Bone Morphogenetic Protein 7 in the Development and Treatment of Bone Metastases from Breast Cancer

Bone morphogenetic protein 7 (BMP7) counteracts the physiological epithelial-to-mesenchymal transition (EMT), a process that is indicative of epithelial plasticity. Because EMT is involved in cancer, we investigated whether BMP7 plays a role in breast cancer growth and metastasis. In this study, we show that decreased BMP7 expression in primary breast cancer is significantly associated with the formation of clinically overt bone metastases in patients withz10 years of follow-up. In line with these clinical observations, BMP7 expression is inversely related to tumorigenicity and invasive behavior of human breast cancer cell lines. Moreover, BMP7 decreased the expression of vimentin, a mesenchymal marker associated with invasiveness and poor prognosis, in human MDA-MB-231 (MDA-231)-B/Luc breast cancer cells under basal and transforming growth factor-B (TGF-B)–stimulated conditions. In addition, exogenous addition of BMP7 to TGF-B–stimulated MDA-231 cells inhibited Smad-mediated TGF-B signaling. Furthermore, in a well-established bonemetastasis model using whole-body bioluminescent reporter imaging, stable overexpression of BMP7 in MDA-231 cells inhibited de novo formation and progression of osteolytic bone metastases and, hence, their metastatic capability. In line with these observations, daily i.v. administration of BMP7 (100 Mg/kg/d) significantly inhibited orthotopic and intrabone growth of MDA-231-B/Luc cells in nude mice. Our data suggest that decreased BMP7 expression during carcinogenesis in the human breast contributes to the acquisition of a bone metastatic phenotype. Because exogenous BMP7 can still counteract the breast cancer growth at the primary site and in bone, BMP7 may represent a novel therapeutic molecule for repression of local and bone metastatic growth of breast cancer. [Cancer Res 2007;67(18):8742–51]


Introduction
Approximately 90% of cancer deaths result from the local invasion and distant metastasis of tumor cells (1).Better understanding of the process of metastasis is, therefore, urgently needed.Increased motility and invasiveness of breast cancer cells is reminiscent of the epithelial-to-mesenchymal transition (EMT) that occurs during embryonic development (2,3).This transition to a more mesenchymal, motile cellular phenotype is the result of a complex physiologic process that includes dissolution of adherens junctions, loss of cell polarity, a change to spindle-like cell morphology, cytoskeletal reorganization, increased cell motility, loss of epithelial markers, and induction of mesenchymal marker (2,4).Increased vimentin expression and perturbation of E-cadherinmediated cell adhesion appear as hallmarks of this process (4)(5)(6)(7)(8).However, in organogenesis, 'mesenchymal' cells may possess remarkable plasticity and can eventually regain a fully differentiated epithelial phenotype via a mesenchymal-to-epithelial transition (MET; refs.[9][10][11]. Members of the transforming growth factor-h (TGF-h) superfamily, which include bone morphogenetic proteins (BMP), are involved in the control of many different biological processes, including cell proliferation, differentiation, apoptosis, and regulation of invasiveness (12)(13)(14).In normal and nonmalignant epithelial cells, TGF-h is a potent growth inhibitor (15,16).However, different types of carcinomas often escape this tumor-suppressing activity and become refractile to growth inhibition (15,16).Even more, TGF-h can also potentiate tumorigenesis and contribute to the progression and invasiveness of various carcinomas (8,17,18).Accordingly, it has been shown that a blockade of TGF-h (signaling) inhibits tumor cell viability, migration, and metastasis (19), including the formation of bone metastases (20,21).
In this study, we present a cross-talk between BMP7 and TGF-h signaling in the regulation of EMT in breast cancer and identify BMP7 as a potential therapy for metastatic bone disease.
Putative BMP7 effects on luciferase expression by MDA-231-B/Luc + cells have been tested and excluded (data not shown).
