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Calponin 3 promotes invasion and drug resistance of colon cancer cells

2019-12-14VidhyaNairNouraAlkhayyalSivaramakrishnanSivaperumalWaelAbdelRahman

关键词:趋化因子负相关血浆

Vidhya A Nair,Noura A Al-khayyal,Sivaramakrishnan Sivaperumal,Wael M Abdel-Rahman

Vidhya A Nair,Environment and Cancer Research Group,Sharjah Institute for Medical Research,University of Sharjah,Sharjah 27272,United Arab Emirates

Noura A Al-khayyal,College of Medicine and Sharjah Institute for Medical Research,University of Sharjah,Sharjah 27272,United Arab Emirates

Sivaramakrishnan Sivaperumal,Department of Biotechnology,Bharathidasan University,Tiruchirappalli 620024,India

Wael M Abdel-Rahman,Department of Medical Laboratory Sciences,College of Health Sciences and Environment and Cancer Research Group,Sharjah Institute for Medical Research,University of Sharjah,Sharjah 27272,United Arab Emirates

Abstract

Key words: β-Catenin; Calponin 3; Colon cancer; Epithelial-mesenchymal transition;Invasion; Metastasis

INTRODUCTION

The calponin family of actin-binding proteins consists of three isoforms:(1) Calponin-1 (CNN1; h1 or basic CNN); (2) CNN2 (h2 or neutral CNN); and (3) CNN3 (h3 or acidic CNN).All of them are generally involved in various forms of cell motility[1-3].CNN1 is mainly expressed in smooth muscle cells in which it regulates smooth muscle contractions.It inhibits actin-activated myosin ATPase activity and thus inhibits smooth muscle contractility; it is also considered a troponin-like molecular switch[1].CNN2 and CNN3 are expressed in smooth muscle and non-smooth muscle cells[3,4].An accumulating body of evidence has shown that CNN3 has an important role in wound healing and cellular contractility and migration regulation.Appelet al[5]showed that CNN3 plays a role in fibroblast migration during wound healing;moreover,they proposed a model in which CNN3 can induce fibroblast migration through activation of extracellular signal-regulated kinase (ERK)1/2 and its direct,target l-caldesmon.CNN3 co-translocates with both ERK1/2 and protein kinase C-α to the cell cortex and podosome-like structures in a fibroblast cell stimulated by a phorbol ester[5].These findings were corroborated by Daimonet al[6]who showed that CNN3 expression is induced by mechanical tension and is required for stress fiber formation in skin fibroblast after a wound occurs.When CNN3 was knocked out in these fibroblasts,the cells were not able to form the strong stress fibers necessary to generate the mechanical tension required for wound closure and contraction.Overall,CNN3 knockout resulted in a phenotype of decreased cellular dynamics[6].CNN3 is mainly controlled by post-transcriptional modifications as evidenced by no changes in mRNA levels before and after a wound occurs in spite of a rise in its protein level at the time of wounding[6].Mitogen-activated protein kinase kinase 1 (MEKK1 or MAP3K1),which is necessary for contractility and directs migration in many cell types,can phosphorylate CNN3 at Thr288 to increase the traction stress of the cell.Together,MEKK1 and CNN3 form an important hub in the positive feedback mechanism that promotes cell contraction and migration[7].

