免疫球蛋白样抑制性受体KIR基因与HLA-Cw的匹配对NK细胞活性的影响

本研究探索自然杀伤（naturalkiller,rqK）细胞表面杀伤细胞免疫球蛋白样抑制性受体（killerimmunoglobulin—like inhibitionreceptor,KIR）基因与HLA—Cw配体匹配对NK细胞活性的影响。对27名健康人取新鲜外周血20ml,用NK细胞免疫磁珠分选试剂盒负向分选高纯度NK细胞。对30例初治确诊急性髓系白血病（AML）患者取新鲜骨髓液10ml,分离单个核细胞作为靶细胞。流式细胞仪检测NK细胞CD158a,CD158b表达水平。取健康人和患者的外周血各2ml,以PROTRANS法抽提DNA,采用序列特异性引物PCR—SSP分型技术分别检测HLA—Cw、KIR基因。MTT法检测KIR与HLA—Cw基因不同组合的NK细胞对AML患者白血病细胞的杀伤率。结果表明：分选后的NK细胞,纯度为（90．8±6．08）％。NK细胞KIR基因与靶细胞HLA—Cw等位基因的匹配数少则NK细胞的杀伤效应强,0个等位基因匹配的杀伤率为（50．66±8．40）％,1个匹配与2个匹配的杀伤率分别为（38．28±6．71）％,（19．74±4．15）％,（F=20．226,P〈0．001）。NK细胞的KIR表达水平与杀伤作用也有一定的联系（F=16．276,P值〈0．001）。结论：NK细胞对AML白血病细胞的杀伤作用与抑制性KIR／HLA—Cw的匹配数及KIR的表达相关,匹配越少、KIR表达越低,杀伤率越高。     

活化性杀伤细胞免疫球蛋白样受体阳性的NK细胞对靶细胞的杀伤作用

Objective To study the killing effects of the killer cell immunoglobutin-like receptors (KIR) KIR2DS1-positive natural killer (NK) cells against acute, myeloid leukemia (AML) target cells, and to explore the KIR, human leucocyte antigen-Cw, and Cw loci (HLA-Cw) of NK cells, and, HLA-Cw of target cells mismatches destruction mechanism. Methods High-purified NK cells separated by DNYAL bead negative selection from healthy donor peripheral blood were taken as effector cells, and the freshly isolated bone marrow mononuclear cells from newly diagnosed AML patients as target cells. The anti-CD158a, CD158b monoclonal antibody was used to block inhibitory KLR receptors of NK cells (such as: KIR2DL1, KIR2DL2, KIR2DL3). The NK cells cytotoxicities against target cells before and after KIR blockades were detected by MTT reduction assay in vitro. Polymerase chain reaction and sequence specific primers (PCR-SSP) genotyping techniques were used to detect HLA-Cw, KIR gene of the healthy donors and patients. NK cells and target cells were divided into group C1 (expressing HLA-Cw 01, 03, 07, 08, 12, 14, 16 alleles), C2 group (expressing HLA-Cw 02, 04, 05, 06, 15, 17, 18 alleles) and the C1/C2 group (co-expressing the alleles in C1 group and C2 group) based on HLA-Cw. Results The purity of NK cells analyzed by flow cytometry was (90.8±6.08)%, and the killing effects of NK cells were significantly enhanced after inhibitory KIR blockades (t=-3.00, P=0.005). The cell lysis in C1 group, KIR2DS1+ NK cells against C2 group target cells (57.37±1.40)% was significantly higher than that against C1 group (44.19±4.67) % and C1/C2 group (36.77±6.56)% target cells (F= 11.87, P = 0.021), furthermore the differences in cell lysis among the above three groups become more evident after the inhibitory KIR blockades (F = 18. 72, P=0. 009). Conclusions The activity of NK cells was increased after the inhibitory KIR blockades, and the killing activities of KIR2DS1+ NK cells were higher than KIR2DS1 NK cells. The incompatibility between KIR, HLA-Cw of NK cells and HLA-Cw of target cells mediated NK alloactivation, realizing "missing self" recognition, and enabling NK cells cytotoxieity against targets.     

