Background
Tetracyclines (TCNs) have been used in clinical practice as antibiotics in various bacterial, mycoplasma, chlamydiae, rickettsiae and protozoan infections since more than 5 decades
Apoptosis is the mechanism by which chemotherapeutic agents induce cancer cell death
Methods
Cell line
The human colorectal cancer cell line, HT 29 (purchased from ECACC) was used in experiments. The HT 29 cells were maintained in McCoy 5A media supplemented with 10% fetal bovine serum, penicillin (50 units/ml) and streptomycin (50 units/ml) at 37°C in a humidified atmosphere with 95% air and 5% CO2.
Chemical reagents
Cisplatin (Bristol-Myers Squibb, UK), oxaliplatin (Sanofi-Synthelabo, UK) and doxycycline (Alpharma, UK) were used in these experiments. 50 μM of cisplatin and oxaliplatin were used (LD50 obtained from our preliminary study). Doxycycline was used in 10 μg/ml dose (dose obtained from our preliminary data from the dose response study of doxycycline).
Reverse transcription and polymerase chain reaction
2 × 104 cells/ml HT 29 cells were plated in 6 well plates for 24 hours for cellular attachments followed by treatment with 50 μM of cisplatin or oxaliplatin with or without 10 μg/ml of doxycycline. After 1, 4 and 24 hours of treatment the cells were trypsinized and cell pellets were used for RNA extraction with RNeasy minikit (Qiagen, UK) according to manufacturer's instructions. The extracted RNA was used for reverse transcription and polymerase chain reaction (RT-PCR) for GAPDH (as control) and caspase 3 gene expressions with One-Step RT-PCR kit (Qiagen, UK) according to manufacturer's instructions. The primers used are – GAPDH Forward – 5'-AACTTTGGCATTGTGGAAGG-3' Reverse 5'-GGAGACAACCTGGTCCTCAG-3' and Caspase-3 Forward -5'-TGTCATCTCGCTCTGGTACG-3' Reverse -5'-AAATGACCCCTTCATCACCA-3'
The experiments were repeated three times. In all the experiments, doxycycline refers to the doxycycline treatment alone for 24 hours.
Gel electrophoresis
The RT-PCR products were resolved in 2% agarose gel and electrophoresis was performed at 80 mV and 400 mA for 60 minutes. The gel stained with ethidium bromide was visualised under ultraviolet light and band width was measured by Synogene software programme. The experiments were repeated for three times independently.
Real time polymerase chain reaction
The HT 29 cells were treated as per reverse transcription and the cells were trypsinized and cell pellets were used for RNA extraction with RNeasy minikit (Qiagen, UK) according to manufacturer's instructions. The caspase 3 and β actin (as standard) genes expression was determined using two steps. The first step of reverse transcription was performed with the Omniscript RT Kit (Qiagen, UK) according to manufacturer's instructions and the real time PCR was performed with Roche Molecular Lightcycler, UK. The experiment was repeated three times independently.
Caspase 3 activity
2 × 104 cells/ml HT 29 cells were plated in 6 well plates for 24 hours for cellular attachments followed by treatment with 50 μM of cisplatin or oxaliplatin with or without 10 μg/ml of doxycycline. After 1, 4 and 24 hours of treatment, the cell pellets were collected through trypsinisation and caspase 3 activity was determined with Fluorometric Caspase 3 activity assay kit (R&D Systems, UK) according to manufacturer's instructions. The experiment was repeated three times independently.
Statistical analysis
The t test was performed with Microsoft Excel, Microsoft Office 2003 for statistical analysis on the Microsoft XP system. The p value of < 0.05 was considered as statistical significant.
Results
RT PCR and gel electrophoresis
The gel electrophoresis revealed presence of GAPDH amplicons in all the cell samples including control suggesting equal loading as an initial control (figure
Gel electrophoresis of GAPDH amplicons
Gel electrophoresis of GAPDH amplicons. The upper part reveals qualitative assessment of GAPDH gene expression while lower part shows quantitative assessment in different cell samples. (CON = Control, DOC = Doxycycline, CIS = Cisplatin, CD = Cisplatin and Doxycycline, OXA = Oxaliplatin, OD = Oxaliplatin and Doxycycline). The data are depicted as means of three experiments ± standard deviation.