Cancer is a major devastating health problem worldwide,and colorectal cancer,in particular,is a notorious disease.Colorectal cancer is the third most commonly occurring cancer in men and the second most commonly occurring cancer in women.Over 1.8 million new cases were diagnosed in 2018[8].More than half of the patients of colorectal cancer are doomed to die from this disease,particularly in the less developed regions of the world in which the disease outcome is influenced by adverse environmental factors and/or different genetic factors[8,9].Generally,the course of cancer progression is essentially due to the capability of the cancer cells to invade,metastasize,and destroy normal tissues.Cancer cells,which undergo this complex process,simply trick the body into activating the biological wound-healing program to support their invasion.Rather than inventing a new mechanism to interact with their microenvironment during invasion and metastasis,cancer cells simply exploit their surrounding microenvironment that could have been created by the preexisting program of wound healing.Thus,tumors were long considered to be similar to“wounds that do not heal”[10,11].The epithelial to mesenchymal transition (EMT) is an important step in both wound healing and epithelial cancer metastasis during which the epithelial cells shed their adhesive epithelial markers and acquire a set of mesenchymal markers in order to facilitate their movement.The EMT program is orchestrated by a complex network of signaling[12-16].Not surprisingly,the EMT was found to be the most dominant program in a comprehensive,large-scale analysis of microarray data.The EMT is the first principal component of colorectal cancer,which is a well-known heterogeneous disease,and the tight correlation of EMT with recurrence and poor prognosis[12,13,16]highlights the significance of EMT-related genes in cancer development and progression.

It is expected that CNN3 plays a role in the EMT during carcinogenesis and tumor progression due to the similarity between wound healing and metastasis.The few available data on CNN3 in cancer are intriguing.In a murine model of ovarian carcinoma,CNN3 was on the list of genes associated within vivocarcinogenicity[17].The CNN3 locus on chromosome 1 is involved in a translocation that has been identified in mucosa-associated lymphoid tissue lymphoma[18].CNN3 is expressed in mammary cells in response to erythroblastic oncogene B2 overexpression[19]and is associated with Duke’s stage C and lymph node metastasis of colon cancer[20].Thus,the available data suggest that CNN3 could play a role in cancer invasion and progression.

In this study,we confirmed that CNN3 is differentially expressed in colorectal and breast carcinoma and showed that it is associated with EMT features,increased cancer cell invasion,and resistance to chemotherapeutic agents.We also demonstrated that CNN3 can upregulate multiple oncogenic pathways such as β-Catenin,ERK1/2,c-Jun,heat shock protein 60 (HSP60),and mutant p53.

MATERIALS AND METHODS

Cell lines and cell culture

A total of 20 cell lines were used.The breast cancer cell lines were MCF7,1001 (a tumor necrosis factor-resistant/TP53 mutant clone from the MCF7 parental cell line),CAL-51,MDA-MB-231,MDA-MB-361,ZR-75-1,T47D,and BT-549.Colon cancer cell lines included HCT116,HCT116.p53 mutant,RKO,RKO.P53-/-,SW480,SW620,CaCo2,COLO205,SW837,HT29,and DLD1.HeLa,a cervical cancer cell line,was used as a positive control for EMT.These cell lines were available from previous work[14,15]or purchased (Sigma Aldrich,St.Louis,MO,United States) for the purpose of this study.The cell lines were cultured in their corresponding growth media and specific conditions as previously described[14,15].

Total protein extraction and western blot analysis

Cell lysates were prepared from cultured cells,washed twice with ice cold 1×phosphate-buffered saline,and the resulting pellets were then lysed using pre-chilled Triton lysis buffer (25 mM Tris HCL,pH 7.4,150 mM NaCl,1 mM ethylenediaminetetraacetic acid,1% Triton) to which 50 mM sodium fluoride,1 mM sodium orthovanadate,1 mM phenylmethylsulfonyl fluoride,and 2% protease inhibitor were added.Then,the lysed pellets were incubated on ice for 5 min and centrifuged at a speed of 14000 rpm for 10 min at 4°C in order to remove the cell debris.Protein concentration was quantified using the bicinchoninic acid protein assay (Thermo Fisher Scientific,Waltham,MA,United States).Approximately 30 µg total protein was subjected to sodium dodecyl sulfate-polyacrylamide gel electrophoresis consisting of a 7.5% resolving gel and 4% stacking gel.Subsequent steps were as previously described[14,15].The primary antibodies were against CNN3(clone H-55),rabbit polyclonal antibody [later replaced by clone A-2 mouse monoclonal (mAb) antibody due to discontinuation of the first (both from Santa Cruz,Dallas,TX,United States)],β-Actin (clone 13E5),rabbit mAb antibody (Cell Signaling,Danvers,MA,United States).EMT antibodies included vimentin (D21H3) rabbit mAb,N-cadherin (D4R1H) rabbit mAb,Claudin-1 (D5H1D) rabbit mAb,β-Catenin(D10A8),rabbit mAb,ZO-1 (D7D12) rabbit mAb,Snail (C15D3) rabbit mAb,Slug(C19G7) rabbit mAb,TCF8/ZEB1 (D80D3) rabbit mAb,and E-cadherin (24E10) rabbit mAb (all from Cell Signaling).All primary antibodies were used at a 1:1000 dilution.

