Role of PI3K/Akt pathway in Benzidine-induced proliferation in SV-40 immortalized human uroepithelial cell.

BACKGROUND: Long term exposure to benzidine has been determined as a cause of urothelial carcinoma. But how it works in the process of cell proliferation that involves in tumor growth is not examined yet. In the current research, the effect of PI3K/Akt on cell proliferation mediated by benzidine was confirmed.
METHODS: The immortalized SV-40 human uroepithelial cells (SV-HUC-1) had been subjected to 6 days of benzidine treatment at various contents, then MTT assay, together with subsequent flow cytometry assay were used for observing effects on cell proliferation. Further Western blots were used to detect the expression of total-Akt, phospho-Akt and specific proteins of cell cycle. The Akt, Cyclin D1, PCNA and P21 mRNA levels were detected through RT-PCR. In addition, the blocker-LY294002 was used to cut down the PI3K/Akt signaling pathway. And then those parameters were detected using the same methods as above.
RESULTS: Results showed that benzidine acted to induce cell proliferation at low doses (P<0.05 vs. controls) via MTT and flow cytometry assay. The expression of phospho-Akt, Cyclin D1, and PCNA were significantly enhanced compared with that of control (P<0.05; P<0.01), but total-Akt and P21 levels were reduced. Whereas, inhibitor of PI3K/Akt suppressed the proliferating procedure when cells were treated with the blocker (LY294002) and also inhibited the expression of related cycle proteins.
CONCLUSIONS: Activated PI3K/Akt signal pathway promotes benzidine-triggered cell proliferation. It may shed light on the molecular mechanisms that the activated PI3K/Akt pathway promotes benzidine-triggered cell proliferation and intervention of its target. 2019 Translational Cancer Research. All rights reserved.

Introduction

Bladder cancer has been recognized as the frequently-seen tumor in urinary track worldwide. Statistic showed that there were 72,570 new cases of bladder cancer in 2013, accounts for 51.68% of the urinary system, increased to 74,000 cases at the ratio of 53.35%, and resulted in 16,000 death in 2015 in the Unite State alone (1,2). Epidemiology of bladder cancer indicated that occupational exposures, cigarette smoking, arsenic, some medications, and genetic variation are the major risk factors associated with the disease, and aromatic amine is the notable risk factor of bladder cancer development. Benzidine (BZ) is a kind of aromatic amine, which is divided as definite human carcinogen according to the International Agency for Research on Cancer (IARC), among them, urinary bladder cancer has been the frequently-occurring cancer type caused by exposure to it (3,4). BZ can be found from rubber industry, chemical dye, fungicides, hair dyes, cigarette smoke, discharge of industrial pollutants, diet and automobile exhaust (5,6). According to prior research, food dyes (including yellow 6, yellow 5, and red 40) have been found to be contaminated with BZ or other carcinogens (7). So BZ continues to be a risk factor of public health.

Previously, the epidemiology of BZ has been extensively investigated, but little research has been conducted to research how BZ leads to bladder tumor. Our previous study has showed that BZ could meditate the epithelial-mesenchymal transition (EMT) among SV-40 human uroepithelial cells (SV-HUC-1) via ERK1/2 signaling (8). However, there were few researches designed to explore the effect and mechanism of BZ-induced cell proliferation. As we all know, cancer should escape the regulation over normal cell cycle for its development; besides, it should obtain the immortalized cell proliferation ability, proliferation capacity without any suitable signals, as well as the ability to neglect the proliferation suppression, while apoptosis induction-related signals. Therefore, we try to characterize the possible carcinogenic mechanism via BZ-induced cell proliferation.

PI3K/Akt pathway is an intracellular signaling pathway, which exerts a vital part in multiple biological processes like invasion, proliferation, and metastasis of cells, as well as progression of the cell cycle (9-11). Being a leading effector in the downstream of G protein-coupled receptors and the receptor tyrosine kinases (RTK), PI3K can transduce signals derived from a variety of cytokines and growth factors as the intracellular messages through producing phospholipids, thereby activating the downstream effectors, such as Akt (12). The activated Akt can result in translation of proteins and progression of cell cycle (13) and could phosphorylate and disable glycogen synthase kinase 3β (GSK3β), which leads to the up-regulation of Myc and cyclin D1 (14). Moreover, activated Akt could inhibit forkhead box O1, thus up-regulating p21 and p27 (15). Overall, the PI3K/Akt pathway mainly functions to promote cell duplication as well as survival, in the meantime of reducing apoptosis and growth suppression (13).