活化性杀伤细胞免疫球蛋白样受体阳性的NK细胞对靶细胞的杀伤作用

Objective To study the killing effects of the killer cell immunoglobutin-like receptors (KIR) KIR2DS1-positive natural killer (NK) cells against acute, myeloid leukemia (AML) target cells, and to explore the KIR, human leucocyte antigen-Cw, and Cw loci (HLA-Cw) of NK cells, and, HLA-Cw of target cells mismatches destruction mechanism. Methods High-purified NK cells separated by DNYAL bead negative selection from healthy donor peripheral blood were taken as effector cells, and the freshly isolated bone marrow mononuclear cells from newly diagnosed AML patients as target cells. The anti-CD158a, CD158b monoclonal antibody was used to block inhibitory KLR receptors of NK cells (such as: KIR2DL1, KIR2DL2, KIR2DL3). The NK cells cytotoxicities against target cells before and after KIR blockades were detected by MTT reduction assay in vitro. Polymerase chain reaction and sequence specific primers (PCR-SSP) genotyping techniques were used to detect HLA-Cw, KIR gene of the healthy donors and patients. NK cells and target cells were divided into group C1 (expressing HLA-Cw 01, 03, 07, 08, 12, 14, 16 alleles), C2 group (expressing HLA-Cw 02, 04, 05, 06, 15, 17, 18 alleles) and the C1/C2 group (co-expressing the alleles in C1 group and C2 group) based on HLA-Cw. Results The purity of NK cells analyzed by flow cytometry was (90.8±6.08)%, and the killing effects of NK cells were significantly enhanced after inhibitory KIR blockades (t=-3.00, P=0.005). The cell lysis in C1 group, KIR2DS1+ NK cells against C2 group target cells (57.37±1.40)% was significantly higher than that against C1 group (44.19±4.67) % and C1/C2 group (36.77±6.56)% target cells (F= 11.87, P = 0.021), furthermore the differences in cell lysis among the above three groups become more evident after the inhibitory KIR blockades (F = 18. 72, P=0. 009). Conclusions The activity of NK cells was increased after the inhibitory KIR blockades, and the killing activities of KIR2DS1+ NK cells were higher than KIR2DS1 NK cells. The incompatibility between KIR, HLA-Cw of NK cells and HLA-Cw of target cells mediated NK alloactivation, realizing "missing self" recognition, and enabling NK cells cytotoxieity against targets.     

活化性杀伤细胞免疫球蛋白样受体阳性的NK细胞对靶细胞的杀伤作用

Objective To study the killing effects of the killer cell immunoglobutin-like receptors (KIR) KIR2DS1-positive natural killer (NK) cells against acute, myeloid leukemia (AML) target cells, and to explore the KIR, human leucocyte antigen-Cw, and Cw loci (HLA-Cw) of NK cells, and, HLA-Cw of target cells mismatches destruction mechanism. Methods High-purified NK cells separated by DNYAL bead negative selection from healthy donor peripheral blood were taken as effector cells, and the freshly isolated bone marrow mononuclear cells from newly diagnosed AML patients as target cells. The anti-CD158a, CD158b monoclonal antibody was used to block inhibitory KLR receptors of NK cells (such as: KIR2DL1, KIR2DL2, KIR2DL3). The NK cells cytotoxicities against target cells before and after KIR blockades were detected by MTT reduction assay in vitro. Polymerase chain reaction and sequence specific primers (PCR-SSP) genotyping techniques were used to detect HLA-Cw, KIR gene of the healthy donors and patients. NK cells and target cells were divided into group C1 (expressing HLA-Cw 01, 03, 07, 08, 12, 14, 16 alleles), C2 group (expressing HLA-Cw 02, 04, 05, 06, 15, 17, 18 alleles) and the C1/C2 group (co-expressing the alleles in C1 group and C2 group) based on HLA-Cw. Results The purity of NK cells analyzed by flow cytometry was (90.8±6.08)%, and the killing effects of NK cells were significantly enhanced after inhibitory KIR blockades (t=-3.00, P=0.005). The cell lysis in C1 group, KIR2DS1+ NK cells against C2 group target cells (57.37±1.40)% was significantly higher than that against C1 group (44.19±4.67) % and C1/C2 group (36.77±6.56)% target cells (F= 11.87, P = 0.021), furthermore the differences in cell lysis among the above three groups become more evident after the inhibitory KIR blockades (F = 18. 72, P=0. 009). Conclusions The activity of NK cells was increased after the inhibitory KIR blockades, and the killing activities of KIR2DS1+ NK cells were higher than KIR2DS1 NK cells. The incompatibility between KIR, HLA-Cw of NK cells and HLA-Cw of target cells mediated NK alloactivation, realizing "missing self" recognition, and enabling NK cells cytotoxieity against targets.     

