Early breast cancer progression involves advancement through specific morphological stages including atypical ductal hyperplasia (ADH), ductal carcinoma in situ (DCIS) and invasive mammary carcinoma ...(IMC), although not necessarily always in a linear fashion. Observational studies have examined genetic, epigenetic and gene expression differences in breast tissues representing these stages of progression, but model systems which would allow for experimental testing of specific factors influencing transition through these stages are scarce. The 21T series cell lines, all originally derived from the same patient with metastatic breast cancer, have been proposed to represent a mammary tumor progression series. We report here that three of the 21T cell lines indeed mimic specific stages of human breast cancer progression (21PT-derived cells, ADH; 21NT-derived cells, DCIS; 21MT-1 cells, IMC) when grown in the mammary fat pad of nude mice, albeit after a year. To develop a more rapid, readily manipulatable in vitro assay for examining the biological differences between these cell lines, we have used a 3D Matrigel system. When the three cell lines were grown in 3D Matrigel, they showed characteristic morphologies, in which quantifiable aspects of stage-specific in vivo behaviors (ie, differences in acinar structure formation, cell polarization, colony morphology, cell proliferation, cell invasion) were recapitulated in a reproducible fashion. Gene expression profiling revealed a characteristic pattern for each of the three cell lines. Interestingly, Wnt pathway alterations are particularly predominant in the early transition from 21PTci (ADH) to 21NTci (DCIS), whereas alterations in expression of genes associated with control of cell motility and invasion phenomena are more prominent in the later transition of 21NTci (DCIS) to 21MT-1 (IMC). This system thus reveals potential therapeutic targets and will provide a means of testing the influences of identified genes on transitions between these stages of pre-malignant to malignant growth.
Metastatic spread, not primary tumor burden, is the leading cause of breast cancer deaths. For patient prognosis to improve, new systemic adjuvant therapies that are capable of effectively inhibiting ...the outgrowth of seeded tumor cells after surgical treatment of the primary breast tumor are needed. To facilitate the preclinical development of such therapies, relevant animal models of breast cancer metastasis that can mimic the postsurgical adjuvant setting are required. Here we developed a preclinical xenograft model of breast cancer metastasis where the primary tumor was removed by surgical resection before systemic adjuvant treatment. We used this model to assess the antimetastatic effect of postsurgical dietary intervention with the soy isoflavone genistein. The anticancer activity of genistein has been established in vitro and in vivo, however, few studies have tested the potential of genistein as an antimetastatic therapy. Using our model, we tested the efficacy of adjuvant treatment with genistein to inhibit the outgrowth of metastases postsurgery. To establish primary tumors, human breast carcinoma cells, MDA-MB-435/HAL, were implanted into the mammary fat pad of female nude mice. Primary tumors were left to grow for 5 weeks before being surgically removed. Mice were then randomized into two diet groups: control soy-free diet versus genistein-supplemented diet. Five weeks later, metastatic burden was assessed. Genistein reduced the percent metastatic burden in the lungs by 10-fold. These results indicate that dietary intervention following cancer surgery can affect the outgrowth of seeded tumor cells. The availability of well-characterized, clinically relevant animal models for studying factors that regulate metastatic outgrowth postsurgery will provide an important tool for developing new systemic adjuvant therapies.
Osteopontin (OPN) has been clinically and experimentally associated with breast cancer metastasis. Proteolytic cleavage of OPN by thrombin has been reported to increase its biologic activity. The ...purpose of this study was to determine if inhibition of thrombin could reduce the malignancy-promoting effects of OPN on breast cancer cell behavior in vitro and in vivo. MDA-MB-468 human breast cancer cells were stably transfected to overexpress OPN (468-OPN) or a control vector (468-CON) and compared for functional differences in malignant/metastatic behavior in response to treatment with the thrombin-specific inhibitor Argatroban. Western blot analysis revealed that both 468-CON and 468-OPN cells produce thrombin and the thrombin-related protein tissue factor, and express very low levels of thrombin receptor (PAR-1). In vitro assays demonstrated that Argatroban treatment (25 μg/ml) of 468-OPN cells resulted in decreased cell growth, colony-forming ability, adhesion, and migration relative to untreated controls (
P
< 0.05), but did not have a significant effect on 468-CON cells. Following mammary fat pad injection, treatment with Argatroban (9 mg/kg/day) increased the in vivo tumor latency of both 468-CON and 468-OPN cells, and reduced primary tumor growth of 468-OPN cells (relative to untreated controls;
P
< 0.05). Furthermore, Argatroban treatment significantly decreased lymphatic metastasis of both 468-CON (
P
< 0.04) and 468-OPN (
P
< 0.01) cells relative to untreated controls. These novel findings indicate that inhibition of thrombin can reduce malignant and metastatic behavior of MDA-MB-468 breast cancer cells using both OPN-dependent and OPN-independent mechanisms, and suggest that thrombin inhibitors such as Argatroban may hold potential as therapeutic agents to combat breast cancer progression.
