Susceptibility of acute myelogenous leukemia blasts to lysis by lymphokine-activated killer (LAK) cells and its clinical relevance.

To help understanding host-tumor relationships in acute myelogenous leukemia (AML) and better define indications for interleukin 2 (IL-2) therapy in this disease, we studied the relationship between the susceptibility of leukemic cells of 44 AML patients to lysis by autologous (26 cases) and/or allogeneic (41 cases) lymphokine-activated killer (LAK) cells and characteristics of the leukemia. Lymphocytes were activated in the presence of 1000 u/ml recombinant IL-2 for 5 days. Lysis of AML cells was studied by 51Cr release. Average lysis of AML cells by autologous LAK cells was 9 +/- 13% and by allogeneic LAK cells 10 +/- 9% with a significant correlation between lyses by both effectors (p = 0.01). Autologous (p = 0.005) and allogeneic (p = 0.004) lyses were higher in patients with initial infection. Allogeneic lysis was correlated with initial WBC count (p = 0.009), serum lactic-dehydrogenase level (p = 0.05), and expression of CD13 (p = 0.01). Autologous lysis was inversely correlated with expression of CD34 (p = 0.003). Expression of adhesion molecules CD54 (ICAM-1) and CD58 (LFA-3) by the leukemic cells did not correlate with their lysis by LAK cells. Susceptibility of leukemic cells to lysis by LAK cells did not correlate with prognosis of the leukemia.     

Recombinant interleukin-2 activates peripheral blood lymphocytes from children with acute leukemia to kill autologous leukemic cells

In order to determine if recombinant interleukin-2 (rIL-2) can induce lymphokine-activated killer (LAK) cells able to lyse autologous leukemic cells, we incubated peripheral blood (PB) mononuclear cells from children with acute leukemia with 50 U/ml rIL-2 for 5 days. These PB effector cells were then tested for their ability to lyse autologous leukemic cells in a 51CR release assay. The PB cells before incubation with rIL-2 showed little or no cytotoxicity for autologous blasts (range, 0 to 12%; mean, 2%). However, after incubation with rIL-2, PB cells from four of five children with acute lymphoblastic leukemia (ALL) at diagnosis or in relapse, and from six of eight children with ALL in remission were able to lyse autologous blasts. The percent lysis (range) was 0 to 69% (mean, 37%) for the former group, and 0 to 113% (mean, 43%) for the latter group. The PB cells from three patients (one in relapse and two in remission) failed to develop LAK activity after incubation with rIL-2. However, in each case cytotoxicity versus K562 was increased after incubation with rIL-2. Furthermore, in a Phase I study of rIL-2 for the treatment of refractory leukemia, a patient was treated with rIL-2 for 3 weeks (nine injections of 3 x 10(6) U/m2 each). Her fresh PB mononuclear cells developed a low level of cytotoxicity (11% lysis) against her autologous blasts during this time. The finding that rIL-2 in vitro and in vivo induces LAK cells with cytotoxicity against autologous leukemic cells provides the rationale for the clinical trial of this agent in the treatment of children with ALL.     

Susceptibility of adult acute lymphoblastic leukemia blasts to lysis by lymphokine-activated killer cells

To help understand host-tumor relationships in adult acute lymphoblastic leukemia (ALL) and to better define potential indications for interleukin-2 (IL-2) treatment in this disease, the relationship between the susceptibility of leukemia cells of 22 patients with ALL to lysis by allogeneic lymphokine-activated killer (LAK) cells and characteristics of the leukemia was studied. Lymphocytes were activated in the presence of 1000 U/ml recombinant IL-2 for 5 days. The lysis of ALL cells was studied by the release of 51Cr. The average lysis of ALL cells by control, unactivated lymphocytes was 1.2 +/- 2.4% and by LAK cells 8.9 +/- 8.6%. The susceptibility of leukemic cells to lysis did not correlate with the expression of lymphoid or myeloid differentiation markers or expression of the adhesion molecules CD54 (ICAM-1) and CD58 (LFA-3). Leukemic cells of the FAB I2 subtype were significantly more resistant to lysis than those of the other subtypes (average lysis 1.4 +/- 3.0% versus 12.3 +/- 8.2%, p = 0.003). The susceptibility to lysis did not correlate with the other initial characteristics of the leukemia. The 11 patients in whom 8% or more of leukemic cells were lysed by allogeneic LAK cells survived significantly longer than the 11 patients whose blast cells were less susceptible to lysis (p = 0.04). It is concluded that IL-2 treatment might be of benefit in adult ALL, particularly in non-L2 FAB subtypes and during complete remission to possibly delay relapse and prolong survival.     

Characterization of Philadelphia-chromosome-positive acute leukemia by clinical, immunocytochemical, and gene analysis.