Gel electrophoresis of Caspase 3 RT PCR products in HT 29 cells treated with cisplatin or oxaliplatin with or without doxycycline
Gel electrophoresis of Caspase 3 RT PCR products in HT 29 cells treated with cisplatin or oxaliplatin with or without doxycycline. The upper part reveals qualitative assessment of caspase 3 gene expression while lower part shows quantitative assessment in different cell samples. (NC = Negative control, Con = CON = Positive control, Dox = DOX = Doxycycline treatment for 24 hours, C(CIS)1; C4; C24 = Cisplatin treatment for 1, 4 and 24 hours respectively, cd(CD)1; cd4; cd24 = Cisplatin and Doxycycline treatment for 1, 4 and 24 hours respectively, O(OXA)1; O4; O24 = Oxaliplatin treatment for 1, 4 and 24 hours respectively, od(OD)1; od4; 0d24 = Oxaliplatin and Doxycycline treatment for 1, 4 and 24 hours respectively, * – Statistically significant difference). The data are depicted as means of three experiments ± standard deviation.
Real time PCR for Caspase 3 gene expression
The two step real time PCR results revealed that the caspase 3 transcripts increased in the time dependent manner in the HT 29 colorectal cancer cells treated with cisplatin and oxaliplatin but caspase 3 transcripts levels decreased in the time dependent manner in the cells treated with cisplatin and oxaliplatin with doxycycline (p = 0.01 and p = 0.005) (figure
Quantitative presentation of the real-time PCR of caspase 3 gene expression in HT 29 cells
Quantitative presentation of the real-time PCR of caspase 3 gene expression in HT 29 cells. The HT 29 colorectal cancer cells were treated with cisplatin and oxaliplatin for 24 hours with or without doxycycline. The caspase 3 gene expression was measured in 2 steps; reverse transcription and real time PCR. (CON = Control, Dox = DOX = Doxycycline treatment for 24 hours, CIS1; 4; 24 = Cisplatin treatment for 1, 4 and 24 hours respectively, CD 1; 4; 24 = Cisplatin and Doxycycline treatment for 1, 4 and 24 hours respectively, OXA 1; 4; 24 = Oxaliplatin treatment for 1, 4 and 24 hours respectively, OD 1; 4; 24 = Oxaliplatin and Doxycycline treatment for 1, 4 and 24 hours respectively, **, * – Statistically significant difference). The data are depicted as means of three experiments ± standard deviation.
Caspase 3 activity
Caspase 3 activity studies reported time dependent increase in the activity levels in HT 29 cells treated with cisplatin and oxaliplatin. Doxycycline also showed increased caspase 3 activity compared to control (p = 0.034) (additional file
Doxycyclin sup 1. Microsoft office file showing Cytotoxicity of cisplatin with or without doxycycline in HT 29 cells. The HT 29 cells were treated with different concentrations of cisplatin (0 – 1000 M) with or without 10 μg/ml of doxycycline for 24 hours and the cytotoxicity assay was performed with Alamar blue assay according to the manufacturer's instructions.(● – cisplatin, ■ – cisplatin and doxycycline,). Data are depicted as means of three experiments ± standard deviation. (
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Discussion
Colorectal cancer constitutes the third most common cancer and the second leading cause of cancer deaths in UK. About one in 20 men develops colorectal cancer in their lifetime (Cancer Research UK 2005, Cancer Stats). Apart from surgical intervention and radiotherapy, chemotherapy plays crucial role in the management of colorectal cancers. The main reasons for the mortality from colorectal cancers are metastases or recurrence of the disease. Recently, doxycycline has been reported to have cytotoxic and anti-proliferative actions on various cancer cells
Caspases are the cysteine proteases which are crucial for the process of apoptosis. Caspase 3 is one of the effector caspases in the apoptosis cascade. It is activated from procaspase 3 through intrinsic as well as extrinsic pathways and results in cell death. Increased caspase 3 gene expression or activity is considered as one of the hall mark of the apoptosis induction. We studied caspase 3 gene expression and activity levels to assess any synergic/additive impact of doxycycline on the effects of cisplatin and oxaliplatin. From the review of literature, it was concluded to use sub lethal dose of 10 μg/ml of doxycycline in these experiments, a level that has been reported in the gingival fluid following a systemic dose of doxycycline, and has been shown to arrest G0/G1cell cycle in HT 29 cells. The caspase 3 gene expression revealed a time dependent increase of expression in the cells treated with cisplatin and oxaliplatin but there was time dependent decrease in caspase 3 transcripts in the cells treated with combination of drugs (figure
As mentioned earlier, Onoda et al were the only one who reported the impact of combination of doxycycline and cyclooxygenase-2 inhibitor in colorectal cancer cells
Quantitative presentation of caspase 3 activity in HT 29 cells
Quantitative presentation of caspase 3 activity in HT 29 cells. The HT 29 colorectal cancer cells were treated with cisplatin or oxaliplatin with or without doxycycline and caspase 3 activity was measured. (Con = CON = Positive control, Dox = DOX = Doxycycline treatment for 24 hours, C1; C4; C24 = Cisplatin treatment for 1, 4 and 24 hours respectively, CD1; CD4; CD24 = Cisplatin and Doxycycline treatment for 1, 4 and 24 hours respectively, O1; O4; O24 = Oxaliplatin treatment for 1, 4 and 24 hours respectively, OD1; OD4; 0D24 = Oxaliplatin and Doxycycline treatment for 1, 4 and 24 hours respectively. *, **, *** – Statically significant difference). The data are depicted as means of three experiments ± standard deviation.
