Site‐specific human breast cancer (MDA‐MB‐231) metastases in nude rats: Model characterisation and <i>in vivo</i> effects of ibandronate on tumour growth

Neudert, Marcus; Fischer, Christian; Krempien, B.; Bauss, Frieder; Seibel, Markus J.

doi:10.1002/ijc.11397

Cited by 64 publications

(51 citation statements)

References 25 publications

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“…Another study reported by Neudert at al. also pointed out that inoculation of breast cancer into femoral artery was able to stimulate multiple osteolytic lesions in the distal femoral and proximal tibiae within 18 days after inoculation, with a success rate of 95-100 % and no additional co morbidity 17 . Lastly, inoculation of tumor cells isolated from human suffer from breast cancer into mammary fat pad of nude mice was significantly induce breast cancer develop and metastasis to multiple mouse organs 18 Nevertheless, in the present study the tumor volume resulted from breast cancer inoculation in all groups were not similar (comparable) in size.…”

Section: Discussionmentioning

confidence: 97%

Treatment of Thyponium Flageliforme in Combination with Curcuma Zedoaria, and Phyllanthus Niruri Synergistically Enhances Apoptotic and Anti-Proliferative Effect on Breast Cancer

Chodidjah¹,

Widayati

Nasihun

2017

Journal of Natural Remedies

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Section: Discussionmentioning

confidence: 97%

Treatment of Thyponium Flageliforme in Combination with Curcuma Zedoaria, and Phyllanthus Niruri Synergistically Enhances Apoptotic and Anti-Proliferative Effect on Breast Cancer

Chodidjah¹,

Widayati

Nasihun

2017

Journal of Natural Remedies

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“…Recently, a model has been described that is characterized by site-specific osteolytic lesions after injection of MDA-MB-231 cells directly into the femoral artery of nude rats. 14 The disadvantage of this model is that the femoral artery has to be ligated, and spontaneous remission of lytic lesions occurred in up to 50% of animals at day 42 after tumor cell inoculation. In our model, the development of osteolytic lesions can be observed up to at least 110 days after tumor cell inoculation.…”

Section: Discussionmentioning

confidence: 99%

Characterization of a rat model with site‐specific bone metastasis induced by MDA‐MB‐231 breast cancer cells and its application to the effects of an antibody against bone sialoprotein

Bäuerle

Adwan

Kießling

et al. 2005

Intl Journal of Cancer

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Metastasis into the skeleton is a serious complication of certain neoplastic diseases such as breast, prostate and lung cancer, but the reasons for this osteotropism are poorly understood. Our aim was to establish a physiologically relevant animal model that is characterized by osteolytic lesions confined to the hind leg of nude rats. For this purpose, we injected 1310 5 MDA-MB-231 human breast cancer cells transfected with GFP into the superficial epigastric artery, which is an anastomosing vessel between the femoral and iliac arteries. As assessed with the aid of X-rays, computed tomography and immunohistochemisty, osteolytic lesions occurred exclusively in the femur, tibia and fibula of the animals. The tumor take rate was 93% in a series of 96 rats and the increase in lesion size was observed up to 110 days after tumor cell inoculation. When applying this animal model to the effects of an antibody against bone sialoprotein (BSP), a significantly reduced osteolytic lesion size was observed after preincubation of cells (2 hr, 600 mg/ml anti-BSP) prior to intra-arterial tumor cell injection resulting in 19 T/C% at day 60 after tumor implantation (p < 0.05). In addition, the osteolytic lesion size was also significantly reduced after s.c. treatment of the animals with the antibody (20 mg/kg anti-BSPx3 within 5 days after tumor implantation), resulting in 30 T/C% at day 60 after tumor cell implantation (p < 0.05). In conclusion, the novel rat model for site-specific osteolytic lesions provides in vivo evidence that preincubation of MDA-MB-231 GFP cells and treatment of rats after tumor implantation with an antibody against BSP significantly reduces the size of lytic lesions in bone. ' 2005 Wiley-Liss, Inc.Key words: nude rat model; MDA-MB-231 human breast cancer cell line; osteolysis; bone metastasis; bone sialoprotein (BSP); anti-BSP antibody Metastasis is a common phenomenon in the course of malignant tumor disease and the major reason for cancer-associated morbidity and mortality. In osteotropic malignancies such as breast, prostate, lung, kidney and thyroid cancer, the skeleton is frequently affected as metastatic site. From these cancers, the prevalence of skeletal disease is greatest in patients with breast or prostate carcinoma who in the advanced stage develop skeletal metastases in 70%. 1 Breast carcinoma patients experience a median survival time of 20 month after the first appearance of a bone metastasis. 2 Such a lesion results in a number of skeletal complications including pathological fractures, bone pain, hypocalcaemia and spinal cord compression. The reasons for the skeleton being the preferential localization site of metastasis in osteotropic cancers are poorly understood.In patients with primary breast cancer, elevated serum bone sialoprotein (BSP) was recognized as prognostic marker of subsequent bone metastasis 3 and was associated with poor survival. 4 BSP is a noncollagenous protein of the extracellular bone matrix and a member of the SIBLING (Small Integrin-Binding Ligand, N-linked Glycop...

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“…(61) These models result in near 100% frequency of development of these ''experimental metastases'' and have been used to assess efficacy of therapeutic agents under development; such agents have been assessed, more specifically, for their ability to block breast cancer growth within the bone and breast cancer-mediated bone resorption. (62) They also have provided an in vivo system in which human cancer cells can be passaged through a bone microenvironment, aiding the development of breast cancer cells that have been selected for their osteotropism and thus reproducible and efficient osteotropic metastasis during subsequent rounds of growth in mice. Such cells can be used to study the genetic changes that are required for survival and proliferation of cancer cells within the bone environment, as well as the changes within the bone microenvironment induced by the disseminated cancer cells.…”

Section: Xenograft Models Of Breast Cancer Metastasismentioning

confidence: 99%

Of mice and (wo)men: Mouse models of breast cancer metastasis to bone

Goldstein

Weinberg

Rosenblatt

2010

Journal of Bone and Mineral Research

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Site‐specific human breast cancer (MDA‐MB‐231) metastases in nude rats: Model characterisation and in vivo effects of ibandronate on tumour growth

Cited by 64 publications

References 25 publications

Treatment of Thyponium Flageliforme in Combination with Curcuma Zedoaria, and Phyllanthus Niruri Synergistically Enhances Apoptotic and Anti-Proliferative Effect on Breast Cancer

Treatment of Thyponium Flageliforme in Combination with Curcuma Zedoaria, and Phyllanthus Niruri Synergistically Enhances Apoptotic and Anti-Proliferative Effect on Breast Cancer

Characterization of a rat model with site‐specific bone metastasis induced by MDA‐MB‐231 breast cancer cells and its application to the effects of an antibody against bone sialoprotein

Of mice and (wo)men: Mouse models of breast cancer metastasis to bone

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