J Cancer Prev 2021; 26(3): 162-173
Published online September 30, 2021
© Korean Society of Cancer Prevention
1Department of Cellular and Molecular Medicine, Faculty of Medicine, University of Ottawa, 2Department of Nutrition Sciences, Faculty of Health Sciences, University of Ottawa, Ottawa, Canada
This is an Open Access article distributed under the terms of the Creative Commons Attribution Non-Commercial License, which permits unrestricted noncommercial use, distribution, and reproduction in any medium, provided the original work is properly cited.
Exposure of the skin to solar UV radiation leads to inflammation, DNA damage, and dysregulation of cellular signaling pathways, which may cause skin cancer. Photochemoprevention with natural products is an effective strategy for the control of cutaneous neoplasia. Polyphenols have been proven to help prevent skin cancer and to inhibit the growth of cancer stem cells (CSCs) through epigenetic mechanisms, including modulation of microRNAs expression. Thus, the current study aimed to assess the effect of polyphenol enriched blueberry preparation (PEBP) or non-fermented blueberry juice (NBJ) on expression of miRNAs and target proteins associated with different clinicopathological characteristics of skin cancer such as stemness, motility, and invasiveness. We observed that PEBP significantly inhibited the proliferation of skin CSCs derived from different melanoma cell lines, HS 294T and B16F10. Moreover, PEBP was able to reduce the formation of melanophores. We also showed that the expression of the CD133+ stem cell marker in B16F10 and HS294T cell lines was significantly decreased after treating the cells with PEBP in comparison to the NBJ and control groups. Importantly, tumor suppressors’ miR-200s, involved in the regulation of the epithelial-to-mesenchymal transition and metastasis, were strikingly upregulated. In addition, we have shown that a protein target of the tumor suppressor miR200b, ZEB1, was also significantly modulated. Thus, the results demonstrates that PEBP possesses potent anticancer and anti-metastatic potentials and may represent a novel chemopreventative agent against skin cancer.
Keywords: Polyphenols, Cancer stem cells, Neoplasm metastasis, MicroRNA-200b, Zinc finger E-box binding homeobox 1
Epidemiological studies suggest that the consumption of foods containing antioxidants and polyphenolic compounds can reduce the risk for several types of cancer . Polyphenols from fruits, vegetables, grape seeds, and green tea have been shown to protect the skin from the adverse effects of solar UV radiation . Skin cancer is rapidly increasing and is considered a common malignancy in Canada and the United States . Blueberries represent a well-known source of natural antioxidants, polyphenols, and anthocyanins, with proven anti-proliferative and apoptotic effects on cancer cells . We have previously reported that polyphenol enriched blueberry preparation (PEBP) is significantly involved in cancer chemoprevention and chemotherapy . The fermentation process during PEBP’s preparation mediated by a novel bacterium,
The fermentation process increases the bioefficacy and the bioavailability by affecting the structure of the polyphenol compared to its non-fermented counterpart . Moreover, this process also affect the molecular mechanism which is related to the anti-inflammatory activity of plyphenols by decreasing inflammatory signals in pathways mediated by STAT3, phosphatidylinositol 3-kinase (PI3K), extracellular signal kinase 1/2 (ERK1/2), etc. and also controlling the growth of cancer stem cell (CSC) in mammary carcinomas in vitro, in ex vivo and in in vivo settings .
CSCs are a small subset of neoplastic cells in solid tumors that give rise to differentiated cancer progeny [8,9]. Differentiated cells constitute the bulk of the tumor but are not responsible for metastasis. Thus, it is predicted that CSCs are responsible for tumor growth, maintenance and recurrence . CSCs have many functional characteristics, including the potential to differentiate into several cell types and the capacity for self-renewal . In melanoma skin cancer, CSCs have the ability to grow as spheres, which are collections of cells that arise from a single cell through clonal growth , and can be identified by the expression of some markers like CD133 (AC133) . Some of distinct CSCs may undergo the epithelial-to-mesenchymal transition (EMT), which is associated with metastasis . The EMT permits cells to migrate and invade nearby tissues and enter the blood stream while retaining stem cell characteristics, leading to metastasis . Further, CSCs have been found to secrete many growth factors to stimulate tumor growth and appear to confer intrinsic resistance to chemotherapy .