Gene silencing using small interfering (si)RNA

We used siRNA for CNN3 protein (siRNA ID:s3256; Thermo Fisher Scientific).We transfected the SW620 cell line with a specific CNN3 siRNA along with control siRNA under the same conditions according to the Life Technologies protocol using the reverse transfection protocol available at https://www.lifetechnologies.com/.

Invasion assay

For the invasion assay,we used QCMTMHigh Sensitivity Non-cross-linked Collagen Invasion Assay kit (Millipore,Burlington,MA,United States) according to the manufacturer’s protocol.Briefly,the assay was performed using a modified chamber with filter inserts (pore size 8 μm) coated with Matrigel in 24-well dishes.Approximately 0.5 million cells were prepared in serum-free media (RPMI 1640).Then 250 μL aliquots of cell suspension were added to each of the inserts (top chamber),and 500 μL of 15% fetal bovine serum-containing media was added to the bottom chamber.After a 48-h incubation,cells remaining in the top chamber were removed,and 400 μL cell stain was applied to the invasion chamber insert for 15 min.After several washes with water,the inserts were dried,viewed under the microscope,and photographed.Inserts were then transferred to 200 μL extraction buffer and allowed to incubate for 15 min at room temperature.The dye mixture was assessed by a plate reader at a wavelength of 630 nm.

Viability assay using the sulforhodamine assay

The IC50concentration of drugs used in the experiments were prepared by serial dilution in Dulbecco’s modified Eagles medium prior to performing the experiment.The IC50concentrations were determined,and subsequent steps were as previously described[14,15].

Proteome profile/human phospho-kinase array

For comprehensive proteomic analysis of proteins and pathways targeted by CNN3,we used a human phospho-kinase array ready-made kit that concurrently detects the relative phosphorylation levels of 43 kinase sites and two related total proteins using carefully selected specific capture antibodies.The experimental technique and analyses were according to manufacturer’s protocols and recommendations as detailed in the supplied booklet,which also contains a list of the target proteins and their phosphorylation sites (Proteome Profiler; R and D Systems,Minneapolis,MN,United States).This analysis was performed on SW620,SW620 transfected with siRNA control,and SW620-CNN3 silenced,repeated in duplicate,and two different exposures were taken.The average signal of the four analyses was finally used to generate graphs.

Clinical samples and immunohistochemistry

The primary antibody used for immunohistochemistry was anti-CNN3 (clone H-55),rabbit polyclonal antibody,from Santa Cruz.Immunohistochemistry was performed on 57 formalin-fixed,paraffin-embedded (FFPE) samples derived from a bigger series of tissues according to availability.The FFPE blocks were from surgical resection specimens of colorectal carcinoma submitted to pathology laboratories.All tumors were from the colon and/or rectum,generally diagnosed as adenocarcinoma,with no evidence of hereditary colon cancer syndrome.The histological variants of the 57 tumors included 44 colorectal adenocarcinomas,9 mucinous adenocarcinomas,1 signet ring carcinoma,1 medullary carcinoma,1 squamous cell carcinoma,and 1 undifferentiated carcinoma.Additional features of this series are included in Table1.Molecular characterization of these tumors was described in our previous work[21,22].We used the Envision+DAB system and immunohistochemistry staining protocol as previously described[23].The work was done according to ethical standards of the Helsinki declaration and under the approval of the Ethics and Research Committee at the University of Sharjah.Five 200× power fields from different corners of the specimens were counted,and the percentage of stained cells was calculated.A tumor was graded as positive if it showed strong to moderate expression in 30% or more of the total counted tumor cells.

