Preparation of NK-enriched LAK cells--their potential cytotoxic and ADCC activities

We examined several culture methods to induce proliferation of natural killer (NK) cells from peripheral blood mononuclear cells (PBMC). In the presence of IL-2, a remarkable proliferation of NK cells was observed when PBMC were co-cultured with MMC-treated K562, which is known as a highly sensitive in vitro target cell for the NK assay. Addition of OK-432 or TNF-alpha and IL-1 beta also induced marked NK proliferation in a dose dependent manner. These NK-enriched lymphokine activated killer (LAK) cells showed highly cytotoxic activities against various MHC class I positive or negative tumor cells. They also showed potent ADCC activities against Herceptin-coated SK-BR-3, a HER2/neu positive breast cancer cell line. These results indicated that NK-enriched LAK cells are potent effector cells, and suggested novel therapeutic strategies for nonspecific immunotherapy as well as target immunotherapy in combination with anticancer antibodies, such as Herceptin.     

Ewing's sarcoma: ex vivo sensitivity towards natural and lymphokine-activated killing

We studied the ex vivo cell-mediated cytotoxicity of natural killer (NK) and lymphokine-activated killer (LAK) cells against continuously cultured Ewing's sarcoma cells from 3 different patients. Target cell lysis was measured in a 4-hour 51Cr radioisotope release assay. At an effector to target (E:T) ratio of 50:1, the mean (+/- 1 SD) cytolysis by fresh purified large granular lymphocytes (NK cells) was 20 +/- 8, 25 +/- 2, and 21 +/- 3% in Ewing's sarcoma cell lines 6647, 5838, and A4573, respectively. Under identical conditions, NK cells lysed 56 +/- 7% of K562 (a standard NK target), and 3 +/- 3% of Daudi (a standard NK-resistant LAK target). When compared to fresh unseparated peripheral blood mononuclear cells (PBMC), purified NK cells did not exhibit an enhanced cytotoxic reactivity against either Ewing's sarcoma target. In contrast, LAK cells (i.e., PBMC that were preincubated for 4 days in the presence of rIL-2) were highly cytotoxic against all three Ewing's sarcoma targets. LAK activity was dependent on the concentration of rIL-2 used in PBMC cultures. Optimum cell-mediated toxicity against the standard LAK target Daudi (99 +/- 10% cytolysis at 50:1 E:T ratio) was achieved at rIL-2 concentrations of 1,000 u/ml. LAK cells grown under these conditions were also effective against Ewing's sarcoma cells. At an E:T ratio of 50:1, 86 +/- 16, 85 +/- 16, and 67 +/- 13% inhibition was observed in 6647, 5838, and A4573 cells, respectively, as compared to 17 +/- 10, 19 +/- 15, and 29 +/- 11% cytolysis by fresh uninduced PBMC. In summary, our results suggest that rIL-2-induced LAK-type immune effector cells may be of some therapeutic value in the treatment of poor prognosis Ewing's sarcoma.     

Reversible inhibition of lymphokine-activated killer cell activity by lipoxygenase-pathway inhibitors

Natural killer (NK) cells and lymphokine-activated killer (LAK) cells are anomalous cytotoxic cells which are potentially important in host defense against cancer. Several studies have demonstrated that natural killer (NK) cell activity can be suppressed by chemical inhibitors of the lipoxygenase pathway through inhibition of the production of leukotriene B4 (LTB4). The present study investigated the effects of the lipoxygenase inhibitors BW755C and nordihydroguaiaretic acid (NDGA) on NK and LAK cell activity. NK cell function of fresh peripheral blood mononuclear cells (PBMC) was determined via a standard chromium release assay employing K562 as the tumor target. The LAK cell activity of PBMC which had been stimulated with 10 IU of interleukin-2 for 72 hr was determined against the NK-resistant cell line Daudi. Both BW755C and NDGA inhibited NK and LAK cell function at a variety of concentrations. Indomethacin, a prostaglandin synthesis inhibitor, did not bring about an appreciable diminution in NK or LAK cell activity. Inhibition of NK and LAK cell activities by BW755C and NDGA could be reversed by washing the effector cell suspensions prior to the cytotoxic assay or by adding LTB4 (10(-11)-10(-8) M) directly to the effector:target suspensions. These data indicate that certain arachidonic acid oxidation products of the lipoxygenase pathway are essential for the function of LAK cells.     

