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1.
Toxicol Appl Pharmacol ; 450: 116171, 2022 09 01.
Article in English | MEDLINE | ID: mdl-35878797

ABSTRACT

Resistance to antitumor treatments is one of the most important problems faced by clinicians in the management of colorectal cancer (CRC) patients. Cancer-Associated Fibroblasts (CAFs) are the main producers and remodelers of the extracellular matrix (ECM), which is directly involved in drug resistance mechanisms. Primary Normal Fibroblasts (NFs) and CAFs and cell lines (fibroblasts and tumor cells), were used to generate ECM and to identify its role in the oxaliplatin and cetuximab chemoresistance processes of CRC cells mediated by SNAI1-expressing fibroblasts. Matrices generated by Snai1 KO MEFs (Knockout Mouse Embryonic Fibroblasts) confer less resistance on oxaliplatin and cetuximab than wild-type MEF-derived matrices. Similarly, matrices derived from CAFs cause greater survival of colorectal cancer cells than NF-derived matrices, in a similar way to Snai1 expression levels. In addition, Snail1 expression in fibroblasts regulates drug resistance and metabolism gene expression in tumor cells mediated by ECM. Finally, a series of 531 patients (TCGA) with CRC was used to assess the role of SNAI1 expression in patients' prognosis indicating an association between tumor SNAI1 expression and overall survival in colon cancer patients but not in rectal cancer patients. SNAI1 expression in CRC cancer patients, together with in vitro experimentation, suggests the possible use of SNAI1 expression in tumor-associated fibroblasts as a predictive biomarker of response to oxaliplatin and cetuximab treatments in patients with CRC.


Subject(s)
Colorectal Neoplasms , Fibroblasts , Animals , Cell Line, Tumor , Cetuximab/metabolism , Cetuximab/pharmacology , Cetuximab/therapeutic use , Colorectal Neoplasms/drug therapy , Colorectal Neoplasms/genetics , Colorectal Neoplasms/metabolism , Drug Resistance , Extracellular Matrix/metabolism , Fibroblasts/metabolism , Mice , Mice, Knockout , Oxaliplatin/metabolism , Oxaliplatin/pharmacology , Oxaliplatin/therapeutic use
2.
Oncogene ; 35(40): 5224-5236, 2016 10 06.
Article in English | MEDLINE | ID: mdl-26973246

ABSTRACT

The transcription factor Twist1 is involved in the epithelial-mesenchymal transition and contributes to cancer metastasis through mostly unknown mechanisms. In colorectal cancer, Twist1 expression is mainly restricted to the tumor stroma. We found that human fibroblast cell lines stably transfected with Twist1 acquired characteristics of activated cancer-associated fibroblasts (CAFs), such as hyperproliferation, an increased ability to migrate and an alignment of the actin cytoskeleton. Further, Twist1-activated fibroblasts promoted increased matrix stiffness. Using quantitative proteomics, we identified palladin and collagen α1(VI) as two major mediators of the Twist1 effects in fibroblast cell lines. Co-immunoprecipitation studies indicated that palladin and Twist1 interact within the nucleus, suggesting that palladin could act as a transcription regulator. Palladin was found to be more relevant for the cellular biomechanical properties, orientation and polarity, and collagen α1(VI) for the migration and invasion capacity, of Twist1-activated fibroblasts. Both palladin and collagen α1(VI) were observed to be overexpressed in colorectal CAFs and to be associated with poor colorectal cancer patient survival and relapse prediction. Our results demonstrate that Twist1-expressing fibroblasts mimic the properties of CAFs present at the tumor invasive front, which likely explains the prometastatic activities of Twist1. Twist1 appears to require both palladin and collagen α1(VI) as downstream effectors for its prometastatic effects, which could be future therapeutic targets in cancer metastasis.


Subject(s)
Collagen Type VI/genetics , Colorectal Neoplasms/genetics , Cytoskeletal Proteins/genetics , Nuclear Proteins/genetics , Phosphoproteins/genetics , Twist-Related Protein 1/genetics , Cancer-Associated Fibroblasts/metabolism , Cancer-Associated Fibroblasts/pathology , Cell Line, Tumor , Cell Movement/genetics , Colorectal Neoplasms/pathology , Epithelial-Mesenchymal Transition/genetics , Female , Gene Expression Regulation, Neoplastic , Humans , Kaplan-Meier Estimate , Male , Neoplasm Invasiveness/genetics , Neoplasm Invasiveness/pathology , Neoplasm Metastasis , Nuclear Proteins/metabolism , Transcriptional Activation/genetics , Twist-Related Protein 1/metabolism
4.
Oncogene ; 29(34): 4800-13, 2010 Aug 26.
Article in English | MEDLINE | ID: mdl-20543868

ABSTRACT

SPROUTY-2 (SPRY2) regulates receptor tyrosine kinase signalling and therefore cell growth and differentiation. In this study, we show that SPRY2 expression in colon cancer cells is inhibited by the active vitamin D metabolite 1alpha,25-dihydroxyvitamin D(3) (1,25(OH)(2)D(3)) through E-cadherin-dependent and -independent mechanisms. In turn, SPRY2 represses both basal and 1,25(OH)(2)D(3)-induced E-cadherin expression. In line with this, SPRY2 induces ZEB1 RNA and protein, but not that of other epithelial-to-mesenchymal transition inducers that repress the CDH1/E-cadherin promoter. Consistently, SPRY2 and E-cadherin protein levels inversely correlate in colon cancer cell lines and xenografted tumours. Moreover, SPRY2 knockdown by small hairpin RNA increases CDH1/E-cadherin expression and, reciprocally, CDH1/E-cadherin knockdown increases that of SPRY2. In colon cancer patients, SPRY2 is upregulated in undifferentiated high-grade tumours and at the invasive front of low-grade carcinomas. Quantification of protein expression in 34 tumours confirmed an inverse correlation between SPRY2 and E-cadherin. Our data demonstrate a tumourigenic action of SPRY2 that is based on the repression of E-cadherin, probably by the induction of ZEB1, and a reciprocal regulation of SPRY2 and E-cadherin that dictates cell phenotype. We propose SPRY2 as a candidate novel marker for high-grade tumours and a target of therapeutic intervention in colon cancer.


