Kathleen M. Woods Ignatoski

Integrin Fibronectin Receptors in Matrix Metalloproteinase-1-Dependent Invasion by Breast Cancer and Mammary Epithelial Cells

Integrins contribute to progression in many cancers, including breast cancer. For example, the interaction of α5β1 with plasma fibronectin causes the constitutive invasiveness of human prostate cancer cells. Inhibition of this process reduces tumorigenesis and prevents metastasis and recurrence. In this study, naturally serum-free basement membranes were used as invasion substrates. Immunoassays were used to compare the roles of α5β1 and α4β1 fibronectin receptors in regulating matrix metalloproteinase (MMP)-1–dependent invasion by human breast cancer and mammary epithelial cells. We found that a peptide consisting of fibronectin PHSRN sequence, Ac-PHSRN-NH2, induces α5β1-mediated invasion of basement membranes in vitro by human breast cancer and mammary epithelial cells. PHSRN-induced invasion requires interstitial collagenase MMP-1 activity and is suppressed by an equimolar concentration of a peptide consisting of the LDV sequence of the fibronectin connecting segment, Ac-LHGPEILDVPST-NH2, in mammary epithelial cells, but not in breast cancer cells. This sequence interacts with α4β1, an integrin that is often down-regulated in breast cancer cells. Immunoblotting shows that the PHSRN peptide stimulates MMP-1 production by serum-free human breast cancer and mammary epithelial cells and that the LDV peptide represses PHSRN-stimulated MMP-1 production only in mammary epithelial cells. Furthermore, PHSRN stimulates MMP-1 activity in breast cancer cells and mammary epithelial cells with a time course that closely parallels invasion induction. Thus, down-regulation of surface α4β1 during oncogenic transformation may be crucial for establishment of the α5β1-induced, MMP-1–dependent invasive phenotype of breast cancer cells.

Constitutive activation of pp125fak in newly isolated human breast cancer cell lines.

Our laboratory has developed twelve human breast cancer cell lines from primary and metastatic sites. In this report we demonstrate that eight of eight breast cancer cell lines examined exhibit constitutively tyrosine phosphorylated and enzymatically active endogenous pp125fak when grown in monolayer. The activation status of pp125fak in breast cancer cells in monolayer is significantly elevated over that exhibited by normal mammary epithelial cells cultured under the same conditions. Constitutive activation of pp125fak is the only characteristic so far studied that all of these breast cancer cell lines have in common. In contrast to HBC cells, tyrosine phosphorylation of pp125fak in HME cells was low or absent in monolayer culture but was induced to high levels by culturing the cells in Matrigel. Thus tyrosine phosphorylation and activation of pp125fak is a regulated process in normal mammary epithelial cells, but is constitutive in breast cancer cells. Finally, analysis of the ability of normal human mammary epithelial cells and breast cancer cell lines to grow under anchorage‐independent conditions indicated that normal human mammary epithelial cells rapidly and uniformly lost viability when not substrate‐attached, whereas all of the breast cancer cell lines survived for a 3‐week culture period. Furthermore, a subset of the breast cancer cell lines grew to form large colonies under anchorage‐independent conditions. Interestingly, pp125fak activation decreased dramatically in HBC cells cultured for two weeks in suspension, suggesting that activation of this kinase is not necessary for long‐term growth under anchorage‐independent conditions. These results suggest that constitutive activation of pp125fak results in preferential survival of human breast cancer cells under anchorage‐independent conditions but that activation of pp125fak is not the sole mediator of anchorage‐independent colony formation.

Loss of Raf Kinase Inhibitory Protein Induces Radioresistance in Prostate Cancer

PURPOSE External beam radiotherapy (RT) is often used in an attempt to cure localized prostate cancer (PCa), but it is only palliative against disseminated disease. Raf kinase inhibitory protein (RKIP) is a metastasis suppressor whose expression is reduced in approximately 50% of localized PCa tissues and is absent in metastases. Chemotherapeutic agents have been shown to induce tumor apoptosis through induction of RKIP expression. Our goal was to test whether RT similarly induces apoptosis through induction of RKIP expression. METHODS AND MATERIALS The C4-2B PCa cell line was engineered to overexpress or underexpress RKIP. The engineered cells were tested for apoptosis in cell culture and tumor regression in mice after RT. RESULTS RT induced both RKIP expression and apoptosis of PCa cells. Overexpression of RKIP sensitized PCa cells to radiation-induced apoptosis. In contrast, short-hairpin targeting of RKIP, so that RT could not induce RKIP expression, protected cells from radiation-induced apoptosis. In a murine model, knockdown of RKIP in PCa cells diminished radiation-induced apoptosis. Molecular concept mapping of genes altered on manipulation of RKIP expression revealed an inverse correlation with the concept of genes altered by RT. CONCLUSION The data presented in this report indicate that the loss of RKIP, as seen in primary PCa tumors and metastases, confers protection against radiation-induced apoptosis. Therefore, it is conceivable that the loss of RKIP confers a growth advantage on PCa cells at distant sites, because the loss of RKIP would decrease apoptosis, favoring proliferation.

