Protocols

Hydrolysis of immunoglobulin G (IgG) fragments

Summary

When a new antibody needs to be fragmented, it is often necessary to perform a touch-and-go test. When choosing the reaction time, it is preferable to keep part of the antibody from being completely degraded, so as to avoid the destruction of the antibody binding site by excessive cleavage by the protease. Author: J.E. Collier et al, Translated by Xuedao Cao et al. This experiment is from "Comprehensive Immunology Laboratory Guide".

Operation method

Hydrolysis of Immunoglobulin G (IgG) fragments

Move

Papain hydrolyzes IgG to form fabric fragmentation in a mapping assay

This method is applicable to the hydrolysis of IgG from mice (any subclass), rats, humans, goats, sheep, horses, chickens, guinea pigs, and cattle.

Materials

2 mg/ml purified IgG (Unit 1.5) in PBS (Appendix 1)

Papain (2 X crystalline suspension; Sigma)

Hydrolysis buffer: 0.02 mol/LETA (disodium salt)/0.02 mol/L cysteine/PBS (freshly prepared, stored on ice for < 10 h).

0.3 mol/L iodoacetamide dissolved in PBS (freshly prepared from crystals; Sigma)

PBS

Homemade microdialysis tanks or microdialysis cassettes (e.g., Slide-A-Iyzer dialysis cassettes; Pierce)

1. Add IOOud 2 mg/m l of purified IgG to 24 microcentrifuge tubes labeled 1 to 2 4. Mix the papain suspension well without shaking. Prepare two concentrations of papain in 5 ml of hydrolysis buffer, 0.l mg/ml and 0.02 mg/ml, respectively.

2. 100 ul of 0.1 mg/ml papain solution was added to 8 IgG centrifuge tubes (enzyme/antibody ratio 1:20), IOOmI 0.02 mg/ml papain solution was added to the second group of 8 IgG centrifuge tubes (enzyme/antibody ratio 1:100), and finally IOOmI papain-free hydrolysis buffer was added to the remaining 8 IgG centrifuge tubes (control). Finally, IOOmI papain-free hydrolysis buffer was added to the remaining 8 IgG centrifuge tubes (control) and all tubes were capped.

3. Place all tubes in a 37°C water bath and remove a group of tubes at different times to create a hydrolysis time graph. A set of tubes is defined as a hydrolysis tube with an E/A ratio of 1:20, a hydrolysis tube with an E/A ratio of 1:100 and a control hydrolysis tube. The first set of tubes is removed at Ih in the water bath, followed by the second through eighth sets of tubes at 2 h, 4 h, 6 h, 12 h, 18 h, 24 h, and 48 h, respectively. After removal of the first set of tubes, hydrolysis was stopped by adding 20M1 0.3mol/L iodoacetamide to each tube.

4. Dialyze the hydrolyzed mixture against PBS using a homemade microdialysis bath or a commercial microdialysis cassette.

5. Analyze the hydrolysis products by 150 mmXl.5 mm 10 % non-reduced SDS-polyacrylamide gel electrophoresis (Unit 12.3) with a sample volume of 80 M 1. The digestion reaction is complete when no protein bands are shown on the gel at 150 kDa (for unhydrolyzed antibody) and 120 kDa (for cysteine only). Select the optimal test conditions for hydrolyzing IgG to obtain Fab fragments and perform the test according to basic protocol 2. The Fab fragments are about 50 kDa in size, the Fc fragments are 27 kDa in size, and the thin bands at 24 kDa and 15 kDa are insignificant hydrolysis products.

Papain Hydrolysis of IgG to Obtain Fab Fragments in Large Quantities

The optimal test conditions for obtaining Fab fragments were determined by a feeler test (see Basic Scheme 1).