Philadelphia chromosome (Ph') was detected at presentation in 10 out of 110 patients with acute lymphoblastic leukemia (ALL) and five of 168 patients with acute myelogenous leukemia (AML). Two other ALL patients who had studies at relapse were also included in the analyses. One of the 12 Ph'-positive (Ph+) ALL patients had simultaneous expression of myeloid-associated antigen on the leukemic blasts, while all the five AML patients coexpressed markers of lymphoid cells. Double labeling of the cells with myeloperoxidase and CD10 on three Ph+ AML cases showed that most leukemic blasts expressed either myeloperoxidase activity or CD10 but not both. Cross-lineage gene rearrangements of T-cell receptor (TCR) beta-chain gene were detected in three of the eight Ph+ ALL patients tested. All the four Ph+ AML cases studied showed immunoglobulin heavy chain gene rearrangements, and three of them also had simultaneous rearrangements of TCR beta-chain gene. The results revealed that Ph+ acute leukemia in this study belonged either to ALL or mixed lineage leukemia, and none was pure AML. This finding is contrary to that of acute blast crisis of chronic myelogenous leukemia in which the majority of patients had myeloid transformation. Rearrangements of bcr were detected in four of the 10 Ph+ ALL and three of the four Ph+ AML patients tested. No significant difference was noted in the clinical or hematologic manifestations among Ph+ leukemia with or without bcr rearrangements.     

Induction of leukemia-specific cytotoxic response by cross-presentation of late-apoptotic leukemic blasts by autologous dendritic cells of nonleukemic origin

Acute myeloid leukemias (AMLs) are monoclonal proliferations of undifferentiated myeloid progenitors in blood and bone marrow. Long-term remissions are achieved in <50% of patients. There is hope that activation of specific antileukemic immune responses could efficiently eliminate minimal residual disease at the end of chemotherapy and decrease the frequency of relapses. It was demonstrated that AML leukemic blasts can acquire the morphology and phenotype of dendritic cells (DCs), i.e., differentiate into leukemic DCs. However, this method has limitations as a potential immunotherapy. The alternative approach for the induction of leukemia-specific cytotoxicity we explored in this study consisted of using DCs of nonleukemic origin, pulsed with autologous apoptotic leukemic blasts. We show that mature pulsed nonleukemic DCs were successfully generated from remission samples of all tested patients with minimal interindividual differences. Mature pulsed DCs were used as antigen-presenting cells for leukemia-specific CTL induction. Specific cytotoxic activity against autologous AML blasts was demonstrated. Tumor lysis was autologous blast specific, with no killing activity against allogeneic leukemic cells or autologous mature unpulsed DCs and was MHC class I and class II restricted. In one patient, autologous CTLs stimulated by leukemic DCs or pulsed nonleukemic DCs showed similar significant cytotoxic activity against autologous AML cells. These findings demonstrate the induction of leukemia-specific cytotoxic response by nonleukemic mature DCs cross-presenting apoptotic leukemic blasts and offer a complementary approach to the use of leukemic DCs. We believe that this strategy permits the generation of DC vaccines for the majority of patients with hematological malignancies.     

Cutaneous delayed hypersensitivity responses to tumor-associated and other antigens in acute leukemia

Fifty-three patients with ALL (acute lymphocytic leukemia), twenty-five patients with AML (acute myelogenous leukemia), and thirty-eight healthy persons were tested for cutaneous delayed hypersensitivity with a standard battery of recall antigens and membrane extracts of normal white cells. The leukemic patients were also tested with membrane extracts of autologous and allogeneic blast and remission cells. There was not a significant difference between normals and leukemics in their response to PPD, mumps or SKSD. Positive results were elicited in the leukemia patients by blast cell extracts and not by extracts of remission or normal cells. In both AML and ALL patients, there was a statistically significant difference in the percentage of positive responses to autologous (and in ALL, allogeneic) blast extracts in remission and relapse. Serial responses of patients to autologous blast material were usually related to clinical status, being positive in remission and negative when a patient relapsed. There was a slight increase in remission length for patients who had positive responses to autologous material. A small group of ALL patients on an immunotherapy protocol, receiving BCG and allogeneic blast cells, was studied. There was no increase in incidence of positive reactions to the immunizing or other allogeneic blast cells after being on this protocol as compared with the reactions prior to receiving the cells. On different ALL treatment protocols there were different percentages of positive responses to autologous blast material. The pattern of responses seen in leukemia patients to autologous and allogeneic blast cells as compared with their responses to normal cells, remission cells, and other leukemia type cells provides evidence for cell-mediated immunity to tumor-associated antigens on human acute leukemia cells.     

Mechanisms of selective killing of neuroblastoma cells by natural killer cells and lymphokine activated killer cells. Potential for residual disease eradication.

