Protocols

Experiments on the application of the comet assay to environmental toxicology

Summary

The comet assay, also known as the single-cell gel electrophoresis assay, is a method used to detect D N A damage in almost all nucleated cells. The comet assay has significant advantages over other genotoxicity detection assays, but it can lead to highly variable results due to its sensitivity to subtle changes in the experiment. The purpose of this chapter is to provide background information and detailed standardized procedures related to the alkaline comet assay in environmental toxicity testing. We will describe the pitfalls associated with the comet assay and the considerations of the procedure, as well as briefly discuss ways to improve the common alkaline comet assay so that it can be better applied to a wide range of situations in the study of environmental toxicology.

By Martin, this experiment is from "Environmental Genomics Experiment Guide".

Operation method

Experiments on the application of the comet assay to environmental toxicology

Move

I. Materials 1. Solution 1.10\不含〇 32+和 ^ % 2+的磷酸盐缓冲液( 卩: 63): 1.31〇1〇 1/1^他〇 1, 50 111111〇 1/1 N a 2H P O 4, 16 m m o l / L K H 2P O 4 o 室温避光储存。用之前稀释至I X ,并 调 p H 至 7. 4。 2. 0 . 7 5 % 琼脂糖: 750 m g 的低熔点琼脂糖( L M P ) , I X P B S (无 Ca2+和 M g 2+)。 在搅拌盘上中火/高火加热揽拌,分 装 I. 〇 m L 入 I.5m L Eppendorf管。储存于 4°C 。在实验当天将含琼脂糖的Eppendorf管放在微波炉内高火加热10X 20 s, 然后置于42°C 加热器或水浴。 3. 1.0%琼脂糖: 1_ O g 的琼脂糖( N M P ) , I O O m L l X P B S (无Ca2+ 和 M g 2+ ) 。 在 搅拌盘上中火/高火加热搅拌,分 取 4.0 m L 人 Falcon管。储存于4°C 。在实验 当天将含琼脂糖的Eppendorf管放在微波炉内高火加热10X 20 s, 然后置于 42°C 加热器或水浴。 4 . 裂解缓冲液( 见注 释 4): 2 .5m ol/L N aC l, 100m m ol/L 乙二胺四乙酸四钠盐 (tetrasodiumEDTA), lO m m ol/L T ris 碱 , 1% 十二焼 基 肌 氨 酸 納 ( n-lauryl sarcosine)。 振荡以消除块状物。缓 慢加人I L 双蒸水并在搅拌器上搅拌。用 NaOH或 H C l调 节 p H 至 10_0。室温避光保存。实验当天在使用缓冲液前 30min加 人 l% Trit〇n X -100至预设体积,放 在 4°C (见下文) 。 5•电泳缓冲液A (见注释5): 0.3 m 〇V L N a O H , 1 0 m m o l /L 乙二胺四乙酸四钠 盐, 0.1% 8-羟基喹啉, 2 % D M S O 。缓慢加入双蒸水并在搅拌器上搅拌。一边 混勻一边加入D M S O 。用 N a O H 或 H C l 在酸度计上调整p H 至 13. 1±〇. 1。在 实验当天配制。 6 . 中性缓冲液: I mol/L 乙 酸 铵 (a m m o n i u m acetate)。用 N a O H 或 H C l 调 节 p H 至 7.0。 7•双重染色测细胞活性:萸 光 素 二 乙 酸 醋 储 液 (fluorescein diacetate, 5.0 m g / m l 丙酮) , E B 储 液 (200 fxg/m L 无 Ca2+ 和 M g 2+ 的 P B S ), 调 整 p H 至 7. 4。将荧 光素二乙酸酯储液置于一20°C ; E B 用铝箔纸包裹后置于4°C 。作为工作液,将 储液混在 Eppendorf管中: I.2 m L 无 锦 镁 P B S , 7. 5 fxL突光素二乙酸以及50 •136 • fzLEB。现配现用。 8. D N A 染 色 :取 5.0 斗 的 S Y B R Gold 染 料 (M〇 lecular Pr〇 bes 加 . n〇. ^ 11494)加 入 50 m L 超纯水。用锡箔纸包裹, 4。〇避光保存

1.2 Glassware and laboratory equipment

(1) Pipette.

(2) Pipette tips (10, 20, 100, 200, 1000 uL).

(3) Graduated flasks (100 m L, 500 m L and I L).

(4) Measuring cylinders (100 m L, 500 m L and 1L).

(5) Beakers (250 m L, 500 m L and 1L).

(6) Petri dishes (120 mM diameter).

(7) Wash bottle (for ultrapure water).

(8) Ice box.

(9) Freezing tube (1.0 m L )

(10) Eppendorf tube (0-5 m L, I.5 m L).

(11) Centrifuge tube with screw cap (50 m L ).

(12) Plastic/glass disk (e.g., lid or sump of pipette container).

(13) Microscope slides.

(14) Microscope cover slips.

1.3 Instruments

(1) p H meter.

(2) Analytical balance.

(3) Magnetic stirrer and stirring bar.

(4) Power supply to provide low voltage and high current (e.g., 300 V , 2000 m A ).