The current research aimed to examine the impact and mechanism by which cell proliferation was meditated by low concentrations of BZ, and the effect of PI3K/Akt on this process. We sought to examine the potential mechanism in cancer genesis caused by BZ.

Methods

Materials

The immortalized SV-HUC-1 was provided by Shanghai Institutes for Biological Sciences, CAS (Shanghai, China). 4, 4ʹ-diaminobiphenyl (BZ, 99.0%, RT), methanol, as well as dimethyl sulfoxide (DMSO), had been provided by Yboiotech (Shanghai, China). In addition, kinase inhibitor (LY294002) was provided by Cell Signaling Technology (Beverly, MA, USA); whereas growth media (namely, the Ham’s F12 medium), fetal bovine serum (FBS), antibiotics, phosphate-buffered saline (PBS), together with trypsin had been provided by HyClone (Logan, UT, USA). Antibodies to total-Akt, phospho-Akt, P21, PCNA and Cyclin D1 had been provided by Cell Signaling Technology. Moreover, the GAPDH antibody had been provided by Biogot Technology (Nanjing, China). In addition, the primers of Akt, Cyclin D1, P21, GAPDH and PCNA had been prepared from Invitrogen (Carlsbad, CA, USA). The sources of other materials were explained within the manuscript accordingly.

Cell culture and treatments

The SV-HUC-1 cell line was grown within the flasks (25 cm2) at 1×105 cells/mL initially, and cultured within the Ham’s F-12 medium supplemented with 100 units/mL penicillin, 10% FBS, as well as 100 units/mL streptomycin in a humid incubator under 37 °C and 5% CO2 conditions for 12 h. Afterwards, cells would be either subjected to BZ exposure at various contents, or LY294002 (10 µmol/L) treatment. The SV-HUC-1 cell line was then subjected to 6 days of stimulation by BZ or inhibitor. Final BZ concentrations would be set at 0, 0.001, 0.005, 0.01, 0.05, as well as 0.1 µmol/L. Each experiment was repeated trice.

MTT assay

The viability of cells was assayed through MTT assay. Briefly, cells would be individually plated into the 96-well plates at 5×104/well during exponential growth phase. After cultured for 12 h, cells would be subjected to culture medium (100 mL) treatment containing 0.1% DMSO as well as different concentrations of BZ (0.0001–200 µmol/L) and got changed every day for 6 days. After 6 days treatment, 10 µL MTT solution (5 mg/mL) would be put into all wells to incubate for another 4 h. Finally, the original medium would be discarded, followed by the addition of 150 mL dimethylsulphoxide into all wells. Afterwards, the absorbance would be measured at 490 nm by the microplate reader.

Analysis of the cell cycle

SV-HUC-1 cell distribution was detected using flow cytometry at various stages during the cell cycle. Generally, cells (2×105) had been inoculated into the 6 cm dishes to culture using the Ham’s F12 medium supplemented with 10% FBS, 100 units/mL streptomycin and 100 units/mL penicillin for 12 h in the humid incubator under 37 °C and 5% CO2 conditions. Then the cells would be treated with BZ at the concentrations of 0.005, 0.01 µM, and equivalent DMSO was used for 6 days of incubation in the control group. Afterwards, cells would be subjected to trypsin digestion, rinsing by cold PBS for twice, and blending with the 70% ethanol overnight under 4 °C; followed by centrifugation and resuspension within PBS (500 µL). Later, 10 µL of 10 mg/mL RNAse was added, and then cells would be allowed for 30 min of standing in dark under 37 °C, followed by 10 µL propidium iodide (1 mg/mL, PI) staining and immediate evaluation through flow cytometry. Cell percentage at every phase in the cell cycle (including G0/G1, G2/M and S) was determined by MULTICYCLE V.3.0, and at least 1× cells were assessed for every sample.