Generation of isogenic BMP7-overexpressing cell lines using targeted integration.MDA-231 cells that display a unique predilection for bone (MDA-231-BO2; ref. 31) were selected to generate a stable cell line that overexpresses BMP7.Stable cell lines were generated using the Flp-In system (Invitrogen) according to the manufacturer's protocol (32).In short, a MDA-231-BO2-Flp-in host cell line (MDA-231-BO2-Frt11) was generated by stable introduction of a single copy of a Flp recombinase target (FRT) site as an integral part of an antibiotic resistancy gene in the genome of these cells.Subsequently, a luciferase-expressing subclone (MDA-231-BO2-Frt11/Luc + ) was generated as described previously (28).This clone was used for the generation of isogenic stable cell lines by transient cotransfection of an FRT-targeting vector and a Flp recombinase expression vector.The FRTtargeting vector was either a pcDNA5/FRT vector (Invitrogen) expressing green fluorescent protein (GFP; control) or BMP7 (target gene) under the control of the cytomegalovirus (CMV) promotor.Due to Flp-mediated recombination at the genomic FRT site, this targeting vector was incorporated in the genome.Simultaneously, a shift in antibiotic resistance was introduced allowing positive selection for integrants in the genomic FRT site only and negative selection for random integrants in one single step (32).This method allows the generation of isogenic stable cell lines, which only differ in sequence inserted in the genomic FRT site, thereby eliminating the need for clonal selection.It is important to note that both the MDA-231-BO2-Frt11 and MDA-231-BO2-Frt11/Luc + cell line were validated for in vivo bone metastasis formation.
Patients.We retrospectively analyzed tumor tissue from 67 primary unilateral nonmetastatic ductal breast carcinomas excised from women treated at Centre Rene ´Huguenin (St.Cloud, France) from 1980 to 1994.The samples were examined histologically for the presence of tumor cells.A tumor sample was considered suitable if the proportion of tumor cells was >70%.Immediately after surgery, the tumor samples were stored in liquid nitrogen until RNA extraction.
Standard prognostic factors are presented in Supplementary Table S1.All patients were treated by hormone therapy only after surgery.The patients had physical examinations and routine chest radiography every 3 months for the first 2 years, followed by annual examination (mammograms).The median follow-up was 11.2 years (range, 1.5-20.3years).Thirty-five patients were without relapse (z10 years of follow-up), 17 patients developed exclusively visceral metastases (liver and/or lung), and 15 patients developed exclusively bone metastases.Immunohistochemical validation was done on fixed, paraffin-embedded tissue sections from primary breast tumor specimens (8 of 67).
ELISA for human BMP7.Levels of BMP7 in conditioned medium were measured with a commercially available specific ELISA kit using sandwich enzyme immunoassay technique (R&D Systems).Cells were routinely cultured for 4 days.
Real-time reverse transcription-PCR.Total RNA was extracted with the RNeasy Midi kit (Qiagen) from in vitro cultured cells at 70% to 80% confluence.Reverse transcription was done with random primers in the presence of RNase inhibitor (Roche Diagnostics).Quantitative real-time reverse transcription-PCR (qPCR) was done using commercially obtained exon-specific primers for BMP7, E-cadherin, vimentin, and h-actin (Applied Biosystems) on an ABI Prism 7700 Sequence Detection System (Applied Biosystems).All experiments were done in duplo on four different samples.
For BMP7 mRNA detection in patients, qPCR (including thermal cycling conditions) was done as described previously (33).Each sample was normalized based on its TATA box-binding protein (TBP) content.Primers used were as follows: BMP7 ATGGCCAACGTGGCAGAGAA ( forward) and CAGCCCAGGTCTCGGAAGCT (reverse) and TBP TGCACAGGAGCCAA-GAGTGAA ( forward) and CACATCACAGCTCCCCACCA (reverse).All qPCR values were normalized using the comparative method of Livak and Schmittgen (34).
