TY - JOUR A1 - Thibaudeau, Laure A1 - Taubenberger, Anna V. A1 - Theodoropoulos, Christina A1 - Holzapfel, Boris M. A1 - Ramuz, Olivier A1 - Straub, Melanie A1 - Hutmacher, Dietmar W. T1 - New mechanistic insights of integrin β1 in breast cancer bone colonization JF - Oncotarget N2 - Bone metastasis is a frequent and life-threatening complication of breast cancer. The molecular mechanisms supporting the establishment of breast cancer cells in the skeleton are still not fully understood, which may be attributed to the lack of suitable models that interrogate interactions between human breast cancer cells and the bone microenvironment. Although it is well-known that integrins mediate adhesion of malignant cells to bone extracellular matrix, their role during bone colonization remains unclear. Here, the role of β1 integrins in bone colonization was investigated using tissue-engineered humanized in vitro and in vivo bone models. In vitro, bone-metastatic breast cancer cells with suppressed integrin β1 expression showed reduced attachment, spreading, and migration within human bone matrix compared to control cells. Cell proliferation in vitro was not affected by β1 integrin knockdown, yet tumor growth in vivo within humanized bone microenvironments was significantly inhibited upon β1 integrin suppression, as revealed by quantitative in/ex vivo fluorescence imaging and histological analysis. Tumor cells invaded bone marrow spaces in the humanized bone and formed osteolytic lesions; osteoclastic bone resorption was, however, not reduced by β1 integrin knockdown. Taken together, we demonstrate that β1 integrins have a pivotal role in bone colonization using unique tissue-engineered humanized bone models. KW - tissue engineering KW - bone colonization KW - breast cancer KW - β1 integrin KW - humanized bone models Y1 - 2015 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:bvb:20-opus-175432 VL - 6 IS - 1 ER - TY - JOUR A1 - Thibaudeau, Laure A1 - Taubenberger, Anna V. A1 - Holzapfel, Boris M. A1 - Quent, Verena M. A1 - Fuehrmann, Tobias A1 - Hesami, Parisa A1 - Brown, Toby D. A1 - Dalton, Paul D. A1 - Power, Carl A. A1 - Hollier, Brett G. A1 - Hutmacher, Dietmar W. T1 - A tissue-engineered humanized xenograft model of human breast cancer metastasis to bone JF - Disease Models & Mechanisms N2 - The skeleton is a preferred homing site for breast cancer metastasis. To date, treatment options for patients with bone metastases are mostly palliative and the disease is still incurable. Indeed, key mechanisms involved in breast cancer osteotropism are still only partially understood due to the lack of suitable animal models to mimic metastasis of human tumor cells to a human bone microenvironment. In the presented study, we investigate the use of a human tissue-engineered bone construct to develop a humanized xenograft model of breast cancer-induced bone metastasis in a murine host. Primary human osteoblastic cell-seeded melt electrospun scaffolds in combination with recombinant human bone morphogenetic protein 7 were implanted subcutaneously in non-obese diabetic/severe combined immunodeficient mice. The tissue-engineered constructs led to the formation of a morphologically intact 'organ' bone incorporating a high amount of mineralized tissue, live osteocytes and bone marrow spaces. The newly formed bone was largely humanized, as indicated by the incorporation of human bone cells and human-derived matrix proteins. After intracardiac injection, the dissemination of luciferase-expressing human breast cancer cell lines to the humanized bone ossicles was detected by bioluminescent imaging. Histological analysis revealed the presence of metastases with clear osteolysis in the newly formed bone. Thus, human tissue-engineered bone constructs can be applied efficiently as a target tissue for human breast cancer cells injected into the blood circulation and replicate the osteolytic phenotype associated with breast cancer-induced bone lesions. In conclusion, we have developed an appropriate model for investigation of species-specific mechanisms of human breast cancer-related bone metastasis in vivo. KW - breast cancer KW - bone metastasis KW - humanized xenograft model KW - melt electrospinning KW - tissue engineering KW - osteotropism KW - in vivo KW - stem-cell niche KW - human prostate-cancer KW - morphogenetic protein KW - osteoprogenitor cells KW - endochondral ossification KW - mouse model KW - trabecular bone KW - calcium phosphate KW - skeletal metastases Y1 - 2014 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:bvb:20-opus-117466 VL - 7 IS - 2 ER - TY - THES A1 - Flegler, Katharina T1 - Untersuchung der Expression von Knochensialoprotein (BSP) an Gewebe von Knochenmetastasen mittels Immunhistologie : Vergleich eines Antikörpers gegen nicht-glykosyliertes BSP mit einem Antikörper gegen glykosyliertes BSP T1 - Expression of bone sialoprotein (BSP) in bone metastases : antibodies against normal BSP compared to antibodies against BSP which bind epitopes that are incomplete in their posttranslational glycosylation N2 - Knochensialoprotein (BSP) ist ein Protein der extrazellulären Matrix im Knochen und mineralisierten Geweben, wird aber auch von verschiedenen Tumorzellen exprimiert (Bellahcene et al., 1994, 1997, 1998). Dies ist assoziiert mit einer schlechten Prognose und einem erhöhten Risiko für eine spätere Entwicklung von Knochenmetastasen. Diel et al. (1999) konnte zeigen, dass ein erhöhter Serum-BSP-Wert bei Patientinnen mit Mammakarzinom zu einem gehäuften Auftreten von Knochenmetastasen im Laufe der Erkrankung führt. BSP scheint ein Marker für die Entstehung von Knochenmetastasen zu sein. In der Literatur ist ein Antikörper beschrieben, der ein Epitop des BSP erkennt, welches im BSP aus Tumorzellen nicht glykosyliert ist, im BSP aus mineralisiertem Gewebe allerdings schon (Armbruster et al., 2009). Im Tiermodell konnte gezeigt werden, dass Knochenmetastasen verhindert werden können bei gleichzeitiger Gabe von Tumorzellen und Antikörpern gegen BSP beziehungsweise, dass bei vorhandenen Knochenmetastasen eine Behandlung der Tiere mit einem Anti-BSP-Antikörper die Metastasen zurückbildet (Bäuerle et al., 2005, 2006). In der aktuellen Arbeit wird die Expression von BSP an menschlichem Gewebe von Knochenmetastasen mit unterschiedlichen Primärtumoren mittels Immunhistochemie untersucht. Insgesamt wurden 35 Fälle von Knochenmetastasen mit Primärtumor eines Mammakarzinoms untersucht, wobei 22,9% eine BSP Expression aufweisen, davon 5,7% eine starke. Knochenmetastasen mit dem Primärtumor Prostatakarzinom sind mit 8 Fällen repräsentiert, wobei 75% positiv für BSP sind, davon 25% stark positiv. Die einzelnen Fälle zeigen eine starke BSP Expression im Stroma und eine schwache BSP Expression der Tumorzellen. Diese Ergebnisse des Antikörpers gegen normal glykosyliertes BSP wurden verglichen mit dem Antikörper gegen nicht glykosyliertes BSP. Der Nachweis von BSP in Tumorzellen zeigt dasselbe Ergebnis, BSP im Stroma wird durch den Antikörper gegen nicht- glykosyliertes BSP intensiver dargestellt. Daraus lässt sich folgern, dass der Antikörper gegen nicht- glykosyliertes BSP nicht spezifisch für die Isoform des BSP aus Tumorzellen ist, sondern gleichermaßen in der Routinediagnostik von BSP eingesetzt werden kann. Die Untersuchung könnte sogar darauf hinweisen, dass dieser Antikörper die nicht- glykosylierte Isoform im Stroma erkennt und damit bei Untersuchung des Stromas die bessere Alternative darstellt. N2 - Bone sialoprotein (BSP) is a bone matrix protein that is also expressed by breast cancer and prostate cancer cells (Bellahcene et al., 1994, 1997, 1998). The BSP expression in primary breast and prostate carcinomas is associated with a poor prognosis and an increased risk to develop bone metastases. Serum BSP was found to be a prognostic marker for the development of bone metastases (Diel et al. 1999). There are antibodies that specifically bind epitopes present in BSP produced in tumor cells, wherein the posttranslational glycosylation of BSP is incomplete in comparison with the posttranslational glycosylation of BSP produced in normal bone cells (Armbruster et al., 2009). In nude rats, incubation of breast cancer cells and anti-BSP antibodies prior to inoculation reduced the osteolytic lesion size. The treatment of bone metastases with an anti-BSP antibody resulted in a significantly smaller lesion size (Bäuerle et al., 2005, 2006). In the present study, 84 patient cases with bone metastases of different primary tumours were investigated by immunohistochemistry in order to assess the level of BSP and to compare two different anti-BSP antibodies. There are 35 cases of breast cancer bone metastases and 8 cases of prostate cancer bone metastases. BSP expression was found in 22, 9 % of all breast cancer bone metastases and 75% of all prostate cancer bone metastases. In nearly all cases a strong staining for BSP was found in stroma, a weak staining for BSP was observed in tumour cells. We compared antibodies against normal BSP with anti-BSP antibodies that bind epitopes that are incomplete in their posttranslational glycosylation. The expression of BSP in tumour cells was exactly the same, the expression of BSP in tumour stroma was different. A stronger staining was found with the antibodies that bind epitopes that are incomplete in their posttranslational glycosylation. In conclusion, these antibodies do not only stain for BSP produced by tumour cells. Both antibodies can be used for the detection of BSP. KW - Knochensialoprotein KW - Knochenmetastase KW - Mammakarzinom KW - bone sialoprotein KW - bone metastases KW - breast cancer Y1 - 2012 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:bvb:20-opus-71642 ER -