Western blotting

Cells at different BZ contents were homogenized in the lysate buffer (supplemented with 50 mmol/L Tris, 10 µg/mL aprotinin, 5 mmol/L EDTA, 1% NP-40, 1% SDS, 1% Triton-X 100, 10 µg/mL leupeptin, 1 mM PMSF, and 1% sodium deoxycholate, at pH of 7.5), followed by 20 min of centrifugation at 4 °C. Afterwards, protein content would be calculated by the BCA Protein Assay (Pierce, Rockford, IL, USA); 50 mg protein was separated via 7.5–10% SDS-PAGE, followed by transfer onto the PVDF films (Millipore, Billerica, MA, USA). Subsequently, all PVDF films would be mounted by 5% skim milk, incubated using the primary antibody under 4 °C overnight, followed by incubation by the secondary antibody, with GAPDH being utilized to be the loading reference. Afterward, the protein bands would be measured through the Immobilon Western chemiluminescent HRP substrate kit.

Reverse transcription-polymerase chain reaction (RT-PCR)

Total cellular RNA cultured for 6 days at various BZ contents would be separated through RNAiso Plus in accordance with manufacturer protocols (TaKaRa, Japan). Afterwards, the extracted total cellular RNA would be subject to reverse transcription by the Easy RT-PCR kit in accordance with manufacturer instructions. Then, the relative total-Akt, phospho-Akt, Cyclin D1, P21 and PCNA expression was detected through RT-PCR with GAPDH being utilized to be the loading reference. The reaction mixture (20 mL) was comprised of 7.8 mL dH2O, 0.4 mL Rox, 10 mL SYBR premix, as well as 0.4 mL respective forward and reverse primers and 1 mL cDNA sample. The primer sequences of all target genes have been presented in . Every sample was repeated for trice. Specifically, the RT-PCR conditions were as follows: 15 s at 95 °C during the initial denaturation process; and then 10 s 95 °C, 30 s at 60 °C, and 30 s at 72 °C for 40 cycles during amplification and quantification processes. All primers had been prepared from Invitrogen (Carlsbad, CA, USA). mRNA levels of all genes had been normalized relative to the GAPDH level. The gene expression fold change was computed according to the 2−ΔΔCt method.

Table 1

Primer sequences of target genes

Gene name	Primer sequence
Akt	Forward: 5'-GTGCTGGAGGACAATGACTACG-3'
	Reverse: 5'-AGCAGCCCTGAAAGCAAGGA-3'
Cyclin D1	Forward: 5'-CGTGGCCTCTAAGATGAAGG-3'
	Reverse: 5'-TGCGGATGATCTGTTTGTTC-3'
P21	Forward: 5'-GACACCACTGGAGGGTGACT-3'
	Reverse: 5'-CAGGTCCACATGGTCTTCCT-3'
PCNA	Forward: 5'-CTGAAGCCGAAACCAGCTAGACT-3'
	Reverse: 5'-TCGTTGATGAGGTCCTTGAGTGC-3'
GAPDH	Forward: 5'-GCTGCCCAACGCACCGAATA-3'
	Reverse: 5'-GAGTCAACGGATTTGGTCGT-3'

Statistical analysis

The SPSS 17.0 was adopted for all statistical analyses. Each value was presented in the form of mean ± standard deviation. Statistical differences between various groups would be detected through one-way ANOVA and LSD test in sequence. Differences between any two groups would be detected through unpaired student t-test. The statistical significance level was set at **P<0.01 or *P<0.05.

Results

Selecting the proliferation-promoted BZ to SV-HUC-1

The viability of cells would be detected through MTT assay after cell treatments by different concentrations of BZ. The statistics showed that cell viability was higher at the doses from 0.001 to 0.1 µM compared with the control group and had significant difference, while there was no marked significance between doses above 1 µM and control group (). And doses of benzidine higher than 50 µM/L tended to have toxic effect to the cells. Thus, concentrations of BZ for the later experiments were selected at the doses of 0, 0.001, 0.005, 0.01, 0.05, and 0.1 µM.

Figure 1

Detection of the viability of SV-HUC cells following BZ treatment for six days. No significance was detected at extremely low concentration (0.0001 µM) of BZ, while cell viability was improved at the concentration from 0.001 to 0.1 µM and had significance. Moreover, there were no marked significance between doses above 10 µM and control group. *P<0.05 vs. controls.