Statistical analysis

When appropriate,the Fisher's exact probability test,χ2test,or Studentt-test was used to evaluate differences between groups.Pearson’s correlation analysis was performed to test relationships between variables.Analyses were performed using MS Excel and/or VassarStats Web-based statistical program found at http://faculty.vassar.edu/lowry/VassarStats.html.All reportedPvalues were two-tailed andPvalues <0.05 were considered significant.

RESULTS

CNN3 is expressed in the majority of colon and breast cancer cells

Overall,CNN3 was expressed in 9 of 11 (high expression in seven and low expression in two) colon cancer cells.SW480,which was developed from primary colorectal adenocarcinoma,was negative for CNN3,but the cell line derived from its lymph node metastasis,SW620,was strongly positive.This finding led us to focus on this cell line model (SW480/SW620) and to choose the SW620 to perform functional CNN3 analyses.CNN3 expression was not related to p53 status in the isogenic pairs of cells HCT116,HCT116.p53 mutant,or RKO,RKO.p53-/-(Figure1).Six out of the eight breast cancer cell lines were positive for CNN3 regardless of p53 status.CNN3 was negative in the parental p53 wild type MCF7 while it was expressed in the MCF7 clone (MCF7-1001) that was a p53 mutant,but there was no relationship with p53 status in all of the other selected breast cancer cell lines.HeLa,used as EMT positive control,was positive for CNN3 as expected (Figure1).

Loss of mesenchymal markers of SW620 after CNN3 silencing

We chose SW620,which was developed from metastatic colon carcinoma,to silence CNN3 and carry out further functional analyses as this cell line shows high expression of CNN3 in contrast to its matching cell line from the primary tumor,SW480.Transfection of SW620 with CNN3-specific siRNA was highly efficient as evidenced by western blotting results and was consistent with data from the siRNA supplier (Figure2A).Overall,the EMT marker set presented interesting findings.The positive control cell line for EMT (HeLa) confirmed our EMT marker set’s validity,showing positive expression of the mesenchymal markers Snail,TCF8/ZEB1,vimentin,N-cadherin,and β-Catenin and negative expression of the epithelial markers claudin-1,E-cadherin,and ZO-1.Comparison of SW480 with SW620 showed that the metastatic phenotype of SW620 was associated with gain of the mesenchymal markers Snail,TCF8/ZEB1,Slug,and vimentin,whereas the epithelial markers E-cadherin and ZO-1 showed no change.In contrast,claudin-1 was somewhat increased in SW620 (Figure2B).CNN3 silencing resulted in total loss or reduction of the mesenchymal markers TCF8/ZB1,Slug,vimentin,and β-Catenin (Figure2B).Collectively,these data demonstrated that CNN3 silencing predisposed metastatic cancer cells toward losing their mesenchymal markers.

CNN3 silencing reduced collagen invasiveness of the metastatic SW620

The collagen invasion assay showed considerable reduction in SW620 invasiveness after siRNA silencing of CNN3 compared to its matching negative control transfected with control siRNA (Figure2C and D).

CNN3 silencing increased the sensitivity to chemotherapy

The SW620 cell line was more resistant to the standard chemotherapeutic agent 5-fluorouracil compared to its matching SW480 cell line.Interestingly,CNN3 silencing increased the sensitivity of SW620 to 5-fluorouracil compared to the matching cells transfected with control siRNA (Figure3A).

Table1 Clinical,pathological and molecular features of colorectal carcinomas according to CNN3 expression status

Proteomic analysis and cellular targets of CNN3

To identify proteins associated with CNN3 silencing we compared SW620,SW620 transfected with control siRNA,and SW620-CNN3 silenced.CNN3 silencing in SW620 caused a reduction in ERK1/2,β-Catenin,mutant p53,c-Jun,and HSP60 but brought about an increase in checkpoint kinase 2 (Figure3B).Changes in β-Catenin were noted on the western blot (Figure2B).

