Showing papers in "Cancer Biology & Therapy in 2006"

Identification of fibroblast heterogeneity in the tumor microenvironment

Abstract: Tumors are unorganized organs that contain many different cell types. In the recent years, many studies have reported that primary tumors contain fibroblasts/myofibroblasts (carcinoma-associated fibroblasts), mesenchymal cells such as pericytes/mural cells and other vascular smooth muscle cells. Several different markers are used routinely to identify carcinoma-associated fibroblasts (CAFs) such as alpha-smooth muscle actin (α-SMA), vimentin, S100A4 protein/fibroblast specific protein-1 (FSP1) and type I collagen. Likewise markers such as platelet derived growth factor receptor-beta (PDGFRβ) and NG2 chondroitin sulfate proteoglycan (NG2) are used to identify mesenchymal cells such as pericytes and other vasculature associated smooth muscle cells. It is still unknown whether these markers overlap with each other or identify a unique population of cells within the tumor microenvironment. Therefore in the present study we utilized two different mouse models of cancer, the Rip1Tag2 mice that develop progressi...

The PERK/eIF2alpha/ATF4 module of the UPR in hypoxia resistance and tumor growth.

Abstract: Hypoxia is a dynamic feature of the tumor microenvironment that contributes to cancer progression. In order to adapt and overcome hypoxic stress, tumor cells activate survival pathways that attempt to couple metabolic processes to reduced energy availability due to oxygen deprivation. While the hypoxia-inducible factors HIF-1 and HIF-2 are critical to the cellular response to hypoxia, HIF-independent processes are known to contribute to this adaptation. Recent evidence demonstrates that hypoxia activates components of the Unfolded Protein Response (UPR), a coordinated program that regulates cellular adaptation to increased levels of unfolded proteins in the endoplasmic reticulum (ER). Here we review the evidence implicating the ER kinase PERK, its downstream target translation initiation factor eIF2α, and the subsequent translational upregulation of the transcription factor ATF4 in this response. Not only are cells with compromised PERK-eIF2α-ATF4 signaling more sensitive to hypoxic stress in vitro but th...

Cross-talk of WNT and FGF signaling pathways at GSK3beta to regulate beta-catenin and SNAIL signaling cascades.

Abstract: WNT and FGF signaling pathways cross-talk during a variety of cellular processes, such as human colorectal carcinogenesis, mouse mammary tumor virus (MMTV)-induced carcinogenesis, E2A-Pbx-induced leukemogenesis, early embryogenesis, body-axis formation, limb-bud formation, and neurogenesis Canonical WNT signals are transduced through Frizzled receptor and LRP5/6 coreceptor to downregulate GSK3beta (GSK3B) activity not depending on Ser 9 phosphorylation FGF signals are transduced through FGF receptor to the FRS2-GRB2-GAB1-PI3K-AKT signaling cascade to downregulate GSK3beta activity depending on Ser 9 phosphorylation Because GSK3beta-dependent phosphorylation of beta-catenin and SNAIL leads to FBXW1 (betaTRCP)-mediated ubiquitination and degradation, GSK3beta downregulation results in the stabilization and the nuclear accumulation of beta-catenin and SNAIL Nuclear beta-catenin is complexed with TCF/LEF, Legless (BCL9 or BCL9L) and PYGO (PYGO1 or PYGO2) to activate transcription of CCND1, MYC, FGF18 and FGF20 genes for the cell-fate determination Nuclear SNAIL represses transcription of CDH1 gene, encoding E-cadherin, to induce the epithelial-mesenchymal transition (EMT) Mammary carcinogenesis in MMTV-Wnt1 transgenic mice is accelerated by MMTV infection due to MMTV integration around Fgf3-Fgf4 or Fgf8 loci, and mammary carcinogenesis in MMTV-Fgf3 transgenic mice due to MMTV integration around Wnt1-Wnt10b locus Coactivation of WNT and FGF signaling pathways in tumors leads to more malignant phenotypes Single nucleotide polymorphism (SNP) and copy number polymorphism (CNP) of WNT and FGF signaling molecules could be utilized as screening method of cancer predisposition cDNA-PCR, microarray or ELISA reflecting aberrant activation of WNT and FGF signaling pathways could be developed as novel cancer-related biomarkers for diagnosis, prognosis, and therapy Cocktail therapy using WNT and FGF inhibitors, such as small-molecule compounds and human neutralizing antibodies, should be developed to increase the efficacy of chemotherapy through the inhibition of recurrence by destructing cancer stem cells

Recurrent KRAS Codon 146 Mutations in Human Colorectal Cancer

Abstract: An activating point mutation in codon 12 of the HRAS gene was the first somatic point mutation identified in a human cancer and established the role of somatic mutations as the common driver of oncogenesis. Since then, there have been over 11,000 mutations in the three RAS (HRAS, KRAS and NRAS) genes in codons 12, 13 and 61 reported in the literature. We report here the identification of recurrent somatic missense mutations at alanine 146, a highly conserved residue in the guanine nucleotide binding domain. In two independent series of colorectal cancers from Hong Kong and the United States we detected KRAS A146 mutations in 7/126 and 2/94 cases, respectively, giving a combined frequency of 4%. We also detected KRAS A146 mutations in 2/40 (5%) colorectal cell lines, including the NCI-60 colorectal cancer line HCC2998. Codon 146 mutations thus are likely to make an equal or greater contribution to colorectal cancer than codon 61 mutations (4.2% in our combined series, 1% in the literature). Lung adenocarcinomas and large cell carcinomas did not show codon 146 mutations. We did, however, identify a KRAS A146 mutation in the ML-2 acute myeloid leukemia cell line and an NRAS A146 mutation in the NALM-6 B-cell acute lymphoblastic leukemia line, suggesting that the contribution of codon 146 mutations is not entirely restricted to colorectal cancers or to KRAS.

