Measuring Cytotoxicity in HepG2 Cells

Measuring Cytotoxicity in HepG2 CellsMeasuring cytotoxicity in HepG2 cells treated with cisplatin or 5-fluorouracil, via flow cytometry as a measure of posture of the drugs at treating crabby personIntroductionCytotoxicity is the quality of being toxic to cells, resulting in cell death (Rang et al. 2012). In the majority of therapeutics cytotoxicity is not a desirable characteristic. However, in the treatment of crab louse many chemotherapy drugs, through cytotoxicity are designed to selectively induce apoptosis, a form of cell death (Rang et al. 2012).There are ternary main forms of cell death, these are apoptosis, autophagy and necrosis.Apoptosis is the physiological process by which cells are destroyed in a controlled manner (Elto a greater extent 2007). There are four basic locomote involved the first is cell shrinkage, blebs begin to form and condensation of chromatin occurs. Next, membrane blebbing occurs and enzymes begin the process of nuclear fragmentation. In the late poses of apoptosis, the cell is baffled down into apoptotic bodies which contain the cells components and nuclear fragments. The final stage is the phagocytosis of apoptotic bodies (Ulukaya et al. 2011).One of the main ways in which phagocytes recognise apoptotic cells is the presentation of phosphatidylserine (PS). Ordinarily, this phospholipid is found on the inner brochure of the membrane bilayer, during apoptosis it translocates to the outer leaflet and binds to a PS receptor present on the phagocyte (Wu et al. 2006).In autophagy, targeted components such as organelles are quarantined in an autophagosome a form of vesicle with a lipid bilayer membrane. These autophagosomes are degraded by lysosomes (Kroemer, G et al. 2009).Necrosis is often thought of as ungoverned cell death. However, there is an increasing amount of evidence that suggests it is regulated by transduction pathways and other mechanisms (Kroemer, G et al. 2009). It is caused by factors such as trauma, infect ion and toxins. It is characterised by the pompousness of cells which causes the cell membrane to rupture, resulting in the release of intracellular components. These intracellular components can trigger a local inflammatory response. In contrast to apoptosis, the phagocytic stage does not occur in necrosis (Golstein, Pierre and Kroemer, Guido 2007). As a result, dead cells and their intracellular components remain at the site of necrosis, this build-up of debris may film to conditions such as gangrene. Due to its detrimental effects, its preferential that necrosis is not produced by therapeutics.Cisplatin and 5-fluorouracil are chemotherapy agents, which twain cause apoptosis by engaged with DNA via its replication and repair. Cisplatin crosslinks with purine bases in DNA which interferes with DNA repair mechanisms, this means that DNA damage is not fixed triggering apoptosis (Dasari and Bernard Tchounwou 2014). 5-flurouracil is an antimetabolite, it is metabolised into 5-fluor odeoxyuridine monophosphate (5-FdUMP) which is then incorporated into some(prenominal) DNA and RNA and similarly inhibits thymidilate synthase (Parker and Stivers 2011).HepG2 cells are derived from the hepatocellular carcinoma cells of a 15 year old, American, Caucasian, male and are epithelial in nature. They are commonly used as an in vitro model of human hepatocellular carcinoma (Costantini et al. 2013).Flow cytometry is a powerful tool that allows for the rapid several(predicate)iation and characterisation of particles including cells. A flow cytometer is made up of three main components fluidics, optics and electronics. When a sample is injected into a flow cytometer, the fluidics system is responsible for producing a stream of single particles, this relies on the principle of laminar flow. This allows the particles to be interrogated by the laser beam individually. When a particle passes through the laser beam it scatters light. The amount of forward scatter is relative to the size of the cell. The side scatter is proportional to the complexity of the cell. If a fluorophore is present, it can be excited by a specific wavelength of light. It will then undergo a Stokes shift and a different wavelength of light will be emitted which can be deliberate by the electronics of the flow cytometer (Macey 2007, Maxwell and Hannon-Fletcher 2009). The fluorophore can