Cells grown on chamber slides.MDA-231-B/Luc + cells were seeded at a density of 20,000/cm 2 in DMEM with 0.1% FCII in eight chamber slides (Falcon, Becton Dickinson), and growth factors were added after 18 h.After 30 h, cells were dried for 5 min and fixed with 3.7% paraformaldehyde (pH 6.8; Merck, VWR) in PBS for 10 min and stained for vimentin as described for tissues, with the exception of the antigen retrieval step (see section 'histomorphometry, histochemistry, and immunohistochemistry').Images were acquired using a color charge-coupled device (CCD) camera mounted on a Nikon Eclipse 610 microscope at a 20-fold magnification.Subsequently, cells were scored double blind for positive vimentin staining from four randomly chosen fields by two investigators (J.T.B. and P.G.M.v.O.).
Transient transfections and transcription reporter assays.MDA-231 cells were seeded at a density of 7,500 cells/cm 2 in DMEM with 10% FCII in 24-well plates.On the subsequent day, cells were transiently transfected with 1 Ag of the indicated constructs using Fugene 6 (Roche) transfection reagent following manufacturer's protocol.To correct for transfection efficacy, 100 ng Renilla luciferase (pRL-CMV or pRL-CAGGS, both from Promega) was cotransfected.On day 3, cells were serum starved for 24 h before stimulation with TGF-h and/or BMP7 for a duration of 30 h.On day 5, luciferase activities were quantified using Dual-Luciferase Assay (Promega; ref. 37).Firefly luciferase activity was corrected for Renilla luciferase activity.The experiments were done in 4-fold and repeated at least twice.Values are expressed as mean F SE.
Luciferase reporter gene constructs.For intracellular signaling of TGF-h, the CAGA-luciferase construct, consisting of 12 Smad3/Smad4 binding sequences (CAGA boxes) and the luciferase-coding sequence, was used.The CAGA boxes confer TGF-h stimulation to a heterologous promoter reporter construct, whose activity depends on binding of activated Smad3/Smad4 transcription factor complexes (37).
The BRE-luciferase construct, which is based on the mouse Id1 promoter, was used to study the presence and functionality of BMP receptors (38).
Animals.Female nude mice (BALB/c nu/nu) were purchased from Charles River.Animals were housed in individual ventilated cages under sterile condition, and sterile food and water were provided ad libitum.Animal experiments were approved by the local committee for animal health, ethics and research of Leiden University and carried out in accordance with European Communities Council Directive 86/609/EEC.For surgical and analytical procedures, mice were anesthetized by i.p. injection of a 50 AL 1:1:1 mixture; ketamine HCl (stock solution of 100 mg/mL Nimatek, Vetimex Animal Health B.V.) + xylazine (2% Rompun, Bayer AG) + PBS (pH 6.8).At the end of the experimental period, animals were sacrificed by cervical dislocation.
Animal models.All cells were harvested at 70% to 80% confluence after changing to geneticin-free medium 24 h before inoculation.
For tumor growth in the bone marrow, single-cell suspensions of 2.5 Â 10 5 MDA-231-B/Luc + cells/10 AL PBS were injected into the right tibiae of 6-week-old mice as described previously (28,39).
Three days after intraosseous inoculation of MDA-231-B/Luc + cells, the animals were equally distributed into three experimental groups based on a comparable tumor burden/mouse, as detected by whole-body bioluminescent reporter imaging (BLI).From this time point (day 0) and during a subsequent period of 24 days, all animals received vehicle or rhBMP7 (10 or 100 Ag/kg/d) treatment by tail vein injection.The progression of intraosseous growth was monitored by BLI at days 3, 10, 17, and 24 and by radiography at days 17 and 24 (28,39).
For orthotopic tumor growth, single-cell suspensions of 1.0 Â 10 6 MDA-231-B/Luc + cells/10 AL PBS were inoculated via a 0.5 mL U-100 insulin needle (29G 1/2, BD Micro-Fine, Becton Dickinson) into the mammary fat pads of 7-week-old mice.Animals were equally distributed into two experimental groups based on a comparable tumor burden/mouse, as detected by BLI.From this time point (day 0), all animals were given vehicle or BMP7 (100 Ag/kg/d) treatment by tail vein injection.Subsequently, the progression of orthotopically growing tumors was monitored weekly by BLI (28,39).