Glucose regulated proteins in cancer progression, drug resistance and immunotherapy.

Abstract: It has been established that as molecular chaperones, the glucose regulated proteins (GRPs) play an important role in maintaining cellular homeostasis. This conventional concept of GRPs as protein folding chaperones is updated by discoveries that GRPs promote tumor proliferation, metastasis, drug resistance, immunotherapy, which have major clinical implications in the prognosis and treatment of cancer. Further, the localization of GRPs on the cell surface of certain cell types suggests that they serve new functions as cell surface receptors for signaling. These and other new developments on the role of GRP78, GRP94 and GRP170 in cancer progression and therapy are discussed in this review.

Therapeutic targets: MTOR and related pathways.

Abstract: The mammalian target of rapamycin (mTOR), a protein kinase of the phosphatidylinositol 3-kinase (PI3K)/Akt signaling pathway, has a central role in controlling malignant cellular growth As a result, mTOR is viewed as an important target for anticancer drug development Inhibitors of mTOR currently under evaluation in cancer clinical trials are rapamycin (also known as sirolimus, Wyeth) and derivatives temsirolimus (CCI-779, Wyeth), everolimus, (RAD001, Novartis Pharma AG), and AP23573 (Ariad Pharmaceuticals) Preclinical studies suggest that sensitivity to mTOR inhibitors may correlate with activation of the PI3K pathway and/or with aberrant expression of cell cycle regulatory or anti-apoptotic proteins Clinical trial results show that mTOR inhibitors are well tolerated and may induce prolonged stable disease and tumor regressions in cancer patients Future research should evaluate optimal, schedule, patient selection, and combination strategies for this novel class of agents

Identification of overexpression of orphan G protein-coupled receptor GPR49 in human colon and ovarian primary tumors.

Abstract: We used gene expression profiling to probe differences in transcriptional output between 15 panels of colon tumor and matched normal colon tissues. This analysis revealed that GPR49, an orphan G Protein-Coupled Receptor (GPCR) is overexpressed in 66% (10/15) colon tumors compared with normal colon tissues. Subsequent analysis of an additional 39 sets of matched normal and tumor colon tissues by real-time quantitative reverse transcriptase confirmed the upregulation of this receptor. The differential expression of GPR49 between normal and tumor tissue was significant (p > 0.001). GPR49 was upregulated in 25 of 39 (64%) colon primary tumor tissues. In addition to colon tumors, GPR49 was also found to be upregulated in 18 of 33 (53%) ovarian primary tumor tissues analyzed by RT-PCR. Moreover, the expression level of GPR49 in colon and ovarian tumors increased in more advanced tumors suggesting a role for the receptor in tumor progression. The selective overexpression of GPR49 in tumor tissues was further illustrated by specific immunohistochemical staining of colon and ovarian tumor tissues, a finding that correlates with the mRNA expression of the receptor. In addition, expression of GPR49 induced transformation in a ligand-dependent manner and Knockdown of GPR49 mRNA level induced apoptosis in colon tumor cells. These novel findings provide a foundation for further studies and suggest a potential role for GPR49 in tumorigenesis.

Sequence mutations and amplification of PIK3CA and AKT2 genes in purified ovarian serous neoplasms.

Abstract: Sequence mutations and gene amplifications lead to activation of the PIK3CA-AKT2 signaling pathway and have been reported in several types of neoplasms including ovarian cancer. Analysis of such genetic alterations, however, is usually complicated by contamination of normal cell DNA, artifacts associated with formalin-fixed tissues and the sensitivity of the techniques employed. In this study, we analyzed the sequence mutations in PIK3CA and AKT2 genes using purified tumor cells that were isolated from high-grade ovarian serous carcinomas and serous borderline tumors (SBTs) and assessed gene amplification using a dual-color FISH on tissue microarrays. Somatic sequence mutations in the kinase domain of AKT2 were not detected in any of the 65 ovarian tumors analyzed. Mutations of PIK3CA were rare, occurring only in one (2.3%) of 44 high-grade serous carcinomas and in only one (4.8%) of 21 SBTs. Dual-color FISH demonstrated that PIK3CA and AKT2 were not amplified in SBTs but amplified in 13.3% and 18.2% high...

Identification of ADAM10 as a major source of HER2 ectodomain sheddase activity in HER2 overexpressing breast cancer cells.