LAK1 antigen defines two distinct subsets among human tumour infiltrating lymphocytes.

Both lymphokine activated killer (LAK) cells and specific cytotoxic T lymphocytes appear to play a role in tumour immunity. Tumour infiltrating lymphocytes (TIL) which display a CD56+ phenotype (both CD3+ and CD3-) are also likely to possess anti-tumour activity. We have previously described a 120 kDa surface antigen, termed LAK1, expressed on a subset of human peripheral blood lymphocytes (20-50%) with both NK and LAK activity. The aim of the present study was to determine whether LAK1 antigen is able to distinguish among TIL two populations of effector cells displaying either specific or non MHC-restricted (NK/LAK) activity. We showed that about 25% of freshly derived TIL were weakly stained with anti-LAK1 monoclonal antibody and most of them were also CD3+ CD56-. After culture in recombinant interleukin-2 the majority of TIL were CD3+ CD56- and the percentage of LAK1+ cells increased up to 50%. Among cloned TIL, only those lacking LAK1 antigen displayed a specific cytotoxicity against the autologous tumour, whereas the non-lytic clones were able to produce both tumour necrosis factor and gamma-interferon. Moreover, when TIL from a renal cell carcinoma were fractionated into LAK1- and LAK1+ populations, the specific lytic activity was mainly evident when LAK1- lymphocytes were used as effector cells. Conversely, LAK activity was confined to the LAK1+ subset.     

Adhesion molecules on murine lymphokine-activated killer cells responsible for target cell killing: a role of CD2.

Lymphokine-activated killer (LAK) cells were induced from C57BL/6 mouse spleen cells and the effects of culture time on the expression of cell surface phenotypes and cytotoxic activity of LAK cells were determined. The expression of CD2 remarkably decreased after culture of LAK cells for 30 days, while LFA-1, a principal adhesion molecule in LAK cells, and CD3 were not changed by the culture. LAK cells cultured for 90 days completely lost CD2. In accordance with the decrease of CD2, the cytotoxic activity of LAK cells declined but a certain leven was retained even after the complete loss of CD2. The established LAK cell clones were also strongly positive for the expression of LFA-1 but negative for CD2. When the LAK cell clones were transfected with the CD2 cDNA, they started to express CD2 on their cell surface and to show greater binding ability and stronger cytotoxicity to target tumor cells. These results indicated that CD2 plays a role as an adhesion molecule responsible for target cell killing in murine LAK cells.     

Adhesion Molecules on Murine Lymphokine-activated Killer Cells Responsible for Target Cell Killing: A Role of CD2

Lymphokine-activated killer (LAK) cells were induced from C57BL/6 mouse spleen cells and the effects of culture time on the expression of cell surface phenotypes and cytotoxic activity of LAK cells were determined. The expression of CD2 remarkably decreased after culture of LAK cells for 30 days, while LFA-1, a principal adhesion molecule in LAK cells, and CD3 were not changed by the culture. LAK cells cultured for 90 days completely lost CD2. In accordance with the decrease of CD2, the cytotoxic activity of LAK cells declined but a certain leven was retained even after the complete loss of CD2. The established LAK cell clones were also strongly positive for the expression of LFA-1 but negative for CD2. When the LAK cell clones were transfected with the CD2 cDNA, they started to express CD2 on their cell surface and to show greater binding ability and stronger cytotoxicity to target tumor cells. These results indicated that CD2 plays a role as an adhesion molecule responsible for target cell killing in murine LAK cells.     

Identification of a novel CD56- lymphokine-activated killer cell precursor in cancer patients receiving recombinant interleukin 2.