Cell cycle assessment

The cell cycle changes between treated groups and the control were evaluated with flow cytometry. The outcome indicated that DipG2 + S increased from 33.33% to 52.41%; DipG1 reduced to 47.59% from 66.67% () and the differences had statistical significance. Expression of specific cell cycle markers had been measured, so as to examine the presence/absence of cell cycle molecular alteration in SV-HUC-1 under BZ treatment. Cells exposed to BZ manifested higher PCNA and Cyclin D1 levels, whereas lower P21 level than those of control (). In addition, the PCNA, P21, and Cyclin D1 mRNA expression was evaluated by RT-PCR, and the results manifested decreasing level of P21 and increasing level of PCNA and Cyclin D1 ().

Figure 2

Analysis of cell cycle of BZ-cultured SV-HUC-1 with flow cytometry. (A) BZ induced cell cycle progression. Cells of the control group at DipG2 + S phase increased from 33.33% to 48.29% at the concentration of 0.005 µM and 52.41% at 0.01 µM of BZ treated groups; while cells at DipG1 phase reduced from 66.67% to 51.67%, 47.59%, respectively. (B) Statistical analysis of cell cycle distribution. There difference between control group and treatment groups has significance. Data have been presented in the form of mean ± SD. *P<0.05, #P<0.05 vs. controls.

Figure 3

Detecting cell cycle specific protein markers and their mRNA levels. (A) BZ exposure elevated cyclin D1 and PCNA expression, while down-regulated P21 expression. Relative intensity of the three kinds of protein showed the same change and had significance. (B) BZ upregulated PCNA and cyclin D1 mRNA expression, downregulate P21 mRNA level. The typical image from at least 3 independent experiments has been displayed. Data have been presented in the form of mean ± SD of ≥3 independent experiments under every treatment. *P<0.05, **P<0.01 vs. controls.

BZ activated PI3K/Akt signaling pathway

Total-Akt and phospho-Akt were detected to test whether BZ could activate PI3K/Akt signal pathway. Results show that level of phospho-Akt increased, meanwhile total-Akt was reduced () which indicated that BZ could activate PI3K/Akt pathway. Consistence with the results of Western blots, the mRNA level of Akt was shown in .

Figure 4

Activating the PI3K/Akt signal transduction pathway. (A) Akt pathway has been activated as the total-Akt protein expression was decreased whereas the phospho-Akt was up-regulated, relative intensity of these two proteins showed the same change. (B) BZ induced the enhancement of Akt mRNA level. *P<0.05, **P<0.01 vs. controls.

PI3K/Akt signal pathway was involved in BZ-meditated cell proliferation

The PI3K/Akt inhibitor (LY294002) was used to culture cells treated with BZ to confirm the relation between PI3K/Akt activation and BZ-triggered cell proliferation. Results revealed that the inhibitor could reverse BZ-meditated cell proliferation as manifested by the results of MTT assay of cell viability () and Western blot of P21, Cyclin D1 and pAkt (), and RT-PCR for the P21, Akt, and Cyclin D1 mRNA expression ().

Figure 5

Measurement of relationship between BZ-triggered cell proliferation and the activation of AKT pathway. (A) Detection of cell viability with the usage of PI3K/Akt blocker (LY294002). Cell viability upregulated by BZ was reversed by Akt blocker. (B) After the usage of PI3K/Akt blocker (LY294002), protein expression of Cyclin D1 and pAkt was downregulated, but P21 was upregulated. Relative intensity of the three kinds of protein also showed the same change and had significance. (C) The mRNA level of Akt, Cyclin D1 were downregulated while the mRNA level of P21 was reversed after the application of PI3K/Akt blocker, which has consistence with the results of Western blots. Data have been presented in the form of mean ± SD upon ≥3 independent experiments under every treatment. *P<0.05 vs. controls.