Abstract: Overexpression and activating mutations of ErbB family members have been implicated in the development and progression of a variety of tumor types. Cleavage of the HER2 receptor by an as yet unidentified ectodomain sheddase has been shown to liberate the HER2 extracellular domain (ECD) leaving a fragment with constitutive kinase activity that can provide ligand-independent growth and survival signals to the cell. This process is clinically relevant since HER2 ECD serum levels in metastatic breast cancer patients are associated with a poorer prognosis. Thus, inhibition of the HER2 sheddase may provide a novel therapeutic approach for breast cancer. We describe the use of transcriptional profiling, pharmacological and in vitro approaches to identify the major source of HER2 sheddase activity. Real-time PCR was used to identify those ADAM family members which were expressed in HER2 shedding cell lines. siRNAs that selectively inhibited ADAM10 expression reduced HER2 shedding. In addition, we profiled over 1000 small molecules for in vitro inhibition of a panel of ADAM and MMP proteins; a positive correlation was observed only between ADAM10 inhibition and reduction of HER2 ECD shedding in a cell based assay. Finally, in vitro studies demonstrate that in combination with low doses of Herceptin, selective ADAM10 inhibitors decrease proliferation in HER2 overexpressing cell lines while inhibitors, that do not inhibit ADAM10, have no impact. These results are consistent with ADAM10 being a major determinant of HER2 shedding, the inhibition of which, may provide a novel therapeutic approach for treating a variety of cancers with active HER2 signaling.

Treatment of high-grade glioma patients with the humanized anti-epidermal growth factor receptor (EGFR) antibody h-R3: report from a phase I/II trial.

Abstract: The poor prognosis of patients with high-grade glioma has led to the search for new therapeutic strategies. More than half of these tumors overexpress Epidermal Growth factor Receptor (EGFR). h-R3 is a humanized monoclonal antibody that recognize the EGFR external domain with high affinity, inhibiting tyrosine kinase activation. In order to evaluate safety, immunogenicity and preliminary efficacy of h-R3 in newly diagnosed high-grade glioma patients, we conducted a Phase I/II trial. Patients received six weekly infusions of h-R3 at the dose of 200 mg in combination with external beam radiotherapy. Twenty-nine patients (mean age, 45 years and median KPS 80) were entered into the study. Tumor types were: glioblastoma (GB) (16 patients), anaplastic astrocytoma (AA) (12 patients) and anaplastic oligodendroglioma (AO) (1 patient). All patients underwent debulking surgery or biopsy before entering the trial. The antibody was very well tolerated. No evidences of grade 3/4 adverse events were detected. None of the patients developed acneiform rash or allergic reactions. One patient developed a positive anti-idiotypic response. Objective response-rate was 37.9% (17.2% complete response, 20.7% partial response) while stable disease occurred in 41.4% of the patients. With a median follow up time of 29 months, the median survival is 22.17 months for all subjects. Median survival time (MST) is 17.47 months for GB, whereas MST is not reached for AA patients.

Probiotics, prebiotics and synbiotics: a role in chemoprevention for colorectal cancer?

Abstract: Colorectal cancer (CRC) is the third most common form of cancer. Current treatments including chemotherapy, radiotherapy and surgery are all associated with a high risk of complications and are not always successful, highlighting the need to develop new treatment strategies. The ingestion of probiotics, prebiotics or combinations of both (synbiotics) represents a novel new therapeutic option. Probiotics and prebiotics act to alter the intestinal microflora by increasing concentrations of beneficial bacteria such as lactobacillus and bifidobacteria, and reducing the levels of pathogenic micro-organisms. This strategy has the potential to inhibit the development and progression of neoplasia via mechanisms including; decreased intestinal inflammation, enhanced immune function and anti-tumorigenic activity, binding to potential food carcinogens including toxins found in meat products, and a reduction in bacterial enzymes which hydrolyse precarcinogenic compounds, such as beta-glucuronidase. There is substantial experimental evidence to suggest that probiotics and prebiotics may be beneficial in the prevention and treatment of colon cancer, however to date there have been few conclusive human trials. Probiotics and prebiotics have the potential to impact significantly on the development, progression and treatment of colorectal cancer and may have a valuable role in cancer prevention.

Mitochondrial chaperones in cancer: from molecular biology to clinical diagnostics.

Abstract: Mitochondria are cell organelles involved in processes of cell life and death, and therefore also in tumoral transformation. Indeed, mitochondria dysfunction is a prominent feature of cancer cells. Mitochondrial proteins and DNA have also been previously studied as markers of tumorigenesis. Heat shock proteins (HSPs) are ubiquitous evolutionary conserved proteins. HSPs enhance their expression in stressed cells and they are involved in gene expression regulation, DNA replication, signal transduction, differentiation, apoptosis, cellular senescence or immortalization. This review reflects recent views on the role of some mitochondrial molecular chaperones as prohibitin, mortalin and HSP60/HSP10 complex and their modifications leading to cell transformation and cancer development. These molecules could represent modern molecular biomarkers for oncological management.

Loss of DNA methylation and histone H4 lysine 20 trimethylation in human breast cancer cells is associated with aberrant expression of DNA methyltransferase 1, Suv4-20h2 histone methyltransferase and methyl-binding proteins.