Circulating lymphokine-activated killer (LAK) cell activity in cancer patients receiving recombinant interleukin 2 (rIL-2) therapy is confined to cells expressing the CD56- surface marker. However, CD56- cells from these patients but not normal individuals have been reported to exhibit LAK cytotoxicity only following in vitro activation with rIL-2. Studies were performed to document the existence of CD56- LAK precursor cells and to phenotypically characterize this population in patients receiving rIL-2 therapy using fluorescence-activated cell sorter-purified CD56- cell subsets. Initial studies confirmed that CD56- cells exhibit NK activity [20 +/- 7 (SE) LU/10(6) cells] but not LAK activity (0 +/- 0 LU/10(6) cells) when evaluated directly from peripheral blood of patients receiving rIL-2. CD56- cells from patients but not normal individuals developed significant LAK cytolytic activity against NK-resistant COLO 205 targets (16 +/- 3 LU/10(6) cells) when cultured for 3 days with 1500 units/ml rIL-2. The CD56- LAK precursor activity was confined to cells expressing a CD56-CD16+ phenotype and a large granular lymphocyte morphology; little or no NK or LAK precursor activity was detectable in CD56-CD5+ T-cells from patients. Phenotypic characterization of CD16+CD56- cells revealed that this population is uniformly CD11a+,CD18+, and CD38+ and is heterogeneous in its expression of CD11b, CD11c, and CD16/Leu 11c. These results indicate that rIL-2 administration induces enhanced LAK precursor activity in a novel population of CD5-CD16+CD56- cells.     

Preparation and Bioactivity Assay of CD3AK Cell from Lmbilical Cord Blood：—Clinic Report of 10 Tumor Cases

Objective To study the anti-tumor effect of CD3AK cell prepared from umbilical blood,to explore the short-term curative effect on tumor cases and seek better immune index for biotherapy.Methods IL-2 and IL-2 CD3Ab were used to induce LAK cells and CD3AK cells isolated from umbilical blood mononuclear cells(UBMC).The expanding number and bioactivity of LAK cells and CD3AK cells were examined at different time points after culture,the NK activity of peripheral blood mononuclear cells(PBMC)of 10 cases of malignant tumor were determined before and after CD3AK cell adopting immune therapy as well.Results The number and bioactivity(NK killing K562 cell)of LAK and CD3AK cells reached their peaks on 11 th day.The number of LAK and CD3AK cells were 18 folds and 24 folds of that before culture;The NK activities of LAK and CD3AK against K562 were 2.6 folds and 3.2 folds of those before culture respectively.The nK activity for killing K562 cells of malignant tumor patient‘s PBMC was increased from 63%-81% by CD3AK cell transfusing,rising mean 28%.Conclusion (1)The UBMC is a potential and better source of predecessor for LAK and CD3AK;(2)The NK activity of LAK and CD3AK cells from UBMC reached their peaks at 11 th day after culture,and the NK aftivity of CD3AK cells in much greater than that of LAK cells;(3)The NK activity of malignant tumor patient‘s PBMC can be obviously elevated by transfusing CD3AK cell(4)The test of NK activity of PBMC of malignant tumor patient may become an objective immune index for tumor biotherapy.     

CIK细胞体内外抗宫颈癌HeLa细胞活性的研究

目的：探讨细胞因子诱导的杀伤（cytokine-induced killer,CIK）细胞的体内外抗宫颈癌HeLa细胞活性。方法：收集8名健康献血者和8名宫颈癌患者的新鲜外周血,分别通过常规方法分离外周血单核细胞（peripheral blood mononuclear cells,PBMC）,应用相应细胞因子体外诱导分化出CIK细胞,动态观察CIK细胞的体外增殖活性、细胞表型和对HeLa细胞的杀伤活性;在BALB/c裸鼠皮下接种效应细胞,观察宫颈癌患者CIK细胞对接种HeLa细胞的荷瘤鼠的抑瘤作用,同时设淋巴因子激活的杀伤细胞（lymphokine activated killer cells,LAK）和PBMC细胞作为对照。结果：源于健康人和宫颈癌患者的CIK细胞间的增殖活性无明显区别（P〉0.05）。表型分析结果表明,两种来源的CIK细胞中CD3~＋CD56~＋双阳性细胞均得到了大量扩增,宫颈癌患者CIK细胞中CD3~＋CD56~＋双阳性细胞在实验开始前约占0.13%,到实验后第28天上升到25.8%。体外实验表明,宫颈癌患者的CIK细胞杀伤宫颈癌HeLa细胞的细胞毒活性明显高于PBMC细胞。裸鼠体内实验表明,宫颈癌患者CIK细胞能够显著抑制肿瘤的生长,其抑瘤率可达80.6%,高于LAK细胞的59.1%和PBMC细胞的38.3%（P〈0.01）。CIK治疗后肿瘤体积明显比空白对照组缩小（P〈0.05）。结论：宫颈癌患者CIK细胞具有较强的体内外抗宫颈癌细胞活性,有可能用于临床上宫颈癌的过继性免疫治疗。     