There is a need for molecular markers that predict biological behavior of adult soft tissue tumors. Elevated levels of osteopontin (OPN) a transformation-linked protein, have been associated with ...poor survival in many cancers. OPN induces cell migration in cancer cells, in part through activation of the hepatocyte growth factor (HGF) receptor (Met) and its signaling pathway. Met expression has been associated with a poor prognosis in some sarcomas. In a series of 15 patients with adult soft tissue tumors, we found that mRNA levels of OPN (p=0.015), Met (p=0.03) and HGF (p
Abstract Background Many sedatives and anxiolytics are used in single dose or chronically to aid sleep. Clinically important sedatives include valerian-hops and antihistamines as they are used over ...the counter and are highly accessible and safe agents. Objectives To evaluate and compare a single dose of chlorpheniramine versus valerian-hops combination in modulating subjective sleep measures in insomniac war refugees. Methods Insomnia among refugees was screened using the Insomnia Severity Index (ISI). Insomniac subjects were randomized to received a single dose valerian-hops (320/80 mg) (n = 65), or chlorpheneramine (4 mg) (n = 50) or placebo (n = 76) two hours prior sleeping. Participants were instructed to complete Leeds Sleep Evaluation Questionnaire (LSEQ), visual analogue scales of anxiety and sedation. Also sleep latency, total hours slept and self-rated improvement were obtained. Results Almost 75% of screened refugees had insomnia. Chlorpheneramine reduced sleep latency and anxiety significantly, however it resulted in poor sleep quality. Valerian-hops group showed marked anxiolysis one hour after dosing, a sleep quality similar to placebo and better than chlorpheneramine, and better alertness compared to placebo. Participants satisfaction was higher with chlorpheneramine and there was no difference in the total hours slept. Discussion Valerian-hops combination may provide better sleep quality than antihistamines.
Osteopontin (OPN) is a malignancy-associated glycoprotein that contributes functionally to tumor aggressiveness. In metastatic breast cancer, we previously demonstrated that elevated OPN in primary ...tumor and blood was associated with poor prognosis.
We measured OPN in plasma by ELISA, and in tumors by immunohistochemistry, in 624 (94%) and 462 (69%), respectively, of 667 postmenopausal women with hormone responsive early breast cancer treated by surgery followed by adjuvant treatment with tamoxifen +/- octreotide in a randomized trial (NCIC CTG MA.14; National Cancer Institute of Canada Clinical Trials Group Mammary.14).
Plasma OPN was measured in 2,540 samples; 688 at baseline and 1,852 collected during follow-up. Mean baseline plasma OPN was 46 ng/ml (range 22.6 to 290) which did not differ from normal levels. Mean percentage OPN tumor cell positivity was 33.9 (95% CI: 30.2 to 37.9). There was no correlation between plasma and tumor OPN values. In multivariate analysis, neither was associated with event-free survival (EFS), relapse-free survival (RFS), overall survival (OS), bone RFS or non-bone RFS. An exploratory analysis in patients with recurrence showed higher mean OPN plasma levels 60.7 ng/ml (23.9 to 543) in the recurrence period compared with baseline levels.
The hypothesis that OPN tumor expression would have independent prognostic value in early breast cancer was not supported by multivariate analysis of this study population. Plasma OPN levels in women with hormone responsive early breast cancer in the MA.14 trial were not elevated and there was no evidence for prognostic value of plasma OPN in this defined group of patients. However, our finding of elevated mean OPN plasma level around the time of recurrence warrants further study.