CNN3 is expressed in resected colon cancer tissue by immunohistochemistry

Immunohistochemical analyses for detection of CNN3 in uncultured colorectal cancer specimens were performed on 57 FFPE tissue sections derived from a series described in previous publications[21,22].CNN3 expression was detected as cytoplasmic expression in smooth muscle and endothelial cells,stromal fibroblasts,and germinal centers of lymphoid follicles.Normal colonic mucosa showed positive cytoplasmic staining at the base of the crypt,which faded away until it was undetectable superficially (Figure4A).CNN3 showed positive expression in 20/57 (35%) of tumors(Figure4B-D),and it was not related to p53 stabilization in uncultured tumors consistent with the cell line findings.Furthermore,CNN3 did not show a significant relationship to any of the patient characteristics,pathological features,or other molecular characteristics in this tumor series (Table1).

关于抑郁症与其他趋化因子关系的研究较少。部分研究表示抑郁症与多种趋化因子呈正相关,如CCL11、CXCL4、CXCL10等[26,49-50],但是抑郁症与血浆CCL4呈负相关[15],与CCL5的关系还比较模糊[26]。然而一项来自意大利健康保健组织的研究发现慢性心理社会应激引起的情绪变化与血浆中低的CCL2、CCL5、CCL27、CCL11水平相关[51]。

DISCUSSION

Here,we set out to obtain insights into the role of CNN3 in cancer development and metastasis.We showed that CNN3 is highly expressed in colon,breast,and cervical cancer cell lines,suggesting that it has widespread action in carcinomas of various lineages.This is consistent with some available literature data showing that CNN3 is expressed or altered in human colon,breast,and gastric cancers,mucosa-associated lymphoid tissue lymphoma,and murine ovarian carcinoma[17-20].We extended our analysisin silico.The Cancer Cell Line Encyclopedia (https://portals.broadinstitute.org/ccle) showed that CNN3 mRNA was highly expressed in the majority of cell lines derived from various lineages in this database with the exception of hematological malignancies (lymphomas and leukemia).The highest expression of CNN3 was observed in osteosarcoma and glioma followed by various types of epithelial carcinomas.

Figure1 Western blot analysis of CNN3 expression in colon cancer cells (upper panel) and breast cancer cells (lower panel).HeLa cervical cancer cell line was used as the epithelial to mesenchymal transition control.CNN3:Calponin 3.

We hypothesized that CNN3 plays a role in the EMT during invasion and lymph node metastasis based on the well-established biological role of CNN3 in wound healing and the finding that it was differentially and selectively expressed in a colon cancer cell line from lymph node metastasis compared to its matching line from a primary colon adenocarcinoma.We analyzed a good panel of EMT markers in the SW480/SW620 metastatic model.As expected,the metastatic cell line,SW620,showed evidence of mesenchymal transition compared to its non-metastatic version,SW480.Moreover,CNN3 silencing downregulated the majority of these mesenchymal markers suggesting that it is an important mediator of mesenchymal transition in carcinomas and is required to maintain this phenotype.The data from one of our markers,claudin-1,was apparently opposite to the general assumption that it is an epithelial phenotype marker.Originally,low claudin-1 levels were found in highly invasive breast cancers associated with high levels of Snail and Slug.Claudin-1 levels were efficiently downregulated by these transcription factors[24].However,we found that claudin-1 was selectively upregulated in the metastatic colon cancer cells with concurrent upregulation of Slug,but it was not affected by the status of CNN3.It is becoming more acceptable that alterations in claudin-1 expression are lineagedependent and may be regulated in different tissues in both normal and pathological situations under different conditions[25].Claudin-1 expression and distribution were found to be associated with cell dissociation rather than cell adhesiveness in pancreatic cancer,and its expression was somewhat increased during metastasis of many cancer cells (reviewed in Jianget al[25]).Colorectal cancers showed an increase in claudin-1 expression,in both primary and metastatic samples and in the cell lines derived from primary and metastatic tumors compared to their normal counterparts[26]; these results supported our findings.