活化性杀伤细胞免疫球蛋白样受体阳性的NK细胞对靶细胞的杀伤作用

Objective To study the killing effects of the killer cell immunoglobutin-like receptors (KIR) KIR2DS1-positive natural killer (NK) cells against acute, myeloid leukemia (AML) target cells, and to explore the KIR, human leucocyte antigen-Cw, and Cw loci (HLA-Cw) of NK cells, and, HLA-Cw of target cells mismatches destruction mechanism. Methods High-purified NK cells separated by DNYAL bead negative selection from healthy donor peripheral blood were taken as effector cells, and the freshly isolated bone marrow mononuclear cells from newly diagnosed AML patients as target cells. The anti-CD158a, CD158b monoclonal antibody was used to block inhibitory KLR receptors of NK cells (such as: KIR2DL1, KIR2DL2, KIR2DL3). The NK cells cytotoxicities against target cells before and after KIR blockades were detected by MTT reduction assay in vitro. Polymerase chain reaction and sequence specific primers (PCR-SSP) genotyping techniques were used to detect HLA-Cw, KIR gene of the healthy donors and patients. NK cells and target cells were divided into group C1 (expressing HLA-Cw 01, 03, 07, 08, 12, 14, 16 alleles), C2 group (expressing HLA-Cw 02, 04, 05, 06, 15, 17, 18 alleles) and the C1/C2 group (co-expressing the alleles in C1 group and C2 group) based on HLA-Cw. Results The purity of NK cells analyzed by flow cytometry was (90.8±6.08)%, and the killing effects of NK cells were significantly enhanced after inhibitory KIR blockades (t=-3.00, P=0.005). The cell lysis in C1 group, KIR2DS1+ NK cells against C2 group target cells (57.37±1.40)% was significantly higher than that against C1 group (44.19±4.67) % and C1/C2 group (36.77±6.56)% target cells (F= 11.87, P = 0.021), furthermore the differences in cell lysis among the above three groups become more evident after the inhibitory KIR blockades (F = 18. 72, P=0. 009). Conclusions The activity of NK cells was increased after the inhibitory KIR blockades, and the killing activities of KIR2DS1+ NK cells were higher than KIR2DS1 NK cells. The incompatibility between KIR, HLA-Cw of NK cells and HLA-Cw of target cells mediated NK alloactivation, realizing "missing self" recognition, and enabling NK cells cytotoxieity against targets.     

不同KIR亚型与HLA-Cw相互作用后对NK细胞的异源反应及移植预后的影响

杀伤细胞免疫球蛋白样受体(KIR)在移植中的地位越来越明显,KIR亚型与HLA-I类分子,尤其是HLA-Cw之间的相互作用对自然杀伤(NK)细胞及移植预后的影响有着不同的见解,本文主要对这从KIR的亚型与HLA-C的相互识别作用对自然杀伤细胞及移植预后这一点予以综述。     