After the experimental periods, mice were sacrificed by cervical dislocation.
Mammary fat pads and tibiae with tumors were dissected and processed for further histomorphometrical and immunohistochemical analysis (see below).
Figure 1.BMP7 mRNA expression levels and BMP7 immunolocalization in human primary breast cancer.BMP7 immunolocalization.Top, normal ducts of the breast [pronase (0.1% for 10 min at 37jC; Roche) was used as antigen retrieval step].Immunolocalization of BMP7 in primary breast tumors with low (middle left) and high (middle right ) levels of BMP7 mRNA (0.09 and 16.11, respectively).Rat kidney: medullary rays were used as a positive (bottom left) and glomeruli (as indicated by *) as negative control (bottom right ).Adjacent to the negative glomerulus, convulated tubuli stained positive for BMP7.Bars , 80 Am (top ) and 50 Am (middle and bottom).
Whole-body BLI of isogenic BMP7-and GFP-overexpressing cell lines.In animals that were inoculated with either MDA-231-BO2-Frt11(GFP)/Luc + or MDA-231-BO2-Frt11(BMP7)/Luc + , the luciferase activity was visualized through imaging of whole bodies with an intensified CCD video camera of the in vivo Imaging System (IVIS 100, Xenogen).The animals were anesthetized using the isofluorane anesthesia system (XGI-8, Xenogen) and injected i.p. with 2 mg D-luciferin sodium salt (Synchem OHG) dissolved in PBS.Animals were kept anesthetized, and measurements were done 5 min after the injection of D-luciferin.Bioluminescence imaging was acquired with a 15-cm FOV, a medium binning factor, and exposure times of 10 to 60 s.Imaging data were analyzed by using the program living image (Xenogen).Values are expressed as relative light units (RLU) in photons per seconds.
Radiographical analysis.Radiographic analyses of osteolytic lesions were assessed by radiography (Kodak X-OMAT TL film, Eastman Kodak Co.) using a Hewlett Packard X-ray system Faxitron 43805 and quantified using NIH Image 1.62b7 software as described earlier (39).
Histomorphometry, histochemistry, and immunohistochemistry.After orthotopic tumors and bone metastasis were fixed in 3.7% paraformaldehyde (pH 6.8) in PBS and processed, they were submitted to Goldner staining, staining for tartrate-resistant acid phosphatase (TRAcP), H&E staining, or immunohistochemical staining as described previously (39,40).Histomorphometric measurements of tumor burden were done on central sections through the tumor (largest tumor area).Tumor growth in bone could be readily identified by pancytokeratin staining alone or in combination with H&E staining.Total tumor areas, as an estimate of total tumor burden, was measured by image analysis using NIH Image 1.62b7 image analyses software as described previously (39).Subsequently, a distinction was made between the total tumor burden and the intraosseous and extraosseous tumor burden as described previously (39).
The following rabbit polyclonal antibodies were used at a concentration of 10 Ag/mL: a-human pancytokeratin (DAKO), a-human vimentin (ab7783), a-human BMP7 (2854ab, directed against prodomain of BMP7, obtained from Dr. Vukicevic;refs. 35,41), a-phosphorylated Smad1 (PS1; ref. 42), and normal rabbit IgG (Jackson ImmunoResearch) antibodies as negative control.Goat a-rabbit IgG (DAKO) was used as secondary antibody.For antigen retrieval, slides were treated for 10 min at 37jC with 5 Ag/mL proteinase K (Invitrogen).To quantify PS1 and TRAcP staining, three histological sections per mouse (n = 8) were acquired using a color CCD camera mounted on a Nikon Eclipse 610 microscope at a 20-fold magnification.Subsequently, the number of cells that stained positive was scored single blind by two investigators (G.v.d.P. and P.G.M.v.O.).