be conjugated with proteins such as annexin V which have a known highschool affinity to specific molecules present on the cell surface.Annexin V is a 35.7kDa, calcium sensitive, phospholipid binding protein. It has a high affinity to phosphatidylserine. The binding of fluorophore labelled annexin V is used as a common measure of apoptotic cells by flow cytometry (van Genderen et al. 2008).AimsTo measure the effectiveness of two anti-cancer drugs by measuring the level of apoptosis in a population of HepG2 cells after being treated with cisplatin (15g/mL) or 5-fluorouracil (25g/mL) for 48 hours and compare those to a population of untreated cells via flow cytometry.ObjectivesTo count and fix a population of HepG2 cells before staining them with glowntly labelled Annexin V in preparation for analysis utilise a flow cytometer.To measure the level of fluorescence in 5000 treated and untreated cells using a flow cytometer as well as measuring the token(prenominal) and maximal fluorescence in a negative and positive control.Based on the fact the fluorescence is presently proportional to apoptosis determine which treatment is significantly unwrap and provide evidence from the literature as to why this is the case.MethodsPlease refer to laboratory schedule (Hatch 2014). Following the collection of data descriptive statistics and a unidirectional ANOVA test were carried out the results of which can be found in the appendix.ResultsThe negative control was used to identify if there was any background fluorescence. In table 1 (found in the appendix) the mean fluorescence for the ne gative control was 144. Therefore, fluorescence that is significantly higher(prenominal) than this level can be attributed to the excitation of the fluorophore (Alexa 488).Figure 1 Cytotoxicity of HepG2 cells measured as fluorescence using flow cytometry. The bars are means of triplicates, the standard error has been used for the error bars. *statistically significant compared to control (blue for negative, red for positive), pIn figure 1, a greater level of fluorescence was seen for the samples treated with cisplatin and 5-fluorouracil compared to that of the untreated sample. Cisplatin produced the greatest level of fluorescence of the two treated samples.DiscussionThe data used was a class set, some of the data provided was produced by those operatening the laboratory session as some samples did not contain a pellet which was needed to run the flow cytometry analysis.The five sets of data were compared with one another, it was found that the differences were statistically signif icant (pAs mentioned in results, cisplatin showed a greater mean fluorescence compared to 5-fluorouracil, Results were 726 and 540 respectively. Seeing as fluorescence is directly proportional to phosphotidylserine expression, which in turn is a direct measure of apoptosis. It can be assumed that cisplatin produced the highest level of apoptosis and is most cytotoxic to HepG2 cells. Although a higher concentration of the drugs were used (150g/mL) this result has also been seen in the literature (Brenes et al. 2007).Although it was not stained with annexin V, the negative control showed a mean fluorescence of 144 this is receivable to auto fluorescence of the cells. The fluorophore which was conjugated with annexin V was Alexa 488. It fluoresces at a wavelength of 488nm, this is within the green part of the spectrum.It is well documented that molecules found within all cells, including hepatocytes also fluoresce at a green wavelength, the most notable of these are flavins which fluo resce at around 560nm (Croce, Anna Cleta et al. 2007, Croce, Anna C et al. 2014). FAD (flavin adenine dinucleotide) is an example of a flavin and is a redox cofactor used in metabolism. HepG2 cells are a liver carcinoma cell line. Due to their cancerous nature there would be a high level of metabolism within these cells and hence, a high level of FAD.The low level of fluorescence seen in the untreated sample is expected as there should be no apoptosis induced by cytotoxicity. Therefore, it is not surprising that the difference betwixt the fluorescence of the untreated sample and the negative control and the treated samples is less statistically significant.In this experiment, only one stain was used in this experiment (Annexin V), this allows for the identification of cells that are cytotoxic. To