To clarify the impact of caspase 3 mediated apoptosis in the cytotoxic effects of doxycycline alone as well as in combination with platinum compounds, a general cell viability assay was considered appropriate. In our preliminary study, Alamar blue assay was used for cell viability study. This cytotoxicity assay revealed statistically no difference in the cytotoxicity of platinum compounds compared to the combination of doxycycline with platinum compounds (additional files
Doxycyclin sup 2. Microsoft office file showing Cytotoxicity of oxaliplatin with or without doxycycline in HT 29 cells. The HT 29 cells were treated with different concentrations of oxaliplatin (0 – 1000 M) with or without 10 μg/ml of doxycycline for 24 hours and the cytotoxicity assay was performed with Alamar blue assay according to the manufacturer's instructions.(● – oxaliplatin, ■ – oxaliplatin and doxycycline,). Data are depicted as means of three experiments ± standard deviation. (
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These findings have raised new questions about the role of doxycycline. It is possible that doxycycline may not have any synergistic actions with platinum compounds and may work on its own as cytotoxic, anti-proliferating or anti-invasive agent or doxycycline may have caspase-independent actions, especially in combination with platinum compounds. The advantages of doxycycline over other tetracyclines are its longer duration of action and comparatively less toxicity and thus may be considered as a potential candidate in future for cancer chemotherapy on its own or in combination with other agents, however to clarify the exact role of doxycycline alone as well as in combination with other agents and to underpin its mechanisms of actions, further study needs to be done.
The other key finding of this study was the similar findings obtained by caspase 3 gene expression and caspase 3 activity studies. We suggested similar efficacy of caspase 3 gene expression study and caspase 3 activity studies. The caspase 3 gene expression assay is expensive and more complex procedure compared to caspase 3 activity assays and thus we recommend the caspase 3 activity assay rather than caspase 3 gene expression study as cost effective procedure for future studies. We concluded that doxycycline may be useful as an apoptotic agent; however its role in combination with other chemotherapeutic agents needs to be clarified by further studies. These findings have opened the new avenues of further research.
Conclusion
We conclude that doxycycline has role in apoptosis induction in colorectal cancer cells, possibly via caspase 3 activation, however in combination with platinum compounds; it did not show any synergic or additive effects. This study also suggests possible role of caspase-independent mechanisms of doxycycline when combined with platinum compounds. Further study needs to be carried out to outline the exact mechanisms of actions of doxycycline alone as well as in combination. We also recommend use of caspase 3 activity assay compared to more complex and more expensive caspase 3 gene expression study for caspase studies.
Competing interests
The authors declare that they have no competing interests.
Authors' contributions
JS was the main author and contributed in the all aspects of this work including preparation of manuscript. KS contributed in cell culture work. SD contributed in caspase gene expression studies. JWT contributed in caspase activity studies. MW contributed in the form of supervision and guidance and helped in preparation of manuscript. AS contributed to the preparation of the manuscript. All authors have read and agreed for the submission of this manuscript.
Authors' note
The methodology for Alamar blue assay has not been include in the methods section as it was part of the preliminary experiments, however if required please do not hesitate to contact the author.