Abstract: Cancer cells are characterized by epigenetic dysregulation, including global genome hypomethylation, regional hypo- and hypermethylation, altered histone modifications, and disturbed genomic imprinting. Despite the long-established fact that global DNA hypomethylation is a common feature of tumors, very little is known about evolution of this and other epigenetic alterations during tumor progression. The present study was undertaken to characterize the status of epigenetic dysregulation in three human breast cancer cell lines (MCF-7, MDA-MB-231 and MDA-MB-231(S30) that represent different stages of human breast cancer. Our data show that breast cancer cells are characterized by significant alterations in cellular epigenetic status compared to non- tumorigenic MCF-10-2A epithelial breast cells. Interestingly, more malignant MDA-MB- 231 human breast cancer cells have a more prominent loss of DNA methylation accompanied by altered expression of maintenance DNA methyltransferase DNMT1, methyl-binding proteins MeCP2 and MBD2, decreased trimethylation of lysine 20 of histone H4 and hyperacetylation of histone H4 compared to MCF-7 cells. The decrease in trimethylation of lysine 20 of histone H4 in MDA-MB-231 cells was accompanied by diminished expression of Suv4-20h2 histone methyltransferase. The results of present study demonstrate that MDA-MB-231 cells have more extensive epigenenic alterations than MCF-7. These results demonstrate that human breast cancer cells are characterized by prominent epigenetic alterations which are associated with increased malignant properties of cancer cells. Such epigenetic dysregulation may contribute to and may be indicative of the formation of a more aggressive tumor phenotype during tumor progression.

VE-cadherin regulates EphA2 in aggressive melanoma cells through a novel signaling pathway: implications for vasculogenic mimicry.

Abstract: The formation of matrix-rich, vasculogenic-like networks, termed vasculogenic mimicry (VM), is a unique process characteristic of highly aggressive melanoma cells found to express genes previously thought to be exclusively associated with endothelial and epithelial cells. This study contributes new observations demonstrating that VE-cadherin can regulate the expression of EphA2 at the cell membrane by mediating its ability to become phosphorylated through interactions with its membrane bound ligand, ephrin-A1. VE-cadherin and EphA2 were also found to be colocalized in cell-cell adhesion junctions, both in vitro and in vivo. Immunoprecipitation studies revealed that EphA2 and VE-cadherin could interact, directly and/or indirectly, during VM. Furthermore, there was no change in the colocalization of EphA2 and VE-cadherin at cell-cell adhesion sites when EphA2 was phosphorylated on tyrosine residues. Although transient knockout of EphA2 expression did not alter VE-cadherin localization, transient knockout of VE-cadherin expression resulted in the reorganization of EphA2 on the cells' surface, an accumulation of EphA2 in the cytoplasm, and subsequent dephosphorylation of EphA2. Collectively, these results suggest that VE-cadherin and EphA2 act in a coordinated manner as a key regulatory element in the process of melanoma VM and illuminate a novel signaling pathway that could be potentially exploited for therapeutic intervention.

Hedgehog signaling and response to cyclopamine differ in epithelial and stromal cells in benign breast and breast cancer.

Abstract: The hedgehog pathway regulates epithelial-mesenchymal interactions, differentiation, proliferation and survival during development. Stimulation of hedgehog signaling induces carcinogenesis or promotes cell survival in cancers of multiple organs. Using real-time, quantitative PCR, laser capture microdissection, and immunohistochemistry, distinctive patterns of expression of the hedgehog pathway members patched 1 (PTCH1), smoothened, GLI1, GLI2 and the 3 hedgehog ligands were identified for epithelial cells and stromal fibroblasts in benign breast and breast cancer. Hedgehog ligands were expressed at higher levels in some cancer epithelial cell lines compared to noncancerous epithelial cells. Correspondingly, expression of GLI1, a transcription factor and transcriptional product of hedgehog signaling, was increased 8-fold in cancer epithelial cell lines; however, PTCH1, also a transcriptional target of hedgehog signaling in many cell types, was not increased. GLI1 protein and mRNA, and PTCH1 and sonic hedgehog (SHH) proteins were elevated in 3 of 10 breast cancers; however, PTCH1 transcripts were not consistently increased. Hedgehog-mediated transcription, as indicated by a reporter of GLI-dependent promoter activity and by expression of GLI1 transcripts, was reduced by the hedgehog pathway inhibitor cyclopamine in both MDA-MB-435 cancer epithelial cells and MCF10AT epithelial cells, a cell line derived from benign breast. However, cyclopamine reduced viability of cancer epithelial cell lines, including MDA-MB-435, but did not specifically affect fibroblasts or epithelial cells from benign breast, including MCF10AT. Treatment with sonic hedgehog ligand diminished the cyclopamine-induced reduction in GLI-dependent promoter activity in MCF10AT and MDA-MB-435 and viability of MDA-MB-435. These results demonstrate modulation of GLI-mediated transcription in both cancer and benign-derived epithelial cells by cyclopamine and sonic hedgehog, and further suggest that hedgehog signaling contributes to the survival of only the cancer epithelial cells. Determination as to whether the increase in GLI1 and SHH expression in breast cancer indicates a significant increase in hedgehog signaling will require further evaluation.

Phase I clinical trial of oral 2-methoxyestradiol, an antiangiogenic and apoptotic agent, in patients with solid tumors.