Enteral nutrient deprivation in patients leads to a loss of intestinal epithelial barrier function

OBJECTIVE To investigate the effect of nutrient withdrawal on human intestinal epithelial barrier function (EBF). We hypothesized that unfed mucosa results in decreased EBF. This was tested in a series of surgical small intestinal resection specimens. DESIGN Small bowel specifically excluding inflamed tissue, was obtained from pediatric patients (aged 2 days to 19 years) undergoing intestinal resection. EBF was assessed in Ussing chambers for transepithelial resistance (TER) and passage of fluorescein isothiocyanate (FITC)-dextran (4 kD). Tight junction and adherence junction proteins were imaged with immunofluorescence staining. Expression of Toll-like receptors (TLR) and inflammatory cytokines were measured in loop ileostomy takedowns in a second group of patients. RESULTS Because TER increased with patient age (P < .01), results were stratified into infant versus teenage groups. Fed bowel had significantly greater TER versus unfed bowel (P < .05) in both age populations. Loss of EBF was also observed by an increase in FITC-dextran permeation in enteral nutrient-deprived segments (P < .05). Immunofluorescence staining showed marked declines in intensity of ZO-1, occludin, E-cadherin, and claudin-4 in unfed intestinal segments, as well as a loss of structural formation of tight junctions. Analysis of cytokine and TLR expression showed significant increases in tumor necrosis factor (TNF)-α and TLR4 in unfed segments of bowel compared with fed segments from the same individual. CONCLUSION EBF declined in unfed segments of human small bowel. This work represents the first direct examination of EBF from small bowel derived from nutrient-deprived humans and may explain the increased incidence of infectious complications seen in patients not receiving enteral feeds.

p38MAPK induces cell surface α4 integrin downregulation to facilitate erbB-2-mediated invasion

We have previously shown that human breast cancer cells that overexpress erbB-2 are growth factor-independent. In order to test the contribution of erbB-2 to this and other transformed phenotypes without the genetic instability of cancer cells, erbB-2 was overexpressed in human mammary epithelial (HME) cells. ErbB-2-overexpressing HME cells exhibit several transformed phenotypes including cell surface alpha(4) integrin downregulation and invasiveness. We formulated a model for invasiveness that depends on a cells ability to downregulate alpha(4) integrin. As small G-proteins play a role in cytoskeleton remodeling and as this is a likely route for alpha(4) integrin trafficking, we investigated the role of small G-proteins and their downstream signals in mediating alpha(4) integrin downregulation and invasiveness using Rac 1. Dominant-negative Rac 1 blocked erbB-2-mediated invasion and reversed erbB-2-mediated alpha(4) integrin downregulation. In addition, constitutively active Rac 1 induced alpha(4) integrin downregulation and invasiveness. In erbB-2-overexpressing and in constitutively active Rac 1-expressing cells, a p38MAP kinase (p38MAPK) inhibitor blocked invasiveness and reversed alpha(4) integrin downregulation. These data suggest a model in which erbB-2 signaling activates Rac 1, which, in turn, activates p38MAPK, leading to the downregulation of alpha(4) integrin. These data strengthen the model where loss of alpha(4) integrin at the cell surface, leading to reduced alpha(4) integrin binding to plasma fibronectin, plays a role in erbB-2-mediated invasiveness.

EGFR ligand switch in late stage prostate cancer contributes to changes in cell signaling and bone remodeling

Bone metastasis occurs frequently in advanced prostate cancer (PCa) patients; however, it is not known why this happens. The epidermal growth factor receptor (EGFR) ligand EGF is available to early stage PCa; whereas, TGF‐α is available when PCa metastasizes. Since the microenvironment of metastases has been shown to play a role in the survival of the tumor, we examined whether the ligands had effects on cell survival and proliferation in early and late PCa.

Differentiation of human embryonic stem cells to a parathyroid-like phenotype.