Lymphokine-activated killer activity in long-term cultures with anti-CD3 plus interleukin 2: identification and isolation of effector subsets

Peripheral blood lymphocytes cultured in recombinant interleukin 2 during 3 to 5 days (short-term cultures) develop the ability to lyse natural killer-resistant tumor lines and fresh tumor cells, i.e., express lymphokine-activated killer (LAK) function. Phenotypic analysis has shown these cells to be natural killer cells, i.e., CD16+ and/or Leu 19+ cells. CD3+,CD16- T-cells, instead, develop very low LAK function in these cultures. We recently reported the development of long-term (up to 21 days) cultured cells with LAK activity by stimulation with OKT3 + interleukin 2(IL2). These culture conditions repeatedly resulted in a several hundred-fold expansion in cell number. Specific LAK activity on Day 14 of culture was comparable to that of 3-day LAK cultures and could be further enhanced by the addition of interleukin 1 beta, beta-, or gamma-interferon. Total LAK activity was greatly increased in OKT3 + IL2 cultures over that found in short-term cultures. Isolation of effectors mediating LAK function in long-term cultures stimulated with OKT3 + IL2 showed that both CD3+,CD16- cells and CD16+,CD3- cells tested on Day 14 of culture expressed equivalent levels of LAK activity as shown by lysis of natural killer-resistant targets, HL60 and Daudi. Further dissection of the subpopulations developing LAK activity demonstrated that, in addition to CD16+,CD3- cells, CD3+, CD4-,CD8- cells and Leu 19+,CD3-,CD16- cells also developed high LAK activity in long-term cultures with OKT3 + IL2. Further, long-term culture with OKT3 + IL2 induced increases in the numbers not only of CD3+,CD4-,CD8- cells but also of CD16+,CD3- and Leu 19+,CD3-,CD16- cells. Although there is a significant increase in the number of CD3+,CD8+ cells, neither these, nor the CD3+,CD4+ cells, mediate LAK activity to the same extent as the populations mentioned above.     

Inhibition of proliferation, activation and function of human natural-killer-cells in-vitro by secreted products of lovo, a colorectal-cancer cell-line

It has previously been suggested that some tumours may elaborate substances which can suppress the functional activity of lymphokine activated killer (LAK) cells. We have investigated the effects of secreted products from the colorectal cancer cell line LoVo on the pattern of expression of T lymphocyte subsets and natural killer cell phenotype and activation antigens during in vitro treatment of mixed populations of human peripheral blood mononuclear cells with recombinant human IL-2 (rhIL-2). Tumour cell line products inhibited the proliferation of cells expressing the NK cell antigen CD56 and of cells expressing the CD8 T cell subset antigen. Increased expression of the IL-2 receptor alpha chain component CD25, and the activation associated antigens CD71 and HLA-DR induced by rhIL-2 was inhibited by the presence of tumour cell products. Enhanced cytotoxic activity against standard target. cell lines Daudi and K562 induced by treatment with rhIL-2 was diminished by tumour cell supernatants. These mechanisms may contribute to the resistance of some tumours to immune response modulation treatment regimens which depend upon induction of lymphokine activation responses by rhIL-2.     