EMT is mainly regulated by the transcription factor zinc-finger and E-box binding homeobox (ZEB1/2). ZEB1 can serve as a transcriptional activator and a direct target of mesenchymal genes . ZEB1 is associated with the activation of mesenchymal genes and repression of epithelial genes . The expression of ZEB1 can be inhibited by E-cadherin which plays a critical role in cell to cell adhesion and the metastasis of a variety of tumors . Interestingly, activation of E-cadherin was accompanied by the inhibition of both ZEB1/2 which appeared synergistic . Thus, the overexpression of ZEB1/2 can prevent invasion and metastasis in several cancers by influencing the EMT .
Epigenetic mechanisms appear to play a fundamental role in CSC biology, particularly by expressing microRNAs (miRNAs) . miRNAs represent a subset of endogenous small noncoding RNA molecules . Their main function is to down-regulate gene expression in different ways, such as inhibiting mRNA translation or promoting mRNA degradation . miRNAs are overexpressed or down-regulated in malignant tissues, and some can function as both tumor suppressors and oncogenes . In particular, miR-200 family is highly associated with the regulation of CSCs in several cancer types and is involved in one of the most critical steps of the metastatic cascade, the EMT [24,25]. miR-200b is commonly down-regulated in primary melanomas compared with benign nevi . Alternatively, its increased expression has been shown to suppress tumor invasion, proliferation, and metastasis . The expression of ZEB proteins is controlled by miR-200b. For instance, miR-200b suppresses metastasis and migration by down regulating ZEB1 and inducing E-cadherin expression .
Given the significant role of epigenetic regulation in CSCs formation and our previous report on the repression of breast CSCs by PEBP , the current study aimed to investigate the possible mechanism of action of PEBP against development of skin cancer through regulation of miRNA expression signature and target inflammatory/oncogenic factors involved in survival/stemness pathways in skin CSCs.
Fully matured wild blueberries (
The Folin–Ciocalteu assay (Across International, Livingston, NJ, USA) was used to measure the total phenolic and polyphenol antioxidants present in the blueberry mixture in a 96 well plates. Extracts were acclimated to room temperature before being analyzed. Gallic acid was used to establish the standard curve. To determine the total phenolic content, Folin–Ciocalteu reagent was diluted with de-ionized water in ratio of 1:2. Two hundred µL of Folin–Ciocalteu reagent was added and neutralized with 25 µL of 75 mg/mL saturated sodium carbonate. After gentle shaking, the mixtures were incubated at room temperature in a dark room for 1 hour. The prepared samples were measured at a wavelength of 700 nm in a µ-Quant microplate reader (Bio-Tek, Winooski, VT, USA). Absorbance values of the PEBP were calculated based on the standard curve constructed from the gallic acid standards. Thus, the effective concentration of PEBP was expressed as gallic acid equivalents (GAE).
The HS 294T (ATCC HTB-140) human malignant melanoma cells and B16F10 (ATCC CRL-6475) murine malignant melanoma cells were obtained from the American Type Cell Collection (ATCC; Chicago, IL, USA). The cells were maintained in Dulbecco’s Modified Eagle’s Medium (DMEM) (no. 11995065; Gibco, Grand Island, NY, USA) supplemented with 10% (v/v) FBS (no. 30-2020; Gibco) and 0.05 mg/mL of penicillin/streptomycin (J160007; Sigma-Aldrich, Oakville, ON, Canada) at 37°C in a humidified atmosphere with 5% CO2.
Adherent cells were detached by trypsin and single cells were counted using the Countess automated cell counter (Invitrogen, Burlington, ON, Canada). Single cells were plated on Costar ultra-low attachment plates (no. 07200601; Corning, Saint-Laurent, QC, Canada) at 105 cells/0.2 mL/well, in the presence or absence of PEBP and NBJ (non-fermented blueberry juice), in DMEM-F12 (no.12660; Invitrogen), supplemented with 20 mg/mL EGF (no. E9644; Sigma Aldrich), 20 mg/mL basic human fibroblast growth factor (no. F0291; Sigma Aldrich), 10 mg/mL Insulin solution (no. 19278; Sigma Aldrich), 100 mM sodium pyruvate (S8636; Sigma-Aldrich), 250 mM L-glutamine (no. G6392; Sigma Aldrich), 100 mg/mL hydrocortisone (no. H0135; Sigma Aldrich), and penicillin/streptomycin (1,000×) (J160007; Sigma-Aldrich). Cells are grown in these conditions as non-adherent spherical clusters, and spheroids were counted after 2 to 3 days by light microscopy.