Subject(s)
Cadherins/genetics , Colonic Neoplasms/genetics , Gene Expression Regulation, Neoplastic , Intracellular Signaling Peptides and Proteins/genetics , Animals , Cadherins/biosynthesis , Cadherins/metabolism , Calcitriol/pharmacology , Cell Differentiation/physiology , Cell Line, Tumor , Colonic Neoplasms/metabolism , Colonic Neoplasms/pathology , Down-Regulation , HT29 Cells , Homeodomain Proteins/biosynthesis , Homeodomain Proteins/genetics , Humans , Intracellular Signaling Peptides and Proteins/antagonists & inhibitors , Intracellular Signaling Peptides and Proteins/metabolism , Membrane Proteins , Rats , Reverse Transcriptase Polymerase Chain Reaction , Signal Transduction , Transcription Factors/biosynthesis , Transcription Factors/genetics , Transfection , Zinc Finger E-box-Binding Homeobox 1
5.
Oncogene ; 28(49): 4375-85, 2009 Dec 10.
Article in English | MEDLINE | ID: mdl-19802011

ABSTRACT

SNAI1, ZEB1, E-cadherin (CDH1), and vitamin D receptor (VDR) genes regulate the epithelial-mesenchymal transition (EMT) that initiates the invasion process of many tumor cells. We hypothesized that this process could also affect the behavior of normal cells adjacent to the tumor. To verify this hypothesis, the expression level of these genes was determined by quantitative RT-PCR in tumor, normal adjacent, and normal distant tissues from 32 colorectal cancer (CC) patients. In addition, we extended the study to human HaCaT normal keratinocytes and SW480-ADH colon cancer cells co-cultured with SW480-ADH cells overexpressing the mouse Snai1 gene. Of 18 CC cases with SNAI1 expression in tumor tissue, five also had SNAI1 in normal adjacent tissue (NAT). Expression of SNAI1 in tumor tissue correlated with downregulation of CDH1 and VDR genes in both tumor (P=0.047 and P=0.014, respectively) and NAT lacking SNAI1 expression (P=0.054 and P=0.003). ZEB1 expression was directly related to VDR expression in tumor tissue (r=0.39; P=0.027) and inversely to CDH1 in NAT (r=-0.46; P=0.010). CDH1 and VDR were also downregulated in SW480-ADH and MaCaT cells, respectively, when they were co-cultured with Snai1-expressing cells. Furthermore, cytokine analysis showed differences in the conditioned media obtained from the two cell types. These results indicate that histologically normal tissue adjacent to tumor tissue expressing the EMT-inducing gene SNAI1 shows alterations in the expression of epithelial differentiation genes such as CDH1 and VDR.


Subject(s)
Cadherins/genetics , Carcinoma/genetics , Colon/metabolism , Colonic Neoplasms/genetics , Receptors, Calcitriol/genetics , Transcription Factors/genetics , Animals , Antigens, CD , Cadherins/metabolism , Carcinoma/pathology , Colonic Neoplasms/pathology , Down-Regulation , Gene Expression Profiling , Gene Expression Regulation, Neoplastic/physiology , Genes, ras/physiology , Homeodomain Proteins/genetics , Homeodomain Proteins/metabolism , Humans , Mice , Oligonucleotide Array Sequence Analysis , Receptors, Calcitriol/metabolism , Snail Family Transcription Factors , Transcription Factors/metabolism , Transcription Factors/physiology , Transfection , Tumor Cells, Cultured , Zinc Finger E-box-Binding Homeobox 1
6.
Br J Cancer ; 92(6): 985-9, 2005 Mar 28.
Article in English | MEDLINE | ID: mdl-15770204

ABSTRACT

Vitamin D analogues with reduced hypercalcemic activity are under clinical investigation for use against colon cancer and other neoplasias. However, only a subset of patients responds to this therapy, most probably due to loss of vitamin D receptor (VDR) expression during tumour progression. Recent data show that SNAIL transcription factor represses VDR expression, and thus abolishes the antiproliferative and prodifferentiation effects of VDR ligands in cultured cancer cells and their antitumour action in xenografted mice. Accordingly, upregulation of SNAIL in human colon tumours associates with downregulation of VDR. These findings suggest that SNAIL may be associated with loss of responsiveness to vitamin D analogues and may thus be used as an indicator of patients who are unlikely to respond to this therapy.


Subject(s)
Colonic Neoplasms/metabolism , DNA-Binding Proteins/physiology , Receptors, Calcitriol/genetics , Repressor Proteins/physiology , Transcription Factors/physiology , Calcitriol/biosynthesis , Calcitriol/pharmacology , Colonic Neoplasms/drug therapy , DNA-Binding Proteins/analysis , Humans , Receptors, Calcitriol/analysis , Snail Family Transcription Factors , Transcription Factors/analysis
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