evaluate the true effectiveness of a chemotherapy drug, the cell viability and necrosis is also needed. Necrosis and late stage apoptosis can be measured using propidium iodide (PI). PI bi nds to nucleic acids and is impermeable to intact membranes, it is often used in conspiracy with annexin V as it fluoresces red and there is little overlap between the wavelengths of red and green light. Therefore, compensation is not needed after flow cytometry has been carried out.It has been discovered in the literature that the cytotoxicity of 5-fluorouracil is dependent on twain dose and exposure time (Okamura et al. 2008). We only looked at one dose and exposure time for both drugs. It has also been observed that the use of cisplatin in combination with 5-fluorouracil or other chemotherapy drugs has a synergistic and additive effect in hepatoma cell lines (Kogure et al. 2004), both of these could be investigated further is the experiment were carried out again.ConclusionIn conclusion, cisplatin was shown to produce a higher level of apoptosis in HepG2 cells than 5-fluorouracil. However, to fully evaluate the effectiveness of an anti-cancer agent, measures of viability and n ecrosis are also needed.The differences between the two drugs may be due to the different mechanisms by which the drugs work. The introduction of 5-dUMP into DNA and RNA is a more subtle mechanism compared to the cross-linking of DNA via cis-platin. This cross-linking may be detected by cells more readily resulting in higher levels of apoptosis. As HepG2 cells were used, these results may only be the case for hepatocellular carcinomas.ReferencesBrenes, O., Arce, F., Gtjens-Boniche, O., and Daz, C. (2007) Characterization of Cell expiration Events Induced by Anti-Neoplastic Drugs Cisplatin, Paclitaxel and 5-Fluorouracil on Human Hepatoma Cell Lines Possible Mechanisms of Cell Resistance. Biomedicine pharmacotherapy = Biomdecine pharmacothrapie 61 (6), 34755Costantini, S., Di Bernardo, G., Cammarota, M., Castello, G., and Colonna, G. (2013) Gene Expression Signature of Human HepG2 Cell Line. Gene 518 (2), 33545Croce, A.C., Ferrigno, A., Santin, G., Piccolini, V.M., Bottiroli, G., a nd Vairetti, M. (2014) Autofluorescence of Liver Tissue and Bile Organ Functionality Monitoring during Ischemia and Reoxygenation. Lasers in surgery and medicine 46 (5), 41221Croce, A.C., De Simone, U., Vairetti, M., Ferrigno, A., and Bottiroli, G. (2007) Autofluorescence Properties of Rat Liver under Hypermetabolic Conditions. Photochemical photobiological sciences Official journal of the European Photochemistry Association and the European Society for Photobiology 6 (11), 12029Dasari, S. and Bernard Tchounwou, P. (2014) Cisplatin in Cancer Therapy Molecular Mechanisms of Action. European journal of pharmacology 740, 364378Elmore, S. (2007) Apoptosis A Review of Programmed Cell Death. Toxicologic pathology 35 (4), 495516Van Genderen, H.O., Kenis, H., Hofstra, L., Narula, J., and Reutelingsperger, C.P.M. (2008) extracellular Annexin A5 Functions of Phosphatidylserine-Binding and Two-Dimensional Crystallization. Biochimica et biophysica acta 1783 (6), 95363Golstein, P. and Kroemer, G. (2007) Cell Death by Necrosis Towards a Molecular Definition. Trends in biochemical sciences 32 (1), 3743Hatch, E. (2014) M19BMS Laboratory memorial. Coventry UniversityKogure, T., Ueno, Y., Iwasaki, T., and Shimosegawa, T. (2004) The Efficacy of the Combination Therapy of 5-Fluorouracil, Cisplatin and Leucovorin for Hepatocellular Carcinoma and Its Predictable Factors. Cancer chemotherapy and pharmacology 53 (4), 296304Kroemer, G., Galluzzi, L., Vandenabeele, P., Abrams, J., Alnemri, E.S., Baehrecke, E.H., Blagosklonny, M. V, El-Deiry, W.S., Golstein, P., Green, D.R., Hengartner, M., Knight, R.A., Kumar, S., Lipton, S.A., Malorni, W., Nuez, G., Peter, M.E., Tschopp, J., Yuan, J., Piacentini, M., Zhivotovsky, B., and Melino, G. (2009) Classification of Cell Death Recommendations of the Nomenclature Committee on Cell Death 2009. Cell death and differentiation 16 (1), 311Macey, M.G. (2007) Flow Cytometry Principles and Applications. ed. by Macey, M.G. Humana Press, IncMaxwell, P. and Hannon-Fletcher, M. (2009) Advanced Techniques in Diagnostic Cellular Pathology. in Advanced Techniques in Diagnostic Cellular Pathology. Hoboken Wiley, 6997Okamura, M., Shimada, J., and Sakagami, H. (2008) Comparative Analysis of Cell Death Induction by Cisplatin and 5-FU in Human Oral Squamous and Hepatocellular Carcinoma Cell Lines. antitumour research 260, 253259Parker, J.B. and Stivers, J.T. (2011) Dynamics of Uracil and 5-Fluorouracil in DNA. Biochemistry 50 (5), 6127Rang, H., Dale, M., Ritter, M., Flower, R., and Henderson, G.. (2012) Anticancer Drugs. in Rang and Dales Pharmacology. 