Abstract: Purpose: To determine the maximum-tolerated dose (MTD) and toxicity profile of the novel anticancer agent, 2-methoxyestradiol (2ME2) administered orally, in patients with solid tumors. Materials and methods: Twenty patients with refractory solid tumors were enrolled. 2ME2 was given orally starting at 400 mg bid with dose escalation until 3000 mg bid. Tumor biopsies were taken before and after starting the drug to assess for microvessel density by CD 31 and cell proliferation by Ki67 immunohistochemistry. Serial plasma samples collected up to 50 hours after first single oral dose for characterization of pharmacokinetics, were analyzed using liquid chromatography tandem mass-spectrometry. Results: Eleven men and nine women received 2ME2 at dose levels of 400 mg bid (n = 3), 800 mg bid (n = 3), 1600 mg bid (n = 6), 2200 mg bid (n = 5) and 3000 mg bid (n = 3). There were no dose limiting toxicities, therefore the MTD was not defined. There was one episode of grade 4 angioedema in the 1600 mg bid dose level 38 days into 2ME2 treatment. Other toxicities were mild to moderate. A patient with clear cell carcinoma of the ovary had a partial response at 1600 mg bid dose level lasting over three years. Conclusion: MTD for 2ME2 was not reached at dose of 3000 mg bid. The trial was closed due to extremely low plasma concentrations of 2ME2 relative to the doses administered. 2ME2 treatment had no effect on microvessel density (CD31 immunostaining) and cell proliferation (Ki-67 immunostaining). A new formulation of 2ME2 with improved bioavailability is currently being developed.

Translational control of gene expression during hypoxia.

Abstract: Poor oxygenation is a unique and prevalent feature of solid tumors associated with poor patient prognosis. In part, this is caused by a series of adaptive cellular responses that together have a large impact on gene expression and cell phenotype. HIF plays a key role in this response by activating a transcriptional program that stimulates genes involved in angiogenesis, cell metabolism, cell survival and cell invasion. Recently, hypoxia has also been shown to suppress protein synthesis through the regulation of the initiation step of mRNA translation. This appears to be a common feature of the cell in response to hypoxia and is mediated by two distinct pathways. The first occurs rapidly, is transient, and is associated with activation of the unfolded protein response (UPR) that occurs in response to endoplasmic reticulum (ER) stress. Translation inhibition during this initial phase is due to phosphorylation of eukaryotic initiation factor 2alpha (eIF2alpha) in a PERK dependent manner. Although this effect is transient, overall levels of translation remain low during hypoxia due to inhibition of a second eukaryotic initiation complex, eIF4F. This second mechanism is multi-factorial, but due at least in part to inhibition of the mTOR kinase. Although each of these pathways leads to a general inhibition in translation, the consequence at the individual gene level is highly variable. This is due to sequences in the 5' and 3' untranslated regions (UTRs) of mRNA that confer their ability to maintain, or even increase, translation efficiency in spite of the overall inhibition. Consequently, regulation of mRNA translation appears to be an important mediator of gene expression during hypoxia.

Targeting XBP-1 as a novel anti-cancer strategy

Abstract: The survival and growth of tumor cells within the microenvironment of a solid tumor necessitates the adaptation of these cells to ER stress. Hypoxia, in the context of the tumor microenvironment, is a critical ER stress that activates the unfolded protein response (UPR). This review focuses on the role of the IRE1-XBP1 branch of the UPR and its role in mediating cell survival and tumor growth. Inhibition of this pathway will be discussed as a therapeutic strategy.

Reversal of MDR1/P-glycoprotein-mediated multidrug resistance by vector-based RNA interference in vitro and in vivo

Abstract: Overexpression of P-glycoprotein (P-gp) encoded by MDR1 gene in cancer cells results in multidrug resistance (MDR) to structurally and mechanistically different chemotherapeutic drugs, which is a major cause for cancer chemotherapy failures to cancer patients. Recently, there were several reports showing that expression of siRNAs targeting MDR1 gene is able to reverse the P-gp mediated MDR, however, the in vivo reversal effects for MDR have still not been identified. We developed a novel MDR reversal system using RNA interference technique in human epidermoid carcinoma KBv200 cells. The stably expressing MDR1 shRNA cells (KBv200/MDR1sh) were established with transfection of vector pEGFPC2-H1-MDR1shDNA containing MDR1-V siRNA expression cassette, and we found that more than 90% of MDR1 mRNA and P-gp were reduced. KBv200/MDR1sh cells simultaneously showed stably expressing EGFP and kept low MDR1 expression beyond ten passages. Compared KBv200/MDR1sh cells with KBv200 cells, resistance to vincristine and doxorubicin decreased from 62.4-fold to 10.5-fold and from 74.5-fold to 9.5-fold respectively, and intracellular doxorubicin accumulation enhanced from 0.30 +/- 0.08 nmoles/10(6) cells to 0.86 +/- 0.16 nmoles/10(6) cells, and the fluorescence intensity of intracellular Rhodamine 123 accumulation increased from 3.58 +/- 1.63/10(6) cells to 13.96 +/- 3.07/10(6) cells. In the nude mice xenografts, vincristine (0.2 mg/kg of body weight) inhibited the growth of KBv200/MDR1sh solid tumors by 42.0%, but the same dose of vincristine didn't inhibit the growth of KBv200 solid tumors significantly. These results suggest that administration of RNAi targeted MDR1 gene can effectively reverse MDR both in vitro and in vivo models.