(5) Horizontal electrophoresis apparatus.

(6) Deterrent.

(7) Scissors.

(8) Gelbond glue (agarose gel support medium) (Mandel cat. no. 53740 G B 1638).

(9) L a b T e k I [small chamber (NalgeNunccat. no. 154461-B ).

(10) Heater or water bath.

(11) Computer with Comet image analysis software (Kinetic Komet 5. 5 or other).

(12) Burst light microscope with 40x oil lens (Zeiss AxioPlan U or other) and suitable excitation/emission

filters (e.g. S Y B R Gold: 300 n m excitation light, 495/537 n m emission light, stained nucleic acids)

Methods 1. Calibration

Calibration of the comet assay can be performed by evaluating the cellular DNA damage induced by ionizing radiation (X-rays or γ-rays) or chemical treatment (hydrogen peroxide, cyclophosphamide, or MMS) (see Note 7) (I, 4, 5). A dose-effect curve was made to determine the sensitivity of this technique (Fig. 2). Calibration is required each time a new species and a different cell line is used. Some laboratories ensure the consistency of each comet assay by performing a positive control (e.g., radiation or chemical treatment) at the same time
将 田 鼠 ( Mfcroiw^ enns; yZmm_ CMS) 全血暴露于137C s放射后的剂量 反应曲线。 N= 4 。注 意 尾 长 ( tail length) 对 应 于 剂 量 的 平 台 期 ,尾矩 (tail moment) 对应于剂量的指数增长趋势。

2. Cell Activity

Apoptotic or necrotic cells do not exhibit the typical comet image. Instead, their heads are small or absent while the comet tails are large and diffuse (Fig. 3 ) These cells are often referred to as teardrop cells, ghost cells, or hedgehog cells (1, 4). Such cells can be induced to arise by cytotoxic and/or nongenetic toxicants and should be excluded from analysis. Cells exposed to genetic toxicants can also show this type of image, at which point they should then be included in the data analysis. Therefore, concurrent cytotoxicity measurements of cell suspensions are required to determine the cause of severe cell damage and whether these cells should be included in the data analysis.
One of two methods is preferred for assaying cellular activity. The first is with the double staining activity assay (6). In this assay, equal volumes of cell suspension and E B / synaptophysin diacetate working solution (see 2 . 7 in 1 ) are mixed and then dropped on either side of a blood cell counting plate (10 fxL). Both dead and living cells will be counted simultaneously by fluorescence microscopy . Metabolically competent cells (living cells) convert fluorescein diacetate to metabolic incendiary light by cytosolic esterases
Metabolically competent cells (living cells) show green fluorescence through the conversion of fluorescein diacetate into metabolic incendiary fluorescein by cytosolic esterase, while metabolically incompetent cells (dead cells) show red coloration due to the altered permeability of the cell membrane, which is stained by ethidium bromide. Another method is the Tapan blue exclusion assay. In this assay, equal volumes of cell suspension and Tapan Blue solution are mixed and placed on both sides of a blood cell counting plate (IO mL), and both dead and living cells are counted through a normal microscope over a certain period of time (usually within 2 to 5 m i n ). Colored cells are not
The colorless cells are inactive, while the colorless and transparent cells are living cells. In general, samples with a proportion of viable cells below 70% to 75% of the negative control should not be analyzed subsequently. 在 I.5 V 'em 电泳20 m in后观察到的对照( a)、损 伤 ( b)、中度损伤( c) 和凋亡或高度损伤的细胞核( d)。 细胞用SYBR Gold进行DNA染色。

3. Species differences

The comet assay can be performed on almost all nucleated cells, provided they are alive. However, in some genera (e.g., birds), whole blood is not suitable for comet assays because more than 80% of the cells appear to be "ghost cells" or "hedgehog cells," possibly due to degradation and functionally inert DNA/RNA in nucleated mature erythrocytes. In this case, leukocytes need to be separated from nucleated erythrocytes for comet assays. This phenomenon is not present in whole blood cells of amphibians.

4. Criteria for assessing damage

To quantify the D N A damage, the migration of D N A was observed under a fluorescence microscope after gel staining (e.g., E B, S Y B R Gold, S Y B R G r e e n ), and the comets were scored by suitable software packages such as K o m e t 5. 5 (Kinetic Imaging, Nottingh a m , U K ), C o m e t Assay F (Perceptive Instruments, Suffolk, U K ) to score comets. Damaged cells will show an image similar to that of a comet in the starry sky, with a long D N A-containing tail migrating out of the center of the nucleus of the damaged cell. Three important values are applied to the degree of damage: the comet tail length, the tail torus (the product of the comet tail length and the percentage of D N A in the comet tail) or the Oliv e tail distance (the distance from the center of gravity of the comet tail to the center of the comet's head multiplied by the percentage of D N A in the comet tail), and the percentage content of D N A in the tail (7, 8). Since different image analysis software calculates these metrics in different ways, the jury is still out on which metric is most effective.
When exposed to low doses of genotoxic substances, a rapid increase in tail length ensues, but at higher concentrations the change in tail length reaches a plateau (9). However, the amount of D N A in the comet tail region is able to increase continuously with increasing toxicant dose, theoretically from 〇 ~ 100% (7). Therefore, the comet tail density continues to increase with increasing dose rather than tail length (Fig. 2). Since tail moments are calculated based on length, it has been suggested that comet tail density or comet tail D N A percentage should be used as the best measure of genotoxicity.