Cells were dissociated after 24 hours, washed twice with ice-cold PBS (Sigma-Aldrich), and resuspended. Combinations of monoclonal antibodies against mice were added to the cells, followed by incubation in the dark for 30 minutes at 4°C. The antibodies against CD24-APC (no. 17-0242-82; BD Bioscience, San Jose, CA, USA), CD44-PE/Cy7 (no. 25-0441-81; BD Bioscience), and CD133-FITC (no. 11-1331-82; BD Bioscience) were used for B16F10 cells. Antibodies against CD135-APC (no. 130-098-829; BD Bioscience) and CD20-VF450 (no. 92590; BD Bioscience) were used for HS294T cells. Labeled spheroid cells were washed twice with PBS to eliminate unbound antibody. Flow cytometry was performed using a Beckman Coulter MoFlo™ XDP (BD Biosciences Pharmingen, San Francisco, CA, USA). 4’,6-Diamidino-2-phenylindole was used to separate dead/dying cells from healthy cells. Side-scatter and forward-scatter profiles were used to eliminate cell doublets.
Cells were plated overnight in 6-well plates at a density of 2 × 105 cells per well and exposed to different concentrations of either PEBP or NBJ. When the cells were 70% to 80% confluent, a 1,000 mL pipette tip was used to create a scratch in the monolayer. Photos were taken at several different places along the wound at 0 hour, 24 hours and 48 hours. The cell motility assay was analyzed with TScratch software (CSE Lab, Zurich, Switzerland).
Total RNA was extracted, from cancer cells or CSCs, for both cell lines after 24 hours of exposure to different concentrations of PEBP or NBJ with the miRNeasy Mini Kit (no. 217004; Qiagen, Toronto, ON, Canada) by following the manufacturer’s protocol. RNA concentrations were determined with a NanoDrop ND-2000 (Thermo Fisher Scientific, Waltham, MA, USA). RNA extracted in this manner is suitable for measurements of miRNA expression levels.
qPCR was used to measure miRNA and gene expression levels. RNA was reverse-transcribed into cDNA by Moloney murine leukemia virus reverse transcriptase (no. 28025013; Invitrogen) and by using miRNA specific primers purchased from Ambion (Life Technologies, Burlington, ON, Canada). Subsequent miRNA-200b-3p (ID. 002251) levels were quantified by qPCR using Taqman probes (Applied Biosystems, Burlington, ON, Canada) and a FastStart Taq Polymerase (Roche, Mississauga, ON, Canada), according to manufacturer’s protocols. miRNA PCR reactions were conducted at 95°C for 10 minutes, followed by 40 cycles of 95°C for 30 seconds and 60°C for 1 minute. We used snRNA U6 as control. Expression of the indicated miRNAs was measured by comparing cycle threshold value using BIO-RAD CFX96 Manager software. The relative level was calculated using the ΔΔCT method.
2 × 105 B16F10 cells could grow to 30% confluence in DMEM supplemented with FBS and antibiotics (penicillin/streptomycin). Cells were transfected with a miR-200b mimic (ID. MC10492), the Mirvana miR-200b inhibitor (ID. MH10492) or a non-coding control (Ambion; ThermoFisher Scientific) by using lipofectamine 2000 (no. 11668019; Life Technologies) for 24 hours. After incubation, a passage was completed, and cells were plated in regular 6-well or 6 ultra-low attachment plates. After transfection, the expression of miR-200b was measured by qPCR.