The current data concerning CNN3 add significant molecules to the complex network that regulates EMT,particularly in colorectal metastasis.Our observation and that of many others suggests that EMT is a dominant phenotype in colon cancer and is controlled by a complex intricate network which includes also microRNA and epigenetic alterations[14-16].Recently,miR-1 was shown to inhibit gastric and breast cancer growth and metastasis by targeting six genes that control cell cycle and EMT with CNN3 being one of them[27].In addition to the role of EMT in cancer invasion and metastasis,many EMT markers also regulate tumor cell response to therapy[12,13].In agreement with this,our data showed that CNN3 silencing increased the sensitivity of the metastatic cancer cell to standard therapy and provides a finding that could be exploited in targeted/personalized therapy.To date,we could not find detailed dedicated reports concerning CNN3 and cancer therapy,but we noted that the CNN3 gene name was mentioned in the middle of a list of 13 genes that were differentially expressed in the colon cancer cell line,HCT15,after all-trans retinoic acid treatment[28].As suggested above,colorectal cancer is a heterogeneous disease with poor prognosis in some geographical locations or ethnicities in which it is characterized by advanced stages at diagnosis and poor outcomes as compared to the Western version of the disease[9].Identification and exploitation of these molecules,such as CNN3 that play a role in later stages of this disease,could be useful in treatment of these aggressive tumor subsets.

Figure2 Functional consequences of CNN3 silencing in the SW620 metastatic colon cancer cell line.A:High silencing efficiency evidenced by barely detectable CNN3 protein band by western blot; B:Effect of CNN3 silencing on expression of epithelial to mesenchymal transition markers; note loss or reduction of mesenchymal markers after silencing; C:Invasion assay results showing reduction in the collagen invasion after silencing as detected by decreased dye elution; D:Decreased number of invaded cells on microscopic examination (Magnification 100×).CNN3:Calponin 3.

We performed a comprehensive proteomic analysis of our chosen cell line models using a phosphokinase array.Silencing of CNN3 downregulated few highly important oncogenic proteins,namely ERK1/2,β-Catenin,mutant p53,c-Jun,and HSP60.β-Catenin downregulation was also noted on a western blot.β-Catenin,in particular,is a very significant finding as β-Catenin activation is the most common early change in the majority of colorectal carcinomas,suggesting that it has a major role in colorectal cancer development,together with its role in stemness[9].The ERK1/2 finding is also interesting because it confirms the previous finding in which ERK1/2 is constitutively associated with CNN3[5].The mutant p53 protein in SW480/SW620 is known to have a gain-of-function,oncogenic mutation that increases cell proliferation and resistance to DNA damage treatment; hence,its upregulation by CNN3 is expected[29].

Figure3 Effects of CNN3 silencing in the SW620 metastatic colon line in response to standard chemotherapeutic 5-fluorouracil and on the proteome profiles of 45 proteins.A:Response to standard chemotherapeutic 5-fluorouracil; B:Proteome profile changes.Only the consistent/significant changes observed in two repetitions are included in the graph.CNN3:Calponin 3.

Finally,we showed that CNN3 was overexpressed in a significant fraction of resected colon cancer cases,and it seems that it is an independent marker,but this requires further examination in a bigger series.Interestingly,CNN3 showed an expression gradient in the normal colonic mucosa with higher expression in the crypt bases,which is in agreement with its role in stemness and proliferation that is consistent with the status of β-Catenin activation at the base of the crypt.We interrogated the ProgGeneV2 database for the effect of CNN3 on survival and found that it was associated with low overall survival in 7/12 cohorts (one cohort was excluded because of ambiguity) and low relapse free survival in 4/7 cohorts.We found that CNN3 was associated with a decrease in metastasis-free survival in the single informative cohort (one cohort was excluded because of ambiguity).

In conclusion,we showed that CNN3 is widely expressed in many cancer types,and it is particularly associated with the lymph node metastasis in colon cancer cells.CNN3 appears to be an EMT trigger and exerts significant effects on tumor invasion and response to therapy in colorectal cancer cells.