Materials (see Appendix 1 for items with V)

Papain (2 X recrystallized suspension; Sigma)

Hydrolysis buffer: 0.02 mol/L LEDTA (disodium salt)/0.02 mol/L cysteine/PBS (freshly prepared, stored on ice for < l0h)

IgG dissolved in PBS (Appendix 1) at a concentration > lmg/m l (total > 5 mg, individual 1.5)

Iodoacetamide crystals

P B S , p H 8. O

Egg white A cross-linked agarose gel CL-4B

Poly(propylenamide) dextran S-200 Superfine (Pharmacia Biotech)

V Borate buffer, optional

10 % (m/V) NaN3, optional

5 mmX IOOmm column (Bio-Rad)

26 mmX 900 mm column (Pharmacia Biotech)

1. Mix the papain suspension without shaking. Add a volume of hydrolysis buffer equal to the volume of antibody to be hydrolyzed to dissolve papain, and select the optimal amount of enzyme, antibody concentration, and incubation time that have been determined from a feeler test.

2. Add papain solution to IgG dissolved in PBS at a concentration of 0.05 mg/kg, mix well, and incubate in a water bath at 37°C for the desired time (as determined in Basic Protocol 1). Abort the hydrolysis reaction by adding crystalline iodoacetamide to a final concentration of 0.03 mol/L. Mix carefully to ensure complete dissolution of iodoacetamide.

3. Transfer the reaction solution to a dialysis bag (CPI Appendix 3 H) and dialyze 2LPBSpH8.0 for 12-20 h at 4°C.

4. Prepare a 5 mmX100 mm protein A-crosslinked agarose gel CL-4B column (Unit 1.5, CPI Appendix 31) and sample the dialysate. Collect unbound flow-through containing Fab fragments and enzymes. If necessary, wash the column thoroughly with PBS to collect all Fab fragments.

5. Concentrate the flow-through containing Fab fragments to ≤ 5 ml (CPI Appendix 3 H).

6. Spike the concentrate onto a 26 mmX 900 mm polyacrylamide dextran S-200 Superfine column and collect fractions with a molecular mass size of 50 kDa for identification of molecular mass size by SDS-PAGE or use a pre-equilibrated gel filtration column.

7. The purity of the final product was determined by electrophoresis of 1 to 80 M1 of the final product on a 10 % non-reduced SDS-polyacrylamide gel. The concentration of Fab fragments is determined by measuring the A280 value (Table 1.5.1). The Fab fragments are stored in boric acid buffer at 4°C or in PBS containing 0-02% NaN3 at 70°C.