B16F10 cells were transfected as mentioned above and collected. After washing with PBS on ice, cells were mixed with 400 mL Pierce® RIPA buffer (no. PI89900; ThermoFisher Scientific) combined with the HaltTM Protease and Phosphatase Inhibitor Cocktail (1×) (no. RH238230A; ThermoFisher Scientific). Cells were then scraped off the plate and protein mixes were centrifuged to remove the debris.
The protein extract concentration was measured using the Pierce BCA Protein Assay Kit (no. 23227; ThermoFisher Scientific) following the manufacturer’s protocol. After normalization, protein lysates were diluted in Laemmli buffer. Ten µg of protein samples were loaded in each well in a Mini Gel Tank (Life Technologies) in MES Running buffer (20×) (no. 1675920; Life Technologies) and migrated at 200 volts for 22 minutes and then transferred to an Immobilon-p50 polyvinylidene difluoride membrane in a Trans-Blot Cell (Bio-Rad, Hercules, CA, USA) cooled by a Neslab machine. Membranes were washed with TBS containing Tween 20 (TBST) and then blocked at room temperature for 1 hour in 5% milk in TBST. Membranes were incubated with primary antibody for ZEB1 (Anti-AREB6) at a dilution of 1:5,000 (Ab125512; Abcam, Cambridge, United Kingdom) in 5% bovine serum albumin (no. 23227; Pierce Biotechnology, ThermoFisher Scientific) in TBST, according to manufacturer’s recommendations, and incubated with agitation at 4°C overnight. The membranes were washed five times for 15 minutes with TBST and then incubated with horseradish peroxidase conjugated anti-rabbit secondary antibody at a final dilution of 1:10,000 (Ab39368; Jackson Immuno Research Laboratories, West Grove, PA, USA) for 1 hour at room temperature. The antibodies were detected using PRIME-ECL solutions (no. 9713237; Pierce Biotechnology). The membranes were archived with a VersaDoc (Bio-Rad) and normalized by using β-actin (Ab8227; Abcam) or α-tubulin (Ab4074; Abcam) as a loading control. The densitometry of Western blot results was performed using Image lab software (Bio-Rad).
All experiments were repeated in triplicate. All values are displayed as mean ± SE (SEM). Statistical significance was determined by one-way ANOVA, post-hoc Tukey test or Two-Way ANOVA on GraphPad Prism 5.0 (GraphPad Software, La Jolla, CA, USA). Biorad Image Lab was using to analyze the Western blot result. Flow cytometry results were analyzed with Kaluza 1.3 software (Beckman Coulter Inc., Montréal, QC, Canada). The cell motility assay was analyzed with TScratch software (CSE Lab, Zurich, Switzerland).
The HS 294T and B16F10 malignant melanoma cells were plated in stem cell conditioned culture medium in 6-well plates at a density of 100,000 cells/well. Sphere growth was measured for 24 hours after exposure to different concentrations of either PEBP or NBJ. PEBP significantly decreased the number of spheroids in both HS 294T (Fig. 1A) and B16F10 (Fig. 1B) cell lines (
However, the same concentrations of NBJ had much weaker effects on the sphere formation in both cell lines.
To validate the effects of PEBP in the two cell lines, stemess markers were analyzed by flow cytometry. Flow cytometry analysis was used to determine the presence of the cell-surface stem cell markers CD133, CD44, and CD24 in B16F10, and CD133 and CD20 in HS 294T cell lines (Fig. 2). The analysis was carried out following 24 hour treatment with 100 μM GAE of PEBP or NBJ. The result indicated that PEBP reduced the surface marker expression CD133 (1.95% compared to control 5.63%), CD44 (55.10%, compared to control 84.17%) and CD24 (13.39%, compared to control 17.67%) on B16F10 cells (Fig. 2A), and reduced the surface marker expression CD20 (13.73% compared to control 21.80%) and CD133 (0.08% compared to control 2.74%) on HS 294T cells (Fig. 2B). However, NBJ treatment caused no significant changes in surface marker expression CD133 (4.84% compared to control 5.63%), CD44 (69.25%, compared to control 84.17%) and CD24 (21.46%, compared to control 17.67%) on B16F10 cells and CD20 (22.30% compared to control 21.80%) and CD133 (2.00% compared to control 2.74%) on HS 294T cells.