Iatrogenic hypoparathyroidism is the most common complication of cervical endocrine surgery. Current management is limited and palliative. As the molecular steps in parathyroid development have been defined, they may be replicable in vitro, with a goal of cellular replacement therapy. Human embryonic stem cell (hESC) lines were investigated as a model for parathyroid regeneration in vitro. BG01 was selected as a model based on expression of genes of interest in embryoid bodies (EBs). Established strategies for mouse embryonic stem cell differentiation into definitive endoderm were modified and extended to maximize the expression of definitive markers of parathyroid development. The optimal approach included the use of Activin A at 100 ng/mL with BG01 cells grown on murine embryonic fibroblasts for 5 days under conditions of increasing serum concentration. After 5 days, the cells were allowed to mature further in tissue culture without murine fibroblasts but with continuous Activin A. Our strategy produced differentiated cell cultures that expressed intermediate markers of endoderm and parathyroid development (CXCR4, EYA1, Six1, and Pax1), as well as markers of committed parathyroid precursors or developed parathyroid glands (glial cell missing-2 [Gcm2], CCL21, calcium sensing receptor [CaSR], and parathyroid hormone [PTH]). We further characterized the cells by testing conditioned medium from various time points in our differentiation scheme for the presence of PTH. We found that by keeping the cells in culture 2 weeks after the withdrawal of Activin A, the cells were able to produce PTH. Further in vivo work will be needed to demonstrate proper functionality of the cells developed in this way.

Change in markers of bone metabolism with chemotherapy for advanced prostate cancer: interleukin-6 response is a potential early indicator of response to therapy.

Men with androgen-independent prostate cancer (AIPC) frequently have bone metastasis. The effects of chemotherapy on markers of bone metabolism have not been well characterized. We conducted a prospective study of patients with AIPC randomized in the first cycle to receive either docetaxel/estramustine or zoledronic acid, a bisphosphonate, to inhibit osteoclastic activity. Here we report the effects of therapy on markers of bone metabolism in these patients following the first cycle of therapy. Serum levels of several indices of bone remodeling were evaluated using commercial enzyme-linked immunosorbent assays. Changes in markers of bone metabolism were compared in patients receiving initial chemotherapy versus bisphosphonate. There was no significant difference in median change in any of the measured bone markers in patients given zoledronic acid when compared to chemotherapy. When comparing responders to nonresponders, overall interleukin-6 (IL-6) decreased by 35% in prostate-specific antigen responders; whereas, IL-6 levels increased by 76% in nonresponders (p = 0.03). Elevated IL-6 levels and reductions in IL-6 levels early in treatment may reflect ultimate clinical response to docetaxel-based regimens.

A quantitative tool to assess degree of sarcopenia objectively in patients with hypercortisolism

BACKGROUND Muscle weakness and wasting are known manifestations of hypercortisolism (HC). Central sarcopenia is a marker of frailty and predicts mortality. The hypothesis of this study is that central sarcopenia can be used as a marker of disease severity and frailty in patients with HC. METHODS Psoas muscle area and psoas muscle density (PMD) were measured at specific points on CT scans of patients with HC using a defined protocol. We compared 24-hour urine cortisol (24HUC) levels by time point to each CT scan. A linear regression model was used to describe the relationship between 24HUC and morphometric variables. A comparison with matched non-HC patients was performed. RESULTS We identified 45 patients (34 female). The median age was 46 years (range, 14-80); the median 24HUC was 211 mg/dL (range, 9.5-39,500); the median PMD was 50.1 24HUC (range, 20-72). An inverse correlation (-0.29) between 24HUC levels and PMD was noted (P = .045). Intra-abdominal fat was also significantly and positively correlated with 24HUC: 27 non-HC patients matched for age, sex, and body-mass index showed higher (58 vs 51) PMD (P = .0127) compared to those with HC. CONCLUSION PMD and intra-abdominal fat are significantly related to 24HUC levels. Morphometric measures of the overall burden of HC may allow more precise assessment of disease severity.

New trends in the treatment of bone metastasis

Bone metastasis is often the penultimate harbinger of death for many cancer patients. Bone metastases are often associated with fractures and severe pain resulting in decreased quality of life. Accordingly, effective therapies to inhibit the development or progression of bone metastases will have important clinical benefits. To achieve this goal understanding the mechanisms through which bone metastases develop and progress may provide targets to inhibit the metastases. In the past few years, there have been advances in both understanding the mechanisms through which bone metastases develop and how they impact bone remodeling. Additionally, gains in promising clinical strategies to target bone metastases have been developed. In this prospectus, we will discuss some of these advances. J. Cell. Biochem. 102: 1095–1102, 2007.