NCT00002864, http://clinicaltrials.gov/show/NCT00002864.
Although a primary route of breast cancer metastasis is believed to be via lymphatics, the molecular factors involved are poorly understood. We hypothesized that one such factor may be the ...integrin-binding protein osteopontin (OPN), and we investigated this clinically and experimentally. In breast cancer patients undergoing sentinel lymph node biopsy, OPN levels were significantly higher in lymph node metastases than in the primary tumor (
P < 0.001). To test the functional contribution of OPN to lymphatic metastasis and to determine whether the RGD (Arg-Gly-Asp) integrin-binding sequence of OPN is important for this process, we transfected wild-type OPN or mutant OPN (lacking the RGD sequence) into MDA-MB-468 human breast cancer cells.
In vitro, cells overexpressing OPN demonstrated increased anchorage-independent growth in soft agar (
P = 0.001) and increased RGD-dependent adhesion (
P = 0.045). Following mammary fat pad injection of nude mice, cells overexpressing OPN showed increased lymphovascular invasion, lymph node metastases, and lung micrometastases at earlier time points (
P = 0.024). Loss of the RGD region partially abrogated this effect in the lymphatics (
P = 0.038). These novel findings indicate that OPN is a key molecular player involved in lymphatic metastasis of breast cancer, potentially by affecting RGD-mediated adhesive interactions and by enhancing the establishment/persistence of tumor cells in the lymphatics.
Although lymphatic dissemination is a major route for breast cancer metastasis, there has been little work to determine what factors control the ability of tumor cells to survive, establish and show ...progressive growth in a lymph node environment. This information is of particular relevance now, in the era of sentinel lymph node biopsy, where smaller intranodal tumor deposits are being detected earlier in the course of disease, the clinical relevance of which is uncertain. In this study, we compared differentially expressed genes in cell lines of high (468LN) vs. low (468GFP) lymphatic metastatic ability, and related these to clinical literature on genes associated with lymphatic metastatic ability and prognosis, to identify genes of potential clinical relevance. This approach revealed differential expression of a set of genes associated with 'cancer stem cell-like' properties, as well as networks of genes potentially associated with survival and autonomous growth. We explored these differences functionally and found that 468LN cells have a higher proportion of cells with a cancer stem cell-like (CD44+/CD24-) phenotype, have a higher clonogenic potential and a greater ability to survive, establish and grow in a foreign (lymph node and 3D Matrigel) microenvironment, relative to 468GFP cells. Differentially expressed genes which reflect these functions provide candidates for investigation as potential targets for therapy directed against early lymphatic metastasis.
Osteopontin (OPN) is a secreted phosphoprotein that has been associated with malignancy of breast and other cancers. OPN binds to several cell surface integrins including alpha(v)beta(3), ...alpha(v)beta(5), and alpha(v)beta(1). Although the relative contribution of these integrins to breast cancer cell malignancy is uncertain, correlative studies suggest that alpha(v)beta(3) may be particularly associated with increased tumor aggressiveness. Previously, we reported that tumorigenic, nonmetastatic 21NT mammary carcinoma cells respond to OPN through alpha(v)beta(5) and alpha(v)beta(1) but not alpha(v)beta(3). Here, we determined that 21NT cells lack beta(3) expression, and we asked whether expression of alpha(v)beta(3) could enhance the ability of breast cancer cells to respond to the malignancy-promoting effects of OPN both in vitro and in vivo. 21NT cells stably transfected with beta(3) showed significantly increased adhesion, migration, and invasion to OPN in vitro compared with vector control. To determine if beta(3) could also enhance the response of breast epithelial cells to OPN in vivo, cells stably transfected with both beta(3) and OPN (NT/Obeta(3)) were injected into the mammary fat pad of female nude mice and primary tumor growth was assessed relative to controls. Mice injected with NT/Obeta(3) cells demonstrated a significantly increased primary tumor take (75% of mice) compared with controls (0-12.5% of mice) as well as a decreased tumor doubling time and a decreased tumor latency period. These results suggest that increased expression of the alpha(v)beta(3) integrin during breast cancer progression can make tumor cells more responsive to malignancy-promoting ligands such as OPN and result in increased tumor cell aggressiveness.