Differentiation of normal skin and melanoma using high resolution hyperspectral imaging.

Abstract: We investigated the use of high resolution hyperspectral imaging microscopy to detect abnormalities in skin tissue using hematoxylin eosin stained preparations of normal and abnormal skin, benign nevi and melanomas. A goal of this study was to provide objective data that could be utilized by any researcher; and form the beginnings of a reference spectral data base. All spectral characterizations were acquired in percent transmission, and absorption, with contiguous wavelength acquisition between 400 and 800 nm; and a spectral resolution of approximately 1 nm. Biopsy sections were characterized with varying sample thickness, staining and magnification in order to determine their impact on spectral characterizations. Spectra were classified using spectral waveform cross correlation analysis, an algorithm that is linearity invariant. Classified spectra were incorporated into spectral libraries; and all spectra acquired from the field of view were correlated with library spectra to a quantified, user determined, confidence threshold (minimum correlation coefficient). The results revealed that all skin conditions in our initial data sets could be objectively differentiated providing that staining and section thickness was controlled. We also demonstrated that it is likely that a reference spectral library database could be created to include bioinformatics and cluster analysis. This would assist multiple laboratories to participate in the input and retrieval of target spectral information.

What are caspases 3 and 7 doing upstream of the mitochondria

Abstract: Apoptosis is a cell suicide program that is initiated after cells are exposed to cytotoxic stresses including UV, IR irradiation, chemotherapeutic drugs, hypoxia, serum deprivation and TRAIL. Caspases are the central components of this process. In mammals, caspases involved in apoptotic responses are classified into two groups according to their function and structure. The first group is termed initiator caspases (caspase-2, 8, 9, 10) that contain N-terminal adapter domains which allow for auto-cleavage and activation of downstream caspases. The second group is termed effector or executioner caspases (caspase-3, 6, 7) that lack N-terminal adapter domains and are cleaved and activated by initiator caspases. Lakhani et al., (Science 2006, 311:847-51) have reported that caspase-3 and -7 regulate mitochondorial events in the apoptotic pathway. In this journal club, we summarize the results of the article and include some open questions left in the study.

Circulating cell-free DNA: a novel biomarker for response to therapy in ovarian carcinoma.

Abstract: Introduction: Cell-free DNA (CFDNA) is a reflection of both normal and tumor-derived DNA released into the circulation through cellular necrosis and apoptosis. We sought to determine whether tumor-specific plasma DNA could be used as a biomarker for tumor burden and response to therapy in an orthotopic ovarian cancer model. Methods: Female nude mice injected intraperitoneally with HeyA8 ovarian cancer cells were treated with either docetaxel alone or in combination with anti-angiogenic agents (AEE788 -- dual VEGFR and EGFR antagonist or EA5 – monoclonal antibody against ephrin A2). Following DNA extraction from plasma, quantification of tumor-specific DNA was performed by real-time PCR using human specific beta-actin primers. The number of genome equivalents (GE/ml) were determined from a standard curve. Apoptosis was assessed by TUNEL staining of treated tumors. Results: The levels of tumor-specific DNA in plasma increased progressively with increasing tumor burden (R2=0.8, p

Intraperitoneal delivery of liposomal siRNA for therapy of advanced ovarian cancer

Abstract: PURPOSE. Intravenous (IV) delivery of siRNA incorporated into neutral liposomes allows efficient intravenous delivery to tumor tissue, and has therapeutic efficacy in pre-clinical proof-of-concept studies using EphA2-targeting siRNA. We sought to determine whether intraperitoneal (IP) delivery of these siRNA complexes was as effective at delivery and therapy as intravenous delivery. EXPERIMENTAL DESIGN. SiRNA was incorporated into the neutral liposome 1,2-dioleoyl-sn-glycero-3-phosphatidylcholine (DOPC). Alexa555-siRNA-DOPC was injected IP into nude mice bearing established ovarian tumors, and organs were collected for microscopic fluorescent examination. Subsequently, therapeutic efficacy of the IP versus IV routes was directly compared. RESULTS. Alexa555-siRNA in DOPC liposomes injected IP was diffusely distributed into intraperitoneal ovarian tumors. Delivery was also seen deeply into the liver and kidney parenchyma, suggesting that the predominant means of distribution was through the vasculature, rat...

Nicotinic receptors mediate tumorigenic action of tobacco-derived nitrosamines on immortalized oral epithelial cells.