BMP7 staining on patient material was done similarly, except that 5% normal goat serum (Jackson ImmunoResearch)/0.5% Boehringer Milk Powder (Boehringer Mannheim)/TTBS was used instead of 0.5% Boehringer Milk Powder/TTBS for incubation and first antibody dilution, and 0.01 mol/L citrate buffer (pH 6.0; 7 min at 98jC) was used as antigen retrieval step, unless stated otherwise.
Statistical analysis.Survival rates were determined using the log-rank test.Because BMP7 mRNA levels in patients did not follow a Gaussian distribution, (a) the mRNA levels in each subgroup of samples were characterized by their median values and ranges, rather than their mean values and coefficients of variation and (b) relationships between the molecular markers and clinical and histological variables were tested using the nonparametric Mann-Whitney U test.Other data are represented as mean F SE.In vivo tumor growth was analyzed by general linear model with repeated measurements using a least significant difference (LSD) post hoc test when applicable.Other statistical evaluations were carried out by ANOVA using a LSD post hoc test when applicable.

Results
BMP7 expression in human primary breast cancer and formation of distant metastasis.BMP7 mRNA expression levels in primary breast tumors developing bone or visceral metastases were not significantly different from breast cancer patients without relapse (Supplementary Table S2, column 2 versus 1), and there was no significant difference observed that patients with primary breast tumors developing bone metastases had lower BMP7 mRNA expression levels (P = 0.13; Supplementary Table S2, column 3 versus 1) than patients without relapse.However, BMP7 mRNA expression levels in primary breast tumors developing bone metastases were significantly lower when compared with primary breast tumors developing visceral (lung and/or liver) metastases (P = 0.027; Supplementary Table S2, column 3 versus 4).
In patient-matched normal ducts of the breast, apical BMP7 staining could be observed (Fig. 1, top).Staining intensity of BMP7 protein in primary breast cancer specimens was in accordance with BMP7 mRNA levels (Fig. 1, middle).Adult kidneys were used as positive (Fig. 1, bottom left) and negative (Fig. 1, bottom right) control.
Tumorigenicity and BMP7 expression in vitro.We investigated whether BMP7 expression in human breast cancer cell lines is associated with tumorigenic and metastatic potential.The six cell lines examined in this study have progressively greater tumorigenic and metastatic potential when arranged in the following order: MCF10A (normal breast epithelial cells), ZR-75-1, T47D, MCF10CA1a, MDA-231, and MDA-231-B/Luc + , where MCF10CA1a and MDA-231 and its derivate MDA-231-B/Luc + are highly tumorigenic and metastatic.This arrangement of the cell lines inversely correlates with the expression of BMP7 (Fig. 2A).E-cadherin/vimentin expression ratios, indicative of epithelial phenotype, are also related to BMP7 expression (Fig. 2A), suggesting that acquisition of an invasive phenotype coincides with decreased BMP7 expression.
Next, we tested whether BMP7 acts on MDA-231 cells to inhibit the acquisition of an invasive, mesenchymal phenotype by antagonizing Smad-dependent TGF-h signaling.
The presence of functionally active TGF-h receptor complexes, particularly ALK5, in MDA-231 cells was shown by the dosedependent activation of the CAGA-luciferase reporter, whose activity depends on activated Smad3/Smad4 transcription factor complexes (Fig. 2D).Addition of BMP7 to TGF-h-stimulated MDA-231 cells significantly inhibited the TGF-h-driven CAGA-luciferase activity (P < 0.001).
It is important to note that BMP7 did not affect proliferation of MDA-231-B/Luc + cells in vitro using different cell culture conditions (1% FCS and 10% FCS; Supplementary Fig. S1).

Cancer Research
Cancer Res 2007; 67: (18).September 15, 2007 bone.Breast cancer growth in bone and the formation of osteolytic lesions was strongly inhibited, particularly in the high-dose BMP7 group (100 Ag/kg/d BMP7; Fig. 4A).Remarkably, mice receiving 100 Ag/kg/d BMP7 had tumors that express higher levels of cytokeratins and lower levels of vimentin when compared with vehicle-treated mice (Fig. 4B).The number of strong cytokeratinpositive cells was increased by 25% on BMP7 treatment.This indicates that BMP7 treatment provokes a more epithelial-like phenotype.