Discussion

Although occupational exposure to amylamine like BZ and aminobiphenyl has been manifested as a high risk of bladder cancer, the mechanism of tumor formation to these carcinogens remains to be completely interpreted. According to our findings, low concentrations of BZ could induce cell proliferation in SV-HUC-1 and first demonstrated for the important effect of the PI3K/Akt signal transduction pathway on the BZ-mediated cell proliferation. These findings may provide critical prove for the mechanism by which BZ induced tumor genesis at molecular level, and contribute to mining the possible interventional target for bladder tumor.

More convincing evidences confirmed that the deregulation of normal cell proliferation pathway is central to cancer initiation (16) and escape from regulation of the cell dividing cycle; besides, the uncontrolled proliferation may exert a vital part in initiating tumor genesis (17). Previous study showed that persistent hyperplasia of epithelial cells, together with squamous metaplasia, is recognized to be the preneoplastic lesion in lung cancer genesis (18). Brait et al. also revealed that exposure to tobacco smoke extract induced proliferation in urothelial cell (19).

To elucidate the possible molecular mechanisms of BZ-induced proliferation, the PI3K/Akt pathway regulating the proliferation process has been investigated in our study. In recent years, the association of the PI3K/Akt pathway with tumorigenesis has been a focus of researchers. Abnormal expression of PI3K/Akt pathway proteins and their regulatory molecules could be detected in several of malignant tumors, and overexpression of Akt or inactivation of negative regulation of PTEN is closely related to the formation of malignant tumor (20,21). Xu et al. revealed that the regulation of PI3K/Akt was involved in PIG3-triggered tumorigenesis in papillary thyroid cancer (22). Zhuo et al. found that the activation of this signaling pathway could suppress apoptosis while promoting the development of pediatric osteosarcoma; besides, dual inhibition of PI3K/mTOR could restrain the proliferation and cause cell apoptosis in Burkitt lymphoma cells (23). There was also study revealed that the PI3K/Akt signaling exerted positive effect on cellular motility and, by extension, invasion, and suppressing the PI3K-mediated signal transduction can remarkably affect the proliferation of glioblastoma cells (24). In agreement with previous reports, our study ascertained that the PI3K/Akt was associated with the regulation of cell viability and proliferation in BZ-cultured SV-HUC-1 cells. Therefore, selective inhibitor of PI3K/Akt may be chose to block this signaling pathway to interfere precancerous lesion and target therapy in treatment of bladder cancer.

Our data also showed abnormal expression of cyclin D1, PCNA and P21, whose encode gene were downstream target genes of the PI3K/Akt. The role of this pathway in regulation of encode gene of three periodical proteins mentioned above was confirmed by treating SV-HUC-1 cells with blocker LY294002. Cyclin D1 is a G1 cyclin and its abnormal expression has intimate relationship with the formation and progress as well as the prognosis of tumor. The upregulation of Cyclin D1 could promote cell proliferation, while downregulation of Cyclin D1 inhibits proliferation (25,26). According to former research, PI3K/Akt participates in regulating Cyclin D1 (27). On the other hand, proliferating cell nuclear antigen (PCNA), one of the nuclear nonhistone proteins, is essential to the synthesis of DNA, which can act as an objective indicator of cell proliferative activity (28,29). Former manifested high expression of PCNA is associated with cancer cell proliferation (30). P21, one of the CKIs during the transition from G1 stage to S stage, has been recognized to be the mediator for the downstream p53 (31). Its upregulation can suppress the G1 cyclin-CDK complex kinase activity, thereby avoiding pRB hyperphosphorylation and suppressing the progression of cell cycle and downregulation of it could meditate the promotion of cell proliferation (32). Consistent with previous studies, our experiments found that BZ could activate Akt pathway, promote cell proliferation, and lead to up-regulated cyclin D1 and PCNA, whereas down-regulated P21, as manifested by outcomes of flow cytometry, RT-PCR and Western blotting. In the meantime, we confirmed the role of PI3K/Akt in BZ induced proliferation as showed by the reversed results after the usage of the PI3K/Akt blocker.

Conclusions

We found that low concentrations of BZ promote the proliferation of cells through the PI3K/Akt pathway. Findings in this study indicate that, the PI3K/Akt signal transduction pathway has played a vital part in the BZ-meditated pathologies, which can also shed more light on the underlying mechanisms of BZ- or aromatic amine compound-induced diseases, including bladder diseases and cancer, at molecular level.