Abstract: Frequent users of smokeless tobacco (ST) have an increased risk for developing oral cancer. Nicotine and its derivatives may contribute to tumorigenesis through stimulation of nicotinic acetylcholine receptors (nAChRs) in target cells. Emerging evidence indicates that nAChRs can be stimulated by the nicotine-derived nitrosamines 4-(methylnitrosamino)-1-(3-pyridyl)-1-butanone (NNK) and N'-nitrosonornicotine (NNN) that can induce oral cavity tumors in laboratory animals. This study was designed to elucidate the receptor-mediated mechanisms of the initiation and progression of NNK-, and NNN-induced oral cancers. We used Het-1A cells that were found to express alpha3, alpha5, alpha7, alpha9, beta2 and beta4 nAChR subunits. Both NNK and NNN competed with nicotinic radioligands for binding to Het-1A cells. NNK showed a higher than NNN affinity to the [3H]nicotine-labeled binding sites, and NNN-to the [3H]epibatidine-sensitive nAChRs. NNK and NNN increased proliferative potential of Het-1A cells and produced an anti-apoptotic effect, which was alleviated by antagonists. alpha-Bungarotoxin was most effective against NNK and mecamylamine against NNN. Treatment of Het-1A cells with either NNK or NNN led to acquisition of capability of anchorage independent growth and ability to produce tumors in nude mice, both of which can be by inhibited by antagonists. To elucidate the signaling mechanisms, we studied transcription of the genes encoding the cell cycle, apoptosis and signal transduction regulators at both the mRNA and protein levels. The Het-1A cells stimulated with nitrosamines showed multifold increases of the mRNA transcripts encoding PCNA and Bcl-2, and upregulated expression of the transcription factors GATA3, nuclear factor-kappaB, and STAT-1. The STAT-1 protein-binding activity induced by NNK and NNN correlated with elevated gene expression. The obtained results establish the role of specific nAChR subtypes in tobacco-related carcinogenesis and open a novel avenue for oral cancer chemoprevention.

Proteasome inhibitor induces apoptosis through induction of endoplasmic reticulum stress.

Abstract: The 26S proteasome is a large multi-subunit protein complex found in the cytoplasm and nucleus of mammalian cells which plays a critical role in intracellular proteolysis. It has been found that the 26S proteasome degrades multiple important substrates which are associated with tumor growth and development. Emerging evidence demonstrates that proteasome inhibition is an innovative and effective approach for treating some human cancers. PS-341 (also known as Velcade or Bortezomib), a specific inhibitor of the 26S proteasome, has been approved for treating multiple myeloma by the FDA. PS-341 mainly exhibits its anti-cancer effect by inducing apoptosis, and has been found to affect several pro- and anti-apoptotic pathways. Activation of the transcription factor nuclear factor kappa B (NF-kappaB), a key survival factor, is dependent on the 26S proteasome. The inhibition of NF-kappaB by PS-341 has been found to induce apoptosis in several human cancer cells and is considered to be one of the primary targets of the PS-341 anti-tumor effect. More recently, studies have suggested that, in addition to the inhibition of pro-survivial NF-kappaB, PS-341 may induce apoptosis by stimulating pro-apoptotic endoplasmic reticulum stress through proteasome inhibition. In this review, we will mainly discuss recent progress on the elucidation of the molecular mechanism of PS-341-mediated apoptosis.

Resistant starch prevents colonic DNA damage induced by high dietary cooked red meat or casein in rats

Abstract: In a previous study we have shown that high levels of dietary protein (as casein) result in increased levels of colonic DNA damage, measured by the comet assay, and thinning of the colonic mucus layer in rats when dietary resistant starch (RS) is negligible. Feeding RS abolishes these effects. This study aimed to establish whether a diet high in protein as cooked red meat would have similar effects and whether RS was protective. Rats were fed a diet containing 15% or 25% casein or 25% cooked lean red beef, each with or without the addition of 48% high amylose maize starch (a rich source of RS) for four weeks. As expected, high dietary casein caused a 2-fold increase in colonic DNA damage compared with a low casein diet and reduced the thickness of the colonic mucus layer by 41%. High levels of cooked meat caused 26% greater DNA damage than the high casein diet but reduced mucus thickness to a similar degree to casein. Addition of RS to the diet abolished the increase in DNA damage and the loss of colonic mucus thickness induced by either high protein diet. Cecal and fecal short chain fatty acid pools were also increased by inclusion of RS in the diet. Because DNA damage is an early step in the initiation of cancer, these findings suggest that increased DNA damage due to high dietary protein as cooked red meat or casein could increase colorectal cancer risk but inclusion of resistant starch in the diet could significantly reduce that risk.

A phase II trial of perifosine, an oral alkylphospholipid, in recurrent or metastatic head and neck cancer

Abstract: Background Novel, effective therapies are warranted in the management of recurrent or metastatic squamous cell carcinoma of the head and neck (SCCHN). Perifosine is an oral alkylphospholipid that inhibits AKT phosphorylation and has shown preclinical antitumor activity in head and neck cancer cell lines and xenografts. Patients and methods We conducted a phase II trial of perifosine in patients with incurable, recurrent or metastatic SCCHN. Previous therapy for recurrent or metastatic disease was limited to no more than one prior chemotherapy and one prior targeted/biologic agent regimen. Patients had to have measurable disease, Eastern Cooperative Oncology Group performance status 0-2, and adequate laboratory parameters. Perifosine was given as a loading dose of 150 mg every 6 hours x 6 doses orally in the first two days, with antiemetic prophylaxis, followed by 100 mg/day orally without interruption. Administration via gastrostomy tube was allowed. Tumor response was assessed every two cycles (eight weeks). Biomarkers in pathways potentially affected by perifosine, including AKT, P-AKT, P38, p53 and p21 were measured on tumor tissue by immunohistochemistry by manual and automated methods. Results Nineteen patients were enrolled. No objective responses were observed. One patient had stable disease as best response and 18 patients progressed at first evaluation. The median overall survival time was 5.5 months and the median progression-free survival time was 1.7 months. The most frequent toxicities were gastrointestinal (constipation, nausea, vomiting) and fatigue. One patient developed grade 4 anorexia. Although the sample size was small, a significant correlation was detected between high expression of P38 and AKT in baseline tumor tissue and better survival. Conclusions Perifosine in the doses and schedule used lacks single-agent activity in SCCHN. Our data do not justify further investigation of perifosine as a single agent in SCCHN.