Inhibition of lymphokine-activated killer cells generation in vitro by soluble factors released from mixed human tumor and peripheral blood mononuclear adherent cells culture

Background: A variety of molecules produced by both tumor cells and normal cells reduce the activity of lymphokine-activated killer (LAK) cells. We tested the possible cross-regulation of mel-624 melanoma cells and adherent peripheral blood mononuclear cells (PBMCs) in affecting LAK cell activity. Methods: PBMC adherent cells were cultured together with mel-624 melanoma cells. Supernatant was transferred to a 4-day LAK cells generation culture consisted of PBMC nonadherent cells and interleukin-2. LAK cytotoxic activity was tested in a 4-hour assay against Daudi tumor cells prelabeled with sodium ⁵¹chromate. Results: The supernatant produced within the first 48 hours of mixed mel-624 melanoma cell and adherent PBMC culture substantially (by 69 percent) reduced the generation of LAK cells, whereas the supernatant from either tumor culture or adherent PBMC culture had no effect. The inhibitory effect was manifested on the generation of LAK cells when autologous nonadherent cells were cultured with 1,000 units/ml IL-2, but there was no effect on mature LAK cell cytotoxic activity. Inhibition of LAK cell generation was partially dependent on protein synthesis and was not mediated by transforming growth factor β (TGF-β). Conclusion: Our results point toward the production of soluble, yet unidentified proteins, in mixed tumor-adherent PBMC cultures, which substantially reduced the induction of LAK cells in culture.     

Decreased susceptibility of lined human gliosarcoma cells to lymphokine-activated killer cell cytolysis by gamma-interferon treatment

The susceptibility of the established cultured gliosarcoma line GI-1 to lymphokine-activated killer (LAK) cells was analyzed with and without interferon (IFN)-gamma treatment of target GI-1 cells. IFN-gamma treatment decreased the susceptibility of GI-1 cells to LAK cell cytolysis in a dose-dependent manner. Acid treatment of GI-1 cells increased their susceptibility to cytolysis compared with untreated cells. IFN-gamma treatment and acid treatment of GI-1 cells respectively increased and decreased the expression of class I HLA antigens on GI-1 cells. The susceptibility of GI-1 cells to LAK cell cytolysis and their expression of HLA class I molecules were inversely correlated. Subpopulation depletion experiments on the LAK cells with monoclonal antibodies and complement revealed that phenotypically natural killer type (CD16+) cells had a high cytotoxic activity against untreated GI-1 cells but a relatively low activity against IFN-gamma-treated GI-1 cells in both the precursor and effector phases. On the other hand, phenotypically T-type (CD3+) cells did not show these tendencies at all in both the precursor and the effector phases.     

Expansion of natural killer (NK) and natural killer-like T (NKT)-cell populations derived from patients with B-chronic lymphocytic leukemia (B-CLL): a potential source for cellular immunotherapy.

B-cell chronic lymphocytic leukemia (B-CLL) is the most common leukemia in the Western world. It is currently an incurable disease, making new treatment options such as immunotherapy desirable. Monoclonal antibodies (Mabs) to surface antigens of the tumor cell is one option. Administration of cytotoxic cells such as natural killer (NK) and natural killer-like T (NKT) cells expanded in vitro might be a useful treatment modality alone or in combination with MAbs. A limiting step in the development of successful cellular immunotherapy has been the availability of appropriate cytotoxic cells. Here, we report the feasibility of expanding populations of the human killer cells, CD3-CD56+ NK and CD3+CD56+ NKT cells, from peripheral blood mononuclear cells (PBMCs) of B-CLL patients. The influence of tumor B cells on the in vitro expansion of killer cells was assessed by depleting B cells from PBMCs by microbead separation before culture. The 21-day cultures from both B-cell- and non-B-cell-depleted PBMC showed a marked expansion of NK cells, and also of T cells, among which almost half had the NKT phenotype. Depletion of B cells before culture did not change the expansion rates of NK and NKT cells significantly. In patients with progressive B-CLL, NK cell expansion capacity was improved after fludarabine treatment when compared to samples obtained before treatment. Repeated samples of PBMCs from individual untreated patients with both indolent and progressive disease cultured under identical conditions gave similar NK cell expansion rates. Expanded killer cell populations had cytotoxic function against the NK-sensitive target K562 cell line and expressed high levels of Granzyme B. From our studies, we conclude that NK cells as well as NKT cells from the peripheral blood of B-CLL patients can be expanded, and that these cells have cytotoxic capacity.     

