. Furthermore, beta-gal activity could be used as a measurement of tumour load in soft organs, and unlike other human breast cancer markers expressed by the MDA-231 cells in vitro, beta-gal activity was detected in the serum of mice with progressive disease. In conclusion, we describe an efficient model of breast cancer-induced osteolysis to quantify the effect of therapy on disease load and distribution, which could be beneficial in evaluating novel therapies for the treatment of the disease.

M3 - Journal article

C2 - 15065604

VL - 21

SP - 65

EP - 74

JO - Clinical and Experimental Metastasis

JF - Clinical and Experimental Metastasis

SN - 0262-0898

IS - 1

ER -

ID: 38426376