Pepsin Hydrolysis of IgG to F (ab') 2 Fractions in a Tactile Assay 在此试验中摸索在两个不同pH 下 IgG的水解情况,因 为 IgG在 低 pH 下会水解成 Fab片段或更小的片段。胃蛋白酶的水解比木瓜蛋白酶更剧烈,因此推荐的酶/抗体 (E/A) 比例以不超过1 : 2 0 为佳。 注意:从 IgG2b 水解不能得到F (al/)2 片段,用胃蛋白酶水解IgG2b会得到相同分 子 质 量 的 片 段 (120kDa) ,但 这 些 是 Fab/c 片 段 (含 一 个 Fab片 段 和 完 整 的Fc部分 , 图 1. 6. 1)。 材 料 (带八项目见附录1) 3mg/ml纯 化 的IgG (单元1. 5) pH4.0和 pH5.0乙酸缓冲液: 0. 2m ol/L乙酸钠,用冰醋酸调至所需pH 0.1mg/ml胃 蛋 白 酶 (Sigma) : 溶 于 pH4 . 0 乙酸缓冲液 O .lm g/m l胃 蛋 白 酶 (Sigma) : 溶 于 pH4 . 5 乙酸缓冲液 2mol/L Tris 碱 VPBS 1•将2ml 3mg/ml纯化 的IgG分别对着200m l乙 酸 缓 冲 液 (pH 分 别 为 4. O和 4. 5 ) 透 析 , 4°C透 析 4h (CPI附 录 3H)。 2 . 用 对 应p H 的乙酸缓冲液作为空白对照测A28。值 ,确定两种透析后IgG的 浓 度 (表 1. 5. 1),用 对 应 p H 的乙酸缓冲液将两种IgG水解液的浓度调至2mg/ml。 3 . 将 100/xl 2mg/ml IgG pH4. O加 入 1 6 个标号的微量离心管中,将 IOOjul 2mg/ml IgG PH4. 5 加入另 外 1 6 个标号的微量离心管中。 4•将IOOmI 0 •lm g/m l胃蛋白酶液pH4. 0 加 入 8 个 IgG pH4. 0 离心管中,将 IOOjLtl乙 酸缓冲液pH4. 0 加 入 另 外 8 个 IgG pH4. 0 离心管中。将 IOOiLtl 0 •lm g/m l胃蛋白酶
液 pH4. 5 加 入 8 个 IgG pH4. 5 离心管中,将 IOOmI 乙酸缓冲液PH4. 5 加入另外8 个 IgG pH4. 5 离心管中[在两种不同pH 溶液中酶/抗 体 (E/A) 比例 为 1 : 20]。 5 . 将所有离心管置于37°C水 浴 ,分 别 在 lh、 2h、 4h、 6h、 12h、 24h 和 48h 时从四组 各 8 个离心管中取出I 个离心管,在取出的离心管中加入40M1 2mol/L Tris碱终止 酶解反应。 6 . 将水解液转至透析袋中,并准备微量透析槽,在 4°C下 对 着 IL PBS透 析 4h。 7 . 用 1 0 % 非 还 原 SDS-聚 丙 烯 酰 胺 凝 胶 (单 元 1 2 . 3 ) 进 行 电 泳 分 析 ,每管上样量为 8〇 W, F (ab')2 片段分子大小为IlOkDa, 较 小 分 子 质 量 (约 50kDa) 的条带可能是 Fab'片段。从中确定获取最大量F &1/)2 片段的最佳条件,用于基本方案4 中。
Pepsin Hydrolysis of IgG to Obtain Bulk Preparation of F (al/)2 Fragments
液 pH4. 5 加 入 8 个 IgG pH4. 5 离心管中,将 IOOmI 乙酸缓冲液PH4. 5 加入另外8 个 IgG pH4. 5 离心管中[在两种不同pH 溶液中酶/抗 体 (E/A) 比例 为 1 : 20]。 5 . 将所有离心管置于37°C水 浴 ,分 别 在 lh、 2h、 4h、 6h、 12h、 24h 和 48h 时从四组 各 8 个离心管中取出I 个离心管,在取出的离心管中加入40M1 2mol/L Tris碱终止 酶解反应。 6 . 将水解液转至透析袋中,并准备微量透析槽,在 4°C下 对 着 IL PBS透 析 4h。 7 . 用 1 0 % 非 还 原 SDS-聚 丙 烯 酰 胺 凝 胶 (单 元 1 2 . 3 ) 进 行 电 泳 分 析 ,每管上样量为 8〇 W, F (ab')2 片段分子大小为IlOkDa, 较 小 分 子 质 量 (约 50kDa) 的条带可能是 Fab'片段。从中确定获取最大量F &1/)2 片段的最佳条件,用于基本方案4 中。