Effects of Recombinant Interferon-Gamma and Interleukin-2 on the Generation of Lymphokine-Activated Killer Cells in Vitro

In order to determine if recombinant interferon-γ (rIFN-γ) can augment the effect of recombinant interleukin-2 (rIL-2) in generating lymphokine-activated killer (LAK) cells, we have incubated normal peripheral blood mononuclear cells (PBMC) with these lymphokines for 3 days and then tested their LAK and natural killer (NK) cell activity. We have found that LAK activity in PBMC from 13 out of 13 normal donors was increased by the combined lymphokines above that due to either lymphokine alone, provided that rIL-2 was present at suboptimal concentration: Optimal levels of rIFN-γ (100 U/ml) were able to enhance the LAK-inducing activity of suboptimal levels (5 U/ml) but not optimal levels (100 U/ml) of rIL-2. NK activity showed a similar response to these concentrations of lymphokines. Activation of LAK/NK cells was accompanied by increases in the percentages of Leu 19⁺ (CD56) cells and TAC⁺ (IL-2-receptor) cells, and in the intensity of TAC antigen expression. These results indicate that combination rIFN-γ and rIL-2 may be more effective in generating LAK/NK cells than rIL-2 alone, particularly with suboptimal concentrations of rIL-2 such as occur during continuous infusion therapy with this agent.     

Characterization of Transendothelial Migratory Lymphokine-activated Killer Cells

We examined the killing activity of transmigrated lymphokine-activated killer (LAK) cells and their surface molecules associated with both transendothelial migration and cytotoxicity, using human umbilical vein-derived endothelial cell (HUVEC) monolayers on fibronectin with gelatin separating the upper chamber from the lower chamber. Migratory LAK cells were significantly more cytotoxic to Daudi target cells, expressed more LFA-1, and were more likely to be positive for CD2, compared to those LAK cells not adherent to the HUVEC monolayer. In contrast, in the absence of the HUVEC monolayer, there was no difference in LAK activity between migratory and non-adherent LAK cells. These results indicate that the interaction between LAK cells and the HUVEC monolayer allows selective migration of LAK cells with cytotoxic activity that is enhanced with respect to some surface molecules.     

Differential activation of lymphokine-activated killer cells with different surface phenotypes by cultivation with recombinant interleukin 2 or T-cell growth factor in gastric cancer patients

Fourteen days' culture of human peripheral blood lymphocytes (PBL) with recombinant interleukin 2 (rIL 2) or T cell growth factor (TCGF) results in the generation of lymphokine-activated killer (LAK) effector cells which have the unique property of lysing natural killer (NK)-resistant human tumor cells, Daudi, as well as NK-sensitive, K562 cells. LAK cells were generated from both normal and gastric cancer patients' PBL. However, LAK cell activities induced by rIL 2 or TCGF decreased with the progress of the tumor growth. In addition, TCGF-induced LAK cell activities were found to be lower than the rIL 2-induced LAK cell activities. Different mechanisms may be involved in the decreases of the rIL 2-induced and TCGF-induced LAK cell activities. This study further demonstrates that the cell types involved are also heterogeneous, as determined by phenotypic characteristics. The LAK-effector cell type was analyzed by two-color flow cytometry. RIL 2-induced LAK cells showed increased proportions of CD4+Leu 8- and Leu 7+CD16-, and a decreased proportion of CD8+CD11- cells, which are believed to be associated with killer T cell functions. In contrast, TCGF-induced LAK cells revealed significantly increased proportions of CD8+CD11- and CD4+Leu8- cells, and a decreased proportion of Leu 7+CD16- cells. Thus, LAK cells with different surface phenotypes were induced by the cultivations with rIL 2 and with TCGF.     

Impaired Cytotoxic Activity of Interleukin 2 (IL 2)-cultured Large Granular Lymphocytes (LGL) in Childhood Acute Lymphoblastic Leukemia. Quantitative Measurement of IL 2 Receptor Expression of IL 2-cultured LGL