A motility assay was performed to examine the effect of PEBP on migrative capability of HS 294T (Fig. 3A) and B16F10 (Fig. 3B) cells. For this purpose, cells were treated with 100 μM GAE and 150 μM GAE of PEBP or NBJ for 0 hour, 24 hours and 48 hours. Next, treating cells with PEBP prevented the surface area from being closed compared to control in both cell lines (Fig. 3C and 3D).
Members of miRNA-200 family are known to be tumor suppressors, which are down-regulated in some types of cancer . To determine the expression level of miR-200b in the metastatic melanoma cell line B16F10, we performed qPCR. We demonstrated that PEBP significantly increased miR-200b expression in the B16F10 cell line by approximately 4.3-fold in comparison to the control (
Transfection studies were performed to further investigate the role of miR-200b in the malignant murine melanoma cell line. B16F10 cells transfected with a miR-200b mimic and exposed to 100 μM GAE of PEBP for 24 hours showed significantly higher expression of miR 200b than did the control cells (
The effect of miR 200b overexpression on ZEB1 protein expression was determined by Western blot analysis. B16F10 melanoma cells were transfected with the miR-200b mimic or miR-200b inhibitor. A down-regulation of ZEB1 protein expression was observed in cells transfected with the miR-200b, whereas cells transfected with the miR-200b inhibitor had an increased expression of ZEB1 when compared with control cells (
Next, we determined whether PEBP affects EMT in malignant melanoma B16F10 murine melanoma cells. For this purpose, B16F10 cells were treated with PEBP for 48 hours, and cell lysates were prepared for the Western blot analysis of ZEB1. The data show that PEBP decreases the levels of ZEB1 in B16F10 cells compared to untreated controls (Fig. 8). The expression of α-tubulin was measured as a reference.
Malignant melanoma is one of the most aggressive and life-threatening cancers originating from melanocytes. Numerous efforts have been made to improve the treatment of malignant melanoma, but no effective therapy is currently available . Chemopreventive strategies are becoming important in translational medicine in oncology . Skin photoprotection is an important aspect of skin cancer prevention against photo-induced damage, the leading cause of skin cancer.
Bio-transformed blueberry juice was recently found to exhibit a variety of anticancer effects, such as protection against DNA damage , regulation of important oncogenic cellular signaling pathways , inhibition of cancer cell proliferation, induction of apoptosis, modulation of oncogene or tumor suppressor gene expression . We have provided evidence that PEBP potently reduces tumor growth and metastasis . In line with these reports, our preliminary results have shown that repression of CSCs in breast cancer cells by fermented blueberry supports a diet-mediated targeting of CSCs by controlling the inflammatory circuits, such STAT3, AKT, PI3K, and ERK1/2 , pathways that are involved in the maintenance and development of CSCs from epithelial cancers that also include skin cancer . Therefore, we aimed to study the underlining mechanisms that drive the anticarcinogenic effects of PEBP in malignant melanoma skin cancer and its relationship to the CSC.
It has been known since the 1980s that certain melanoma cell lines have the ability to form spheroids in vitro . The important characteristic of melanoma spheroids is that they exhibit more chemoresistance than when grown in monolayers [36,37]. This feature is considered to further reflect stem cell-like behavior . Controlling CSC growth in skin cancer is a possible avenue to prevent tumor development and metastasis. Thus, the investigation of PEBP-induced molecular mechanisms that mediate CSC growth was important to clarify its anticancer and anti-metastatic activities. Our data indicated that PEBP significantly inhibited spheroid growth in B16F10 and HS 294T cells, suggesting that its effect is not cell type dependent. The mechanism that occurs during fermentation might explain why PEBP showed better inhibitory effects on CSCs compared to the unfermented control and normal blueberry juice, as shown in Figure 1. PEBP has antioxidant potential that endows it with novel anti-inflammatory , antidiabetic [40,41] and neuroprotective  biological properties. During fermentation, long chain polyphenols are subject to hydrolysis by microbial enzymes, which render them more bioavailable and more bio-functional, thus facilitating their transdermal absorption, and potentially increasing their photoprotective and anti-oxidant capacities .