In the vehicle-treated group, the tumor burden increased strongly over time (Fig. 5A).Tumor growth in mice receiving 10 Ag/kg/d BMP7 was not significantly different from vehicletreated animals, whereas 100 Ag/kg/d BMP7 strongly and significantly inhibited tumor progression (P = 0.038; Fig. 5A).This result was confirmed by histomorphometric analysis of total tumor burden (P = 0.049; Fig. 5A).In addition, no significant difference was observed in extraosseous tumor volume on BMP7 treatment (100 Ag/kg/d; P = 0.15; Fig. 5A).Furthermore, radiographic analysis of the tibiae revealed that mice receiving 100 Ag/kg/d BMP7 show significantly smaller bone lesions (P = 0.046), although number of osteoclasts per millimeter bone cortex seemed not to be different at the end of the experiment (P = 0.528; Fig. 5B).Systemic administration of BMP7 for the duration of the experiment can directly act on MDA-231-B/Luc + bone metastatic cells as visualized by significantly enhanced nuclear staining for PS1 when compared with vehicle-treated animals (P = 0.0097; Fig. 5C).
Next, we studied the effects of BMP7 treatment on the growth of MDA-231-B/Luc + cells that were orthotopically implanted into the mammary fat pads of nude mice (Fig. 6A-C).Figure 6B depicts a representative example from both experimental groups (vehicle and 100 Ag/kg/d BMP7) as detected by BLI and histomorphometry.Tumor growth of the orthotopically implanted breast cancer cells in mice receiving 100 Ag/kg/d BMP7 was significantly inhibited versus vehicle-treated animals (P = 0.049; Fig. 6C).

Discussion
Although BMP7 has been proposed as a marker of differentiation in normal and breast cancer cells (43), the role of BMP7 in breast cancer progression has remained largely elusive (43)(44)(45).In this report, novel evidence is provided for a role of BMP7 in breast cancer development and bone metastases.We describe here that BMP7 expression in patients with primary breast tumors exclusively developing bone metastases is significantly lower than in primary breast tumors developing exclusively visceral (lung and/ or liver) metastases.These clinical findings suggest that decreased BMP7 expression may confer a bone metastatic potential to human breast cancer cells.Normal ducts of the breast display strong apical BMP7 protein expression.BMP7 protein expression in patientmatched lymph node metastases was low or absent and, as a consequence, generally lower than in normal ducts and primary breast carcinomas. 9Strikingly, BMP7 seems to be expressed predominantly in tumor cells in the solid tumor area rather than in migratory tumor cells outside this area (43), indicating that low BMP7 expression may support the acquisition of a more migratory invasive phenotype.
It has been well established that the process of EMT provides mechanisms for breast epithelial cells to overcome physical constraints imposed on them by intercellular junctions and adopt a motile phenotype (3,8,46).It is becoming increasingly clear that this local invasive process, representing initial stages of the metastatic cascade during carcinogenesis, is adapted from the remarkable epithelial plasticity (EMT) that occurs during embryonic development and postnatal tissue maintenance (2,47).In many cancers, TGF-h is a protumorigenic factor that stimulates 'oncogenic' EMT (8,17,18).In contrast, BMP7 is a strong inducer of the reverse process (MET) during embryonic development (9)(10)(11)14) and in renal fibroblasts (22).Moreover, BMP7 can inhibit TGF-h-induced fibrosis (25) and counteracts TGF-hinduced EMT in normal renal epithelial cells (24).
We show here that BMP7 mRNA expression is inversely related to tumorigenicity and invasive behavior of human breast cancer cell lines.Functional studies reveal that BMP7 overexpression by breast cancer cells inhibits de novo formation of osteolytic bone metastases and, hence, the metastatic capability of breast cancer cells in our in vivo bone metastasis model.Furthermore, BMP7 overexpression significantly inhibited tumor growth in bone.In keeping with these functional data, daily systemic administration of BMP7 strongly and significantly impairs both the orthotopic and intraosseous growth of human MDA-231-B/Luc + breast cancer cells in nude mice.