活化性杀伤细胞免疫球蛋白样受体阳性的NK细胞对靶细胞的杀伤作用

Objective To study the killing effects of the killer cell immunoglobutin-like receptors (KIR) KIR2DS1-positive natural killer (NK) cells against acute, myeloid leukemia (AML) target cells, and to explore the KIR, human leucocyte antigen-Cw, and Cw loci (HLA-Cw) of NK cells, and, HLA-Cw of target cells mismatches destruction mechanism. Methods High-purified NK cells separated by DNYAL bead negative selection from healthy donor peripheral blood were taken as effector cells, and the freshly isolated bone marrow mononuclear cells from newly diagnosed AML patients as target cells. The anti-CD158a, CD158b monoclonal antibody was used to block inhibitory KLR receptors of NK cells (such as: KIR2DL1, KIR2DL2, KIR2DL3). The NK cells cytotoxicities against target cells before and after KIR blockades were detected by MTT reduction assay in vitro. Polymerase chain reaction and sequence specific primers (PCR-SSP) genotyping techniques were used to detect HLA-Cw, KIR gene of the healthy donors and patients. NK cells and target cells were divided into group C1 (expressing HLA-Cw 01, 03, 07, 08, 12, 14, 16 alleles), C2 group (expressing HLA-Cw 02, 04, 05, 06, 15, 17, 18 alleles) and the C1/C2 group (co-expressing the alleles in C1 group and C2 group) based on HLA-Cw. Results The purity of NK cells analyzed by flow cytometry was (90.8±6.08)%, and the killing effects of NK cells were significantly enhanced after inhibitory KIR blockades (t=-3.00, P=0.005). The cell lysis in C1 group, KIR2DS1+ NK cells against C2 group target cells (57.37±1.40)% was significantly higher than that against C1 group (44.19±4.67) % and C1/C2 group (36.77±6.56)% target cells (F= 11.87, P = 0.021), furthermore the differences in cell lysis among the above three groups become more evident after the inhibitory KIR blockades (F = 18. 72, P=0. 009). Conclusions The activity of NK cells was increased after the inhibitory KIR blockades, and the killing activities of KIR2DS1+ NK cells were higher than KIR2DS1 NK cells. The incompatibility between KIR, HLA-Cw of NK cells and HLA-Cw of target cells mediated NK alloactivation, realizing "missing self" recognition, and enabling NK cells cytotoxieity against targets.     

活化性杀伤细胞免疫球蛋白样受体阳性的NK细胞对靶细胞的杀伤作用

目的 研究活化性杀伤细胞免疫球蛋白样受体(KIR)KIR2DS1阳性的自然杀伤(NK)细胞对急性髓系白血病(AML)靶细胞的杀伤作用;并探讨NK细胞KIR及人类白细胞抗原Cw位点(HLA-Cw)与靶细胞HLA-Cw错配对靶细胞的杀伤机制.方法 获取健康供者的外周血,经Dnyal磁珠负选高纯度NK细胞;取初治确诊的AML患者新鲜骨髓液,分离后的白血病细胞作为靶细胞.用抗CD158a和CD158b单克隆抗体封闭NK细胞抑制性KIR(如:KIR2DL1、KIR2DL2和KIR2DL3),并用噻唑蓝(MTT)比色法分别检测抑制性KIR封闭前和封闭后NK细胞对靶细胞的杀伤作用.采用聚合酶链反应和顺序特异性引物(PCR-SSP)基因分型技术分别检测NK细胞及靶细胞的KIR基因和HLA-Cw;根据HLA-Cw将NK细胞和靶细胞分别分为C1组(表达HLA-Cw 01、03、07、08、12、14、16分子)、C2组(表达HLA-Cw02、04、05、06、15、17、18分子)和C1/C2组(既表达C1组的等位基因又表达C2组的等位基因).结果 分选后的NK细胞经流式细胞仪检测,其纯度为(90.8±6.08)%;NK细胞抑制性KIR封闭后与封闭前比较,其对靶细胞的杀伤作用明显增强(t=-3.00,P=0.005);KIR2DS1阳性的NK细胞C1组对靶细胞C2组的杀伤作用高于靶细胞C1及C1/C2组,杀伤率分别为(57.370±1.400)%、(44.190±4.666)%和(36.770±6.560)%(F=11.87,P=0.021);NK细胞抑制性KIR封闭后,其对各组靶细胞的杀伤率更高(F=18.72,P=0.009).结论 NK细胞抑制性KIR封闭后其活性增强,KIR2DS1阳性的NK细胞对靶细胞的杀伤率高于KIR2DS1阴性的NK细胞;NK细胞KIR及HLA-Cw与靶细胞HLA-Cw错配,能够介导KIR2DS1阳性的NK细胞C1组抗原的异源反应性,实现"丢失自我"的识别作用,从而使NK细胞对靶细胞杀伤率增强.     