Figure4 CNN3 expression in formalin-fixed,paraffin-embedded tissues from resected colorectal cancers.A:The normal mucosa showed positive expression at the crypt bases (thick arrow) and faint to negative expression superficially (thin arrow,Magnification 40×).Note the negative tumor islets below the mucosa (arrow head); B:Well differentiated colon adenocarcinoma showing negative expression of CNN3 (thick arrow) while the stroma showed positive expression (thin arrow)serving as internal positive control (Magnification 200×); C:Well differentiated colon adenocarcinoma showing positive CNN3 expression (Magnification 200×); D:Poorly differentiated rectal adenocarcinoma showing intense positive expression (Magnification 100×).Chromogen,DAB marks the positive expression with brown color; counterstain,Mayer's hematoxylin.CNN3:Calponin 3.

ARTICLE HIGHLIGHTS

Research background

Cancer is a major health problem and colorectal cancer,in particular,is a devastating disease with high mortality rates mainly because of metastasis.Hence there is a need to understand the molecular basis of invasion and metastasis of colorectal cancer cells and identify novel biomarkers of this process.

Research motivation

Calponin 3 (CNN3) is an actin-binding protein expressed in smooth muscle and non-smooth muscle cells.It is required for cytoskeletal rearrangement and wound healing.The cancer cells,which undergo the complex process of metastasis,simply trick the body into activating the biological wound healing program to support their invasion.Thus,CNN3 could play a role in cancer cell invasion and metastasis.

Research objectives

The objectives of this study were to find out the expression status of CNN3 in carcinomas and dissect the potential role of CNN3 in carcinogenesis with a focus on its role in colorectal cancer invasion and response to therapy.

Research methods

We initially examined CNN3 expression in colon and breast cancer cell lines as well as formalinfixed,paraffin-embedded sections from archived sporadic colorectal carcinomas,by western blot and immunohistochemistry,respectively.The CNN3 gene was silenced by specific siRNA,in metastatic colon cancer cell line and we confirmed the silencing efficiency by western blot.We then analyzed the silenced cells,along with control siRNA-transfected cells,for changes in epithelial and mesenchymal markers,invasion,and response to 5-fluoruracil treatment.We also performed a proteomic analysis using phospho-kinase array-based panel of 45 proteins.

Research results

CNN3 showed positive expression in 6/8 breast and 9/11 colon cancer lines and in HeLa.Interestingly,the colorectal adenocarcinoma line SW480 was negative,while the cell line developed from its matching lymph node metastasis (SW620) was positive for CNN3.The CNN3 expression was fairly consistent with the metastatic phenotype in colon cancer cells.We selected SW620 for further functional analyses.The CNN3-silenced SW620 showed a reduction in collagen invasion and loss of mesenchymal markers.CNN3 silencing caused an increase in the SW620 colon cancer cell sensitivity to 5-fluorouracil.Phospho-kinase array-based proteomic analysis revealed some potential pathways of CNN3 action.CNN3 was expressed in 20/57 (35%)colon cancer cases as shown by immunohistochemistry.CNN3 was associated with a decrease in overall survival in colon cancerin silico.

Research conclusions

These results show the involvement of CNN3 in metastasis and resistance to chemotherapy in colon cancer and suggest that significant oncogenic pathways are involved in these CNN3 actions.

Research perspectives

These data warrant further research into the role of CNN3 in colorectal carcinogenesis.The CNN3 protein interaction can be explored by various biochemical and proteomic methods to identify the mechanism of CNN3 action.The expression of CNN3 in larger series of various carcinomas and the association with response to various therapies can be investigated with the purpose to explore the potential application of CNN3 as a biomarker to predict metastasis and response to therapy.

ACKNOWLEDGEMENTS

We thank Dr.Maha Saber-Ayad for advice of SRB analysis,Ms.Harini Kumar for technical assistance,and Dr.Entesar Dalah for reading the manuscript.We thank the University of Sharjah for supplying and maintaining the research facility:The Sharjah Institute for Medical Research and the Environment and Cancer Research Group.

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