Our in vitro studies reveal for the first time that BMP7 is a potent inhibitor of TGF-h-induced EMT in MDA-231 cancer cells.In these cells, BMP7 is able to counteract Smad-dependent TGF-h signaling.These actions of BMP7 may be of critical importance and could explain the observed beneficial effects of experimental BMP7 treatment on orthotopic growth and skeletal metastasis.In this context, it is important to note that inactive TGF-h is concentrated and stored in high amounts in extracellular bone matrix and can be released and activated by osteoclastic resorption.Activated bone matrix-derived TGF-h may act as a paracrine growth factor for neighboring osteolytic cancer cells that may have colonized the bone marrow (21,40,48).Our in vivo data further support this notion because BMP7 antagonizes TGF-h signaling routes in human breast cancer cells that are metastatic to the skeleton.We hypothesize that the activation process of in bone marrow may bear similarities to EMT that occurs at the primary site in various epithelial cancers and during ontogeny (49).
Exogenous BMP7, however, could not restore E-cadherin expression in MDA-231-B/Luc + cells.Recent observations support the notion that hypermethylation of the E-cadherin promoter in MDA-231 cells is involved in E-cadherin expression (6).Apparently, BMP7 cannot overcome this epigenetic effect.
It is important to note that comparable data have been obtained in clinical samples of prostate cancer (50) and uveal melanoma. 10oreover, in human prostate cancer, we observed recently that BMP7 antagonizes TGF-h-induced EMT concomitant with an induction of E-cadherin expression (50).
Collectively, our data suggest that BMP7 regulates epithelial homeostasis in the human mammary gland by preserving the epithelial phenotype.Decreased BMP7 expression during breast cancer progression may, therefore, contribute to the acquisition of a bone metastatic phenotype.Furthermore, exogenous BMP7 can still inhibit breast cancer growth at the primary site and in bone marrow.Therefore, BMP7 may represent a novel therapeutic molecule for repression of local and bone metastatic growth of human breast cancer.

Figure 4
depicts a representative example from each experimental group (vehicle treatment, 10 Ag/kg/d BMP7, or 100 Ag/kg/d BMP7) showing different imaging methods (BLI, radiography, and histology) that have been used to detect MDA-231-B/Luc + breast cancer cells growing in

Figure 5 .
Figure 5. Effects of BMP7 treatment on intrabone tumor growth, osteolysis, and BMP7 signaling of MDA-231-B/Luc + cells.A, tumor burden as measured by BLI (RLU, 10 5 photons/s) and histomorphometric analysis, and the extraosseous tumor volume determined as the percentage of total tumor volume that has started to grow extramedullary.B, radiographical analysis of tumor-induced osteolysis in tibia at the end of the experimental treatment (24 d; left) and number of osteoclasts (OCs) per millimeter bone cortex (right ).C, PS1-positive cells in the tumor at the end of the experimental treatment.The animals were either vehicle or BMP7 treated 6 h before explantation and fixation of the tibiae.N.S., not significant; *, P < 0.05; **, P < 0.01 versus vehicle.Bar, 80 Am.

Figure 6 .
Figure 6.BMP7 treatment and growth of MDA-231-B/Luc + cells in mammary fat pads.A, orthotopically implanted MDA-231-B/Luc + cells have formed a tumor located in the mammary fat pad as shown by H&E staining.The figure on the right is a magnification from the box in the left figure.Lymphocytic infiltrates (arrows ) in tumors could be observed.Bars, 80 Am (left ) and 50 Am (right ).D, mammary duct; T, tumor.B, representative examples for BLI and H&E staining.BLI is quantified in RLU (10 5 photons/s).Bar, 500 Am.C, tumor burden as measured by BLI (RLU, 10 5 photons/s).*, P < 0.05 versus vehicle.