Cell proliferation and motility are two characteristics required for tumor progression. The expansion of a primary tumor mass is related to an increase in proliferation . The cell motility is important in order to disseminate a primary tumor from one site to another, leading to an invasive phenotype . In the present study, cell proliferation and the migration were investigated in metastatic B16F10 and HS 294T melanoma cells. These data suggest that PEBP significantly inhibited the motility of both cancer cell lines compared to the control cell line and was more potent than NBJ. Therefore, PEBP could have an effective role in the management of melanoma.
Melanoma cell lines express stem cell-associated surface markers. Some of the CSC surface markers have been identified, including CD133, CD44, and CD24 in B16F10 cells . CD133 and CD20 were identified in HS 294T cells . PEBP induced a significantly lower expression of CD133+ in B16F10 and HS294T cell lines in comparison to the NBJ-treated cells and control groups. CD133 regulates metastatic disease and cell growth, and it has been described as a marker of malignant melanoma skin CSCs [46,47]. Further, CSC potential of self-renewal and differentiation was shown to be exclusively contained within tumor cell subsets characterized by the expression of the CD133 stem cell marker . These markers could be valuable tools towards the development of new strategies of treatment and chemoprevention of skin cancer by natural compounds.
Several miRNAs associated with different clinical-pathological characteristics of tumors such as stemness, invasion and chemoresistance are involved in sustaining an inflammatory microenvironment that favors neoplasia and CSCs. In addition, some studies have reported a correlation between miRNA expression and development of tumor . Particularly, many research groups have shown that miR-200b functionally acts as a tumor suppressor by inhibiting cancer cell proliferation and migration by inhibiting the EMT process in a wide range of human malignances [28,50-52]. It has been identified that miR-200b is greatly reduced in melanomas [26,53,54].
miR-200b was further investigated in this project for its potential role in migration and proliferation of melanoma and CSCs. A metastatic melanoma cell line model was used to overexpress miR-200b. In our study, we investigated the role of PEBP on tumor suppressor miR-200b, which is known to reduce metastasis and tumor proliferation . We found that miR-200b was significantly upregulated (~4.3 fold) by PEBP compared to the control. This result suggests that PEBP influences the expression of miR-200b by upregulating miR-200b. As melanoma progresses, miR-200b levels decrease. Therefore, the overexpression of miR-200b can revert the melanoma models to have a less aggressive phenotype (Fig. 4A). miR-200b showed a modest increase in cells transfected with a mimic (Fig. 4B). This could be due to the relatively high endogenous expression of miR-200b. Our results indicate that miR-200b expression upregulated by PEBP might provide useful information in the evaluation prognosis for melanoma patients.
An important relationship between miR-200b, ZEB1 and E-cadherin is well established in the literature [24,51,52,56]. miR-200b suppresses metastasis and migration by targeting some protein pathways such as ZEB1/2 in a variety of different cellular contexts. Therefore, we analyzed protein from the transfected B16F10 cells. Our results showed an inverse relationship between the expression of miR-200b and ZEB1 in B16F10. The expression of ZEB1 was significantly down regulated by over expression miR-200b (Fig. 8). Since miR-200b reduced the expression of ZEB1, we speculated that this might enhance E-cadherin expression in B16F10, resulting in tumor malignancy suppression . These data collectively suggest that miR-200b regulates the EMT in skin cancer cells and CSCs, and this might be a novel way of reversing tumor progression.
In conclusion, in the present study, we found that treatment of B16F10 cells with PEBP resulted in the suppression or loss of ZEB1 (Fig. 8), which suggests that PEBP has the ability to reverse the EMT process in B16F10 cells. This may be one of the possible mechanisms through which PEBP reduce the invasiveness of B16F10 cells, thereby inhibiting their invasion, which help to reduce the metastasis. This study demonstrated that PEBP has a strong relationship with miR-200b pathways in different biological settings and that it could possibly target ZEB1 protein through miR-200b in B16F10 cell line. To sum up all our data, PEBP was shown to effectivelly target CSC which making it an interesting natural product for further studies.
This research project is financially supported by the Canadian Institutes of Health Research (CIHR) and by a full academic scholarship from the government of Saudi Arabia.
No potential conflicts of interest were disclosed.
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