5. Freezing of samples

When the Comet assay cannot be performed immediately after sample collection, samples can be frozen in liquid nitrogen until a suitable period of time, provided that they are placed in a suitable cellular freezing solution (11-13). We have found that either magnesium-free PBS with 10% DMSO or magnesium-free PBS with 10% DMSO and 20 mMol ZL EDTA (12) can be used as a suitable cell freezing solution for blood samples. Samples should be thawed in a water bath at room temperature and immediately followed up. However, data from comet experiments performed on thawed samples cannot be directly compared with data from non-thawed samples because the thawing process raises the background value of DNA migration. Therefore, the control experiments should also be controlled under the same conditions (cold

freezing).

6. Gelbond gel alkaline comet assay 1. 将含有0.75%低熔点琼脂糖胶的1.5 m L Eppendorf管微波炉高火加热1〇 〜 20 S0 2. 融解后,将离心管放在42°C 加热器或水浴锅中预热。 3•将Lab-TekII小室压30 s 固定在Gelbond上。 4.后续步骤需在较暗的灯光下进行。 5•取30 稀释到合适比例的细胞悬液加入到270 融化的琼脂胶中。轻轻用移 液 器 混 匀 ( 见注释9)。 6•取120 ^ x L 细胞-琼脂糖胶悬液加人两孔小室中的一孔。 7•取120ML 细胞-琼脂糖胶悬液加入另一个固定在其他Gelbond胶上的小室。重复 步 骤 5〜6。 8. 需要同时做阴性对照。 9. 一旦琼脂糖胶凝固,小心移走 Lab-TekII小室,并将各自Gelbond胶放人一个 装 满 75 m L 裂解液的塑料盒中。 10. 4°C 放置过夜。 11•第二天校准p H 计。 12. 制备新鲜的电泳液。 13. 将胶从冰箱/孵箱/水浴锅中取出。 14•把培养皿放入水槽中并加入干净的水。让水缓慢流人盘中。 15.用镊子将Gelbond胶从裂解液中移出,反复浸入培养皿大约30s, 或者直到裂 解液的泡沫消失( 见注释1 1 和 12)。 16•将Gelbond胶放入电泳仪,倒入电泳液至水平液面高于胶面I c m (见注释 13)。让胶在电泳液中平衡30min。 17. 30m i n 后 ,衡压条件下进行电泳( 时间和电压需要根据样本类型调整,见注释 3)。 18. 把培养皿放人水槽中并加人干净的水。让水缓慢流人盘中。 I9•用镊子将Gelbond胶从电泳仪中移出,反复浸人培养皿大约30s, 或者直到电 泳液流光。 20. 将 Gelbond胶转移到另一个装有75 m L 中和液的盘中,平 衡 30min。 21. 30min 后将胶按上述方法漂洗,然后把胶放在75 m L 8 5 % 乙醇中至少2h 。 22. 取出胶,过夜晾干。 23•用标记好的信封储藏风干的胶。 2 1 在 50 m L 管中配制S Y B R Gold溶 液 ( 见 2.2 中 10),并在另一 50 m L 管中装 水 ,以备染胶。 25•将其中一个Gelbond胶切成小条,每个小条中含有两个样本。 26.标 记 并 染 色 ( 见注释14)
27. 染色后,用慑子移走Gelbond小条,并将其浸没水中两三次。 28. 胶面向上,将胶放在载玻片上,并盖上22_ X 50 _ 盖玻片。 29. 用纸巾轻压盖玻片以除去多余水分并形成密封。 30. 在盖玻片上滴加一滴甘油,然后在显微镜下观察。用合适的软件统计每个玻片 上最少50个细胞。
7. Other comet experimental techniques relevant to environmental toxicology

Three modifications of the common alkaline comet assay can also be powerful tools for studying environmental toxicology and genomics. First, the comet assay can be combined with fluorescence in situ hybridization (F IS H ) to determine in which region of a gene a D N A break occurs (14, 15). The second method, the comet-DNA dispersion assay, distinguishes between types of cell death [e.g., apoptosis (programmed cell death)] and necrosis (cells that die in injury or disease) by precipitating D N A with ethanol without electrophoresis in the comet assay (16). In addition, DNA duplex breaks can also be detected by performing a comet assay in neutral rather than alkaline buffer (5, 17). This technique also allows evaluation of D NA damage in germ cells, which typically have high levels of alkaline destabilizing sites (5, 18, 19) (see Note 6).

Caveat

Inhabiting whole blood cells need to be stained for about 30 min.


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Aladdin Scientific. "Experiments on the application of the comet assay to environmental toxicology" Aladdin Knowledge Base, updated 24 dic 2024. https://www.aladdinsci.com/us_es/faqs/experiments-on-the-application-of-the-co-en.html
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