Dexamethasone decreases xenograft response to Paclitaxel through inhibition of tumor cell apoptosis.

Abstract: Glucocorticoid receptor (GR) activation has recently been implicated in the initiation of anti-apoptotic signaling pathways in epithelial cell lines grown in culture. However, the evidence that GR-mediated inhibition of tumor cell apoptosis is the mechanism that diminishes chemotherapy effectiveness in vivo is limited. We therefore initiated a breast cancer xenograft study to examine whether or not pretreatment with glucocorticoids (GCs) decreases tumor response to chemotherapy by inhibiting tumor cell apoptosis. Here we report a significant decrease in paclitaxel-induced apoptosis in xenografts from mice pretreated with dexamethasone (Dex). A significant difference in apoptosis in xenografts from Dex/paclitaxel versus paclitaxel treated animals was seen eight days following initiation of chemotherapy. Nine days later, mice treated with Dex/paclitaxel had significantly larger tumors compared with those that received paclitaxel alone (p = 0.032). Dex pretreatment did not significantly affect tumor cell proliferation rates. Taken together, these results demonstrate that systemic Dex administration results in significantly reduced breast cancer xenograft apoptosis in the context of chemotherapy treatment. We also found that systemic Dex treatment results in upregulation of the anti-apoptotic gene MKP-1 and downregulation of pro-apoptotic Bid and TRAIL genes in tumor cells six hours following Dex treatment. These in vivo gene expression changes correlated with significant inhibition of chemotherapy-induced apoptosis. Interestingly, the decreased chemotherapeutic response of Dex-pretreated tumors persisted for several weeks following treatment. These data suggest that GR-mediated transcriptional regulation of pro- and anti-apoptotic genes contributes to the mechanism through which GCs decrease paclitaxel-induced apoptosis.

Hedgehog signaling in human hepatocellular carcinoma.

Abstract: Hepatocellular carcinoma (HCC) is the fourth most common malignancy and one of the leading causes of death world wide. Signaling pathways important for tumor initiation and progression in HCC are poorly understood. Hedgehog signaling (Hh) has been implicated in multiple events during development and has also been proposed to play important roles in several tumor types. However, it remains unclear whether this pathway is activated in HCC. Here, we report the detection of transcripts for hedgehog pathway signaling molecules in both HCC cell lines and tumor samples. Quantitative real-time RT-PCR also revealed the decreased expression of Hip1 and increased expression of Gli1 and smo in HCC samples compared with nontumor liver tissues. Blocking the hedgehog pathway with cyclopamine inhibited proliferation, induced apoptosis and repressed c-Myc and cyclin D expression in a subset of HCC cell lines. The study therefore, for the first time, provides evidence that hedgehog signaling may be activated in some HCC tumors. The results also indicate that the hedgehog pathway may be a new candidate for therapeutic targeting in HCC.

Epigenetic suppression of secreted frizzled related protein 1 (SFRP1) expression in human breast cancer.

Abstract: Expression of Secreted frizzled related protein 1 (SFRP1), a recently identified tumor suppressor gene encoding a WNT signaling antagonist, has been found to be frequently down-regulated in breast cancer and is associated with disease progression and poor prognosis. Here, we investigated the role of epigenetic silencing of SFRP1 in breast cancer cell lines and primary breast tumors. Through analyses by methylation-specific PCR and bisulfite sequencing, promoter methylation of SFRP1 was detected in 88% (7/8) of breast cancer cell lines, 17% (1/6) of grade 1 of ductal carcinoma in situ (DCIS), 69% (9/13) of grade 2 and 3 of DCIS, 68% (19/28) of invasive ductal carcinomas (IDC) and 33% (6/18) of lobular carcinomas but not in any (0/14) of normal mammoplasty specimens and mammary epithelial organoids examined. Real-time RT-PCR studies indicated that loss or downregulation of SFRP1 expression in tumors is frequently associated with promoter hypermethylation. In addition, breast cancer cell lines with SFRP1 promoter hypermethylation reexpressed SFRP1 mRNA after treatment with 5-azaC, implying that DNA methylation is the predominant epigenetic mechanism for SFRP1 gene silencing. These findings suggest that frequent downregulation of SFRP1 expression in breast cancer can be attributed, in large part, to aberrant promoter hypermethylation in conjunction with or without histone deacetylation. Based on the frequency of tumor-specific hypermethylation in this gene, SFRP1 could provide a valuable marker for breast cancer.