Large granular lymphocytes (LGL) of the natural killer (NK) cell lineage were highly purified and their interleukin 2 (IL 2) receptors (IL 2R) were investigated in childhood acute lymphoblastic leukemia (ALL). Not only NK activity but also 3-day recombinant IL 2-cultured lymphokine activated killer (LAK) activity were decreased in ALL, despite normal percentages of LGL, CD16 (Leul1)⁺ and CD56 (NKH1)⁺ cells. The cytotoxic activity of IL 2-cultured LGL, but not IL 2-cultured T cells, was significantly decreased in ALL, indicating a selective defect of LGL among the killer cells. IL 2R (CD25) numbers/cell of 3-day IL 2-cultured LGL were not decreased in ALL by flow cytometric analysis. Scatchard plot analysis demonstrated that high affinity IL 2R numbers/cell of 3-day IL 2-cultured LGL were normal but the binding affinity level of the receptors in these cells in ALL was one-third of that in the similarly-cultured control cells, suggesting inadequate IL 2-IL 2R interaction is responsible, at least in part, for their reduced cytotoxic activity.     

Highly oncolytic adherent lymphocytes: therapeutic relevance for leukemia

We have generated and characterized a highly oncolytic adherent lymphocyte subset (A-LAK) from eight leukemic patients with non-lymphocytic leukemia (NLL) in remission and one NLL patient in relapse. Our studies demonstrated that A-LAK was superior in its oncolytic activity (tested in a 3-h 51Cr release assay) to conventionally prepared (LAK) and non-adherent (NA) IL-2 cultures. No activity was observed by this highly oncolytic subset against normal bone marrow (BM). A-LAK also displayed highest proliferative activity in 7-11 day cultures (5- to 58-fold expansion) in comparison to LAK (0.7- to 2.7-fold) or NA (1.0- to 2.6-fold) cultures. Analysis of phenotype of unseparated, NA and adherent (A-LAK) lymphocytes 24 h after IL-2 activation showed that the A-LAK was composed predominantly of high intensity (bright) CD11a+ (LFA-1) lymphocytes (75 +/- 4.8%) when compared to the other two populations (12 +/- 2.1%). Similarly, A-LAK contained higher proportion of CD11b (CR3 receptor)-positive lymphocytes (39 +/- 2.1%) than unseparated and NA lymphocytes (11 +/- 1.4%). Double marker phenotypic studies showed that A-LAK cultures were heterogeneous and distribution of individual lymphocyte subsets differed among NLL patients. While in A-LAK culture of some patients the CD56+, CD3- natural killer (NK) cell subset was predominant, CD3+, CD56- lymphocyte subset was prevalent in others. Highest A-LAK lytic activity was always correlated with highest NK cell content. Characterization studies (using the complement-depletion technique) showed that independently of the distribution of lymphocytes in A-LAK cultures, CD16+, CD56+, CD3- NK cell subset displayed highest oncolytic effect. CD5+ subset also participated in cytotoxic function. These observations indicated that A-LAK may represent a new therapeutic approach to treatment of leukemia.     

脐血CD_3AK细胞的制备、生物活性测定及临床应用初探

 目的　研究用脐血单个核细胞制备CD3 AK细胞的抗肿瘤作用 ,探讨肿瘤生物治疗近期疗效的免疫指标。方法　分离脐血单个核细胞 ,分别用IL 2和IL 2 +CD3 Ab诱导LAK和CD3AK细胞 ,并测其扩增数量和对K5 6 2细胞的杀伤活性 ;测定肿瘤患者用CD3 AK细胞治疗前后外周血单核细胞(PBMC)的NK杀伤活性。结果　脐血LAK细胞和脐血CD3 AK细胞均于培养后第 11天时扩增倍数最高 ,分别是培养前的 18倍、2 4倍 ,对K5 6 2的杀伤活性分别是培养前的 2 .6倍和 3.2倍 ;肿瘤患者输注CD3 AK细胞一疗程后 ,其PBMC的NK杀伤活性由 6 2 %升高到 82 % ,平均升高 32 %。结论　 (1)脐血单个核细胞是LAK细胞和CD3 AK细胞良好的前体细胞。 (2 )LAK和CD3 AK细胞的数量和杀伤能力在培养的第 11天时达高峰 ,而且CD3 AK细胞数量和杀伤活性明显优于LAK细胞。 (3)CD3 AK细胞输注能明显提高肿瘤患者PBMC的NK活性。 (4 )肿瘤病人PBMC的NK活性测定可望成为肿瘤生物治疗的一个近期疗效参数