7th edn. Elesevier, 676677Ulukaya, E., Acilan, C., and Yilmaz, Y. (2011) Apoptosis Why and How Does It Occur in biota?. Cell biochemistry and function 29 (6), 46880Wu, Y., Tibrewal, N., and Birge, R.B. (2006) Phosphatidylserine Recognition by Phagocytes A View to a Kill. Trends in cell biology 16 (4), 18997 additionTable 1 Table showing mean fluorescence for each sample where 1.00 represents the negative control, 2.00 represents the positive control, 3.00 the untreated sample, 4.00 the sample treated with cisplatin, 5.00 with 5-fluorouracilN nastyStd. divagationStd. Error95% office Interval for MeanMinimumMaximumLower BoundUpper Bound1.003144.333311.930356.88799114.6967173.9700136.00158.002.0031866.666732.6547618.853231785.54771947.78561836.001901.003.003214.333310.598746.11919188.0046240.6621203.00224.004.003864.000020.2237511.67619813.7614914.2386849.00887.005.003540.666751.9358629.98518411.6508669.6825484.00586.00Total15726.0000647.67772167.22967367.32801084.6720136.001901.00Table 2 Descriptive statistics where 1.00 is the negative control, 2.00 is the positive control, 3.00 is the untreated sample, 4.00 is the sample treated with cisplatin and 5.00 is the sample treated with 5-fluorouracil.NMeanStd. DeviationStd. Error95% Confidence Interval for MeanMinimumMaximumLower BoundUpper Bound1.003144.333311.930356.88799114.6967173.9700136.00158.002.0031866.666732.654761 8.853231785.54771947.78561836.001901.003.003214.333310.598746.11919188.0046240.6621203.00224.004.003864.000020.2237511.67619813.7614914.2386849.00887.005.003540.666751.9358629.98518411.6508669.6825484.00586.00Total15726.0000647.67772167.22967367.32801084.6720136.001901.00Table 3 ANOVA analysis carried out on the dataSum of SquaresdfMean SquareFSig.Between Groups5863955.33341465988.8331655.612.000Within Groups8854.66710885.467Total5872810.00014Table 4 Ad-hoc test Tukeys range tests and LSD showing statistical significance between groups. All differences between groups are statistically significant (pMultiple ComparisonsDependent Variable Fluorescence(I) Treatment(J) TreatmentMean Difference (I-J)Std. ErrorSig.95% Confidence IntervalLower BoundUpper BoundTukey HSD1.002.00-1722.33333*24.29632.000-1802.2945-1642.37223.00-70.0000024.29632.094-149.96129.96124.00-719.66667*24.29632.000-799.6278-639.70555.00-396.33333*24.29632.000-476.2945-316.37222.001.001722.33333*24.29632.0001642.3722180 2.29453.001652.33333*24.29632.0001572.37221732.29454.001002.66667*24.29632.000922.70551082.62785.001326.00000*24.29632.0001246.03881405.96123.001.0070.0000024.29632.094-9.9612149.96122.00-1652.33333*24.29632.000-1732.2945-1572.37224.00-649.66667*24.29632.000-729.6278-569.70555.00-326.33333*24.29632.000-406.2945-246.37224.001.00719.66667*24.29632.000639.7055799.62782.00-1002.66667*24.29632.000-1082.6278-922.70553.00649.66667*24.29632.000569.7055729.62785.00323.33333*24.29632.000243.3722403.29455.001.00396.33333*24.29632.000316.3722476.29452.00-1326.00000*24.29632.000-1405.9612-1246.03883.00326.33333*24.29632.000246.3722406.29454.00-323.33333*24.29632.000-403.2945-243.3722LSD1.002.00-1722.33333*24.29632.000-1776.4689-1668.19783.00-70.00000*24.29632.016-124.1356-15.86444.00-719.66667*24.29632.000-773.8022-665.53115.00-396.33333*24.29632.000-450.4689-342.19782.001.001722.33333*24.29632.0001668.19781776.46893.001652.33333*24.29632.0001598.19781706.46894.001002.66667*24.29632.000948.53111 056.80225.001326.00000*24.29632.0001271.86441380.13563.001.0070.00000*24.29632.01615.8644124.13562.00-1652.33333*24.29632.000-1706.4689-1598.19784.00-649.66667*24.29632.000-703.8022-595.53115.00-326.33333*24.29632.000-380.4689-272.19784.001.00719.66667*24.29632.000665.5311773.80222.00-1002.66667*24.29632.000-1056.8022-948.53113.00649.66667*24.29632.000595.5311703.80225.00323.33333*24.29632.000269.1978377.46895.001.00396.33333*24.29632.000342.1978450.46892.00-1326.00000*24.29632.000-1380.1356-1271.86443.00326.33333*24.29632.000272.1978380.46894.00-323.33333*24.29632.000-377.4689-269.1978*. The mean difference is significant at the 0.05 level.