6 . 将流出液浓缩至< 5 ml ( C P I 附 录 3H )。 7 . 将浓缩液上样至26m m X 900m m 聚丙烯酰胺葡聚糖S-200 Superfine层析柱上,用紫 外检测器或分光光度计检测洗脱下的蛋白质峰。用 SDS-PAGE法或者预平衡的凝胶 层析柱确定片段成分,收集分子质量大小为IlOkDa的组分。 8 . 鉴定终产物的纯度,用 10% S D S 还原和非还原聚丙烯酰胺凝胶电泳,上 样 量 为 1〜 20W 。 在非还原凝胶电泳上, F (ab% 片段 在 I l O k D a 处显示一条带,在还原凝胶电 泳上, F (ab')2 片段在25k D a 处显示为单一条带或为二聚体。 9 . 测 A 28。值 ,确 定 F (&1/)2 片段浓度。在硼酸缓冲液中的F “ 1/)2 片段可在4°C 保 存 , 在 含 1 0 % (m /V ) N a N 3 的 P B S 中的 F (ab7)2 片段可在一70°C 保存
Alternative option: Preparation of F(ab)2 by hydrolysis of IgG with pre-activated papain. 此法可酶解Ig G1 成 F (ab)2 片段。另外,从 小 鼠 ^ & 和 IgG2b获 取 F a b 片段也可 以用此方案。这是一种更温和且更稳定的酶解方案,可获得更多的酶解片段。 附 加 材 料 (其他材料见基本方案4 ,带V 项 目 见 附 录 1) 溶 于 2〜5ml P B S 中 的 I O m g IgG (单元1. 5) V 乙酸/ E D T A 缓冲液, p H 5. 5 2m g / m l 木瓜蛋白酶溶于乙酸/ E D T A 缓冲液中 0,05m o l / L 半 胱 氨 酸 (无碱 ,结晶; Sigma) 碘乙酰胺结晶 P D -10 层 析 柱 (Pharmacia Biotech) 1 . 将溶 于 2〜5ml PBS中 的 IOmg IgG用乙酸/EDTA缓 冲 液 透 析 (CPI附 录 3H ), 用 乙酸/EDTA缓冲液作空白对照,测 A28q值 确 定 IgG浓度。 2 . 将 2m g / m l 木瓜蛋白酶液和0. 05m o l / L 半胱氨酸置于37°C水 浴 30m i n 。 3 . 用 20m l 乙酸/ E D T A 缓冲液平衡P D -10层 析 柱 (CPI附 录 31), 将木瓜蛋白酶/半胱 氨酸上样,用乙酸/ E D T A 缓冲液洗脱,收 集 1 0 个 I m l 组分。 4 . 测定组分义28()值 ,将 2 或 3 个包含木瓜蛋白酶的组分合并。按下列公式计算预活化 的木瓜蛋白酶浓度。 A28〇 /2. 5= mg预活化的木瓜蛋白酶/ml 将预活化的木瓜蛋白酶置于冰上保存,并 在 2h 内使用。 5 . 在透析好的I O m g I g G 溶液中加入0.5m g 预活化的木瓜蛋白酶,振荡混匀,在 37°C 水浴中水解6〜12h ,加入碘乙酰胺结晶至终浓度0 •〇 3mol/L 中止反应。 6•在 4°C 用 I L P B S pH8. 0 透析 6〜12h 。 7 . 用 PBS (PH8 . 0 ) 平衡蛋白A 交联琼脂糖凝胶CL-4B 层析柱,上样,收集未结合的 蛋白质,每 组 分 2ml,将 出 现 在 第 一 个 峰的未结合组分合并(用紫外或分光光度计 检测)。 8 . 将未结合组分浓缩至< 5 ml (CPI附 录 3H )。 9 . 将浓缩液上样至凝胶过滤层析柱上,用紫外分光光度计监测组分的A28。值 ,收 集 100 个 组 分 (1 % 柱体积)。用 SDS-PAGE确 定 包 含 所 需 片 段 的 组 分 (单 元 12. 3),或者
用预平衡的凝胶过滤层析柱确定。硼酸缓冲液中的F (&1))2 片 段 可 在 4°C 保 存 ,含 0. 0 2 % N a N 3 的 PBS中的F (ab)2 片段可在一70°C保存。 参考文献: P a r h a m , 1983 撰 稿 人 : Sarah M . A n d r e w and Julie A . Titus


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Da — when not otherwise indicated, molecular weight units are daltons.   Mw — weight-average molecular weight.   Mn — number-average molecular weight.

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Aladdin Scientific. "Hydrolysis of immunoglobulin G (IgG) fragments" Aladdin Knowledge Base, updated Dec 24, 2024. https://www.aladdinsci.com/us_en/faqs/hydrolysis-of-immunoglobulin-g-igg-fragm-en.html
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