[Establishment and Application of Efficient Gene Editing Method for Classical HLA-I Molecules].

Q4 Medicine

中国实验血液学杂志 Pub Date : 2024-12-01 DOI:10.19746/j.cnki.issn.1009-2137.2024.06.040

Yan-Min He, Zhi-Pan Wu, Ji He, Wei Zhang, Fa-Ming Zhu

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引用次数: 0

Abstract

Objective: To establish an efficient gene editing method of HLA-I gene to prepare HLA-I universal hematopoietic stem cells.

Methods: The easyedit small guide RNA(sgRNA) was designed according to the sequences of β2 microglobulin gene and synthesized by GenScript company. RNP complexes were formed by NLS-Cas9-NLS nuclease and Easyedit sgRNA according to different molar ratios (1∶1~1∶4). Control group and four transfection groups were performed respectively. HEK-293 cells and CD34⁺ hematopoietic stem cells were nucleotransfected with RNP complex by Lonza 4D Nucleofector system. The expression of HLA-I on the surface of HEK-293 cells was detected by flow cytometry after transfection for 72 hours, the cleavage effect was determined by T7E1 enzyme digestion reaction and the presence of nested peak in the DNA sequence was identified by direct sequencing.

Results: The transfection groups had different levels of HLA-I negative expression cell populations by flow cytometry after transient transfection of HEK-293 cells and CD34⁺ hematopoietic stem cells with different molar concentrations of RNP complex for 72 hours. There were nested peaks proximal to the sgRNA PAM sequence in the transfection groups by direct DNA sequencing, indicating that sgRNA had obvious editing effect. In the transfection of HEK-293 cells, the highest proportion of HLA-I negative expression cells was (87.69±0.83)% when the molar ratio of NLS-Cas9-NLS nuclease to Easyedit sgRNA was 1∶4. The cutting efficiency of T7E1 was the highest up to (38±2.0)% when the molar ratio was 1∶3. In the transfection of CD34⁺ hematopoietic stem cells, the proportion of HLA-I negative expression cells was (91.56±3.39)% when the molar ratio was 1∶2, and the cutting efficiency of T7E1 was (64±8.45)% when the molar ratio was 1∶1.

Conclusion: This study provides an efficient gene editing method for classical HLA-I molecules, which can effectively silence the expression of class HLA-I molecules on the cell surface, and is suitable for stem cell system with difficult transfection.

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经典hla - 1分子高效基因编辑方法的建立与应用

目的：建立高效的hla - 1基因编辑方法制备hla - 1通用造血干细胞。方法：根据β2微球蛋白基因序列设计易编辑小向导RNA(sgRNA)，由GenScript公司合成。NLS-Cas9-NLS核酸酶与Easyedit sgRNA按不同的摩尔比（1∶1~1∶4）形成RNP复合物。对照组和4个转染组分别进行转染。采用Lonza 4D核因子系统对HEK-293细胞和CD34+造血干细胞进行RNP复合物核转染。转染72 h后流式细胞术检测hla - 1在HEK-293细胞表面的表达，T7E1酶切反应检测其裂解效果，直接测序鉴定DNA序列中是否存在巢状峰。结果：转染组以不同摩尔浓度的RNP复合物瞬时转染HEK-293细胞和CD34+造血干细胞72小时后，流式细胞术显示转染组有不同水平的hla - 1阴性表达细胞群。经直接DNA测序，转染组在sgRNA PAM序列附近出现巢状峰，说明sgRNA具有明显的编辑作用。转染HEK-293细胞时，当NLS-Cas9-NLS核酸酶与Easyedit sgRNA的摩尔比为1∶4时，hla - 1阴性表达细胞比例最高，为（87.69±0.83）%。当摩尔比为1∶3时，T7E1的切削效率最高，达到（38±2.0）%。转染CD34+造血干细胞时，当摩尔比为1∶2时，hla - 1阴性表达细胞的比例为（91.56±3.39）%，当摩尔比为1∶1时，T7E1的切割效率为（64±8.45）%。结论：本研究提供了一种高效的经典hla - 1分子基因编辑方法，可有效沉默细胞表面hla - 1类分子的表达，适用于转染困难的干细胞系统。

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