活化性杀伤细胞免疫球蛋白样受体阳性的NK细胞对靶细胞的杀伤作用

Objective To study the killing effects of the killer cell immunoglobutin-like receptors (KIR) KIR2DS1-positive natural killer (NK) cells against acute, myeloid leukemia (AML) target cells, and to explore the KIR, human leucocyte antigen-Cw, and Cw loci (HLA-Cw) of NK cells, and, HLA-Cw of target cells mismatches destruction mechanism. Methods High-purified NK cells separated by DNYAL bead negative selection from healthy donor peripheral blood were taken as effector cells, and the freshly isolated bone marrow mononuclear cells from newly diagnosed AML patients as target cells. The anti-CD158a, CD158b monoclonal antibody was used to block inhibitory KLR receptors of NK cells (such as: KIR2DL1, KIR2DL2, KIR2DL3). The NK cells cytotoxicities against target cells before and after KIR blockades were detected by MTT reduction assay in vitro. Polymerase chain reaction and sequence specific primers (PCR-SSP) genotyping techniques were used to detect HLA-Cw, KIR gene of the healthy donors and patients. NK cells and target cells were divided into group C1 (expressing HLA-Cw 01, 03, 07, 08, 12, 14, 16 alleles), C2 group (expressing HLA-Cw 02, 04, 05, 06, 15, 17, 18 alleles) and the C1/C2 group (co-expressing the alleles in C1 group and C2 group) based on HLA-Cw. Results The purity of NK cells analyzed by flow cytometry was (90.8±6.08)%, and the killing effects of NK cells were significantly enhanced after inhibitory KIR blockades (t=-3.00, P=0.005). The cell lysis in C1 group, KIR2DS1+ NK cells against C2 group target cells (57.37±1.40)% was significantly higher than that against C1 group (44.19±4.67) % and C1/C2 group (36.77±6.56)% target cells (F= 11.87, P = 0.021), furthermore the differences in cell lysis among the above three groups become more evident after the inhibitory KIR blockades (F = 18. 72, P=0. 009). Conclusions The activity of NK cells was increased after the inhibitory KIR blockades, and the killing activities of KIR2DS1+ NK cells were higher than KIR2DS1 NK cells. The incompatibility between KIR, HLA-Cw of NK cells and HLA-Cw of target cells mediated NK alloactivation, realizing "missing self" recognition, and enabling NK cells cytotoxieity against targets.     

活化性杀伤细胞免疫球蛋白样受体阳性的NK细胞对靶细胞的杀伤作用

Objective To study the killing effects of the killer cell immunoglobutin-like receptors (KIR) KIR2DS1-positive natural killer (NK) cells against acute, myeloid leukemia (AML) target cells, and to explore the KIR, human leucocyte antigen-Cw, and Cw loci (HLA-Cw) of NK cells, and, HLA-Cw of target cells mismatches destruction mechanism. Methods High-purified NK cells separated by DNYAL bead negative selection from healthy donor peripheral blood were taken as effector cells, and the freshly isolated bone marrow mononuclear cells from newly diagnosed AML patients as target cells. The anti-CD158a, CD158b monoclonal antibody was used to block inhibitory KLR receptors of NK cells (such as: KIR2DL1, KIR2DL2, KIR2DL3). The NK cells cytotoxicities against target cells before and after KIR blockades were detected by MTT reduction assay in vitro. Polymerase chain reaction and sequence specific primers (PCR-SSP) genotyping techniques were used to detect HLA-Cw, KIR gene of the healthy donors and patients. NK cells and target cells were divided into group C1 (expressing HLA-Cw 01, 03, 07, 08, 12, 14, 16 alleles), C2 group (expressing HLA-Cw 02, 04, 05, 06, 15, 17, 18 alleles) and the C1/C2 group (co-expressing the alleles in C1 group and C2 group) based on HLA-Cw. Results The purity of NK cells analyzed by flow cytometry was (90.8±6.08)%, and the killing effects of NK cells were significantly enhanced after inhibitory KIR blockades (t=-3.00, P=0.005). The cell lysis in C1 group, KIR2DS1+ NK cells against C2 group target cells (57.37±1.40)% was significantly higher than that against C1 group (44.19±4.67) % and C1/C2 group (36.77±6.56)% target cells (F= 11.87, P = 0.021), furthermore the differences in cell lysis among the above three groups become more evident after the inhibitory KIR blockades (F = 18. 72, P=0. 009). Conclusions The activity of NK cells was increased after the inhibitory KIR blockades, and the killing activities of KIR2DS1+ NK cells were higher than KIR2DS1 NK cells. The incompatibility between KIR, HLA-Cw of NK cells and HLA-Cw of target cells mediated NK alloactivation, realizing "missing self" recognition, and enabling NK cells cytotoxieity against targets.