Widely disseminated neuroblastoma in children older than infancy remains a very poor prognosis disease. Even the introduction of marrow ablative chemotherapy with autologous rescue has not significantly improved the outlook for these children, presumably because of a failure to eradicate minimal residual disease. One additional approach which may hold promise is the use of immunomodulation with cytokines such as IL2 in the setting of minimal residual disease (MDR), for example after intensive chemotherapy and ABMT. However, considerable variability in the susceptibility of neuroblastoma cells to natural killer (NK) and lymphokine-activated (LAK) killing has been observed, and it is presently unclear how NK and LAK cells recognise neuroblastoma cells. In this paper we examine expression of cell adhesion molecules on neuroblastoma to determine which of these modify interaction with NK and LAK cells. We find that LFA-3 (CD58), the ligand for CD2 is of predominant importance in predicting susceptibility of neuroblastoma to the cytotoxic actions of NK and LAK cells, while expression of ICAM-1 (CD54) may also modify susceptibility. These findings were confirmed by blocking experiments in which co-culture of target cells with ICAM-1 and LFA-3 reduced LAK and NK cytotoxicity. Study of the immunophenotypic features of each patient''s neuroblastoma cells before induction of MRD may be valuable in determining the likely effect of IL2 in predicting disease reactivation.     

HLA class I antigen cell surface expression is preserved on acute myeloid leukemia blasts at diagnosis and at relapse.

Human leukocyte antigens (HLA) class I molecules restrict the interaction between cytotoxic T cells and target cells. Abnormalities in HLA class I antigen expression and/or function may provide tumor cells with a mechanism for escaping immune surveillance and resisting T cell-based immunotherapies. The potential for applying T cell-based immunotherapy in the treatment of acute myeloid leukemia (AML) has stimulated interest in analyzing HLA class I antigen expression on leukemic blasts in this disease. Little information is available in the literature. We have analyzed HLA class I antigen expression on bone marrow samples from 25 newly diagnosed AML patients by indirect immunofluorescence staining with monoclonal antibodies. Five of these patients were also studied at relapse. Leukemic blasts were resolved from normal lymphocytes by staining with antiCD45 antibody; CD45 expression is dim on leukemia cells, but bright on lymphocytes. HLA class I antigen expression was higher on leukemic blasts than on autologous lymphocytes in all but one case. Moreover, there was no significant change in HLA class I antigen expression at relapse. These results suggest that abnormalities in HLA class I antigens are infrequent in AML and should not represent a major obstacle to the application of T cell-based immunotherapies in this disease.     

Functional analysis of cytotoxic cells in patients with acute nonlymphoblastic leukemia in complete remission

In the current study, we investigated the cytotoxic ability of peripheral blood mononuclear cells (PBMC) recovered from patients with acute nonlymphoblastic leukemia (ANLL) in complete remission (CR) against natural killer (NK)-sensitive, NK-resistant, autologous and allogeneic leukemic target cells taken at diagnosis. Our purpose was to define the role played by cytotoxic mechanisms in the control of leukemic cell growth in ANLL. Experiments were carried out at resting conditions and after in vitro activation with recombinant interleukin-2 (rIL-2) and anti-CD3 monoclonal antibody (moAb). At resting conditions, PBMC recovered from ANLL patients displayed a NK function that was not significantly different from controls (mean +/- standard error of the mean [SEM]: 21.9% +/- 3.9% versus control values of 27.5% +/- 2.9%; the P value was not significant [NS]), but they were unable to show cytotoxic activity against autologous and allogeneic leukemic cells. After in vitro boosting with rIL-2, PBMC were able to generate lymphokine activated killer (LAK) cells, as demonstrated by an increased killing of NK-resistant Daudi targets (16.3% +/- 2.7%). Although LAK activity was quantitatively lower than in control subjects (mean +/- SEM: 16.3% +/- 2.7% versus control values of 79.8% +/- 3.1%; P less than 0.001), it still exerted a cytotoxic effect against autologous and allogeneic leukemic cells. Similar results were obtained when anti-CD3 moAb was used as a stimulus in vitro. Our data suggest that nonspecific cytotoxic cells may be triggered to exert an in vitro cytotoxic effect on leukemic cells, which could possibly play a key role in vivo in the control of leukemic cell growth regulation.     

Resistance of chronic lymphocytic leukaemia cells to interferon-alpha generated lymphokine activated killer cells.

Recent studies have shown that, when used in early stage disease, interferon-alpha (IFN-alpha) can produce a fall in the number of malignant cells in the peripheral blood of patients with B-CLL. In this study, we investigated the effect of IFN-alpha on natural killer (NK) cell and lymphokine-activated cell (LAK) activity in patients with B-CLL. In vitro, IFN-alpha (500 U/ml for 18 hours) induced LAK activity in patients with B-CLL (27.7 +/- 9.9%, n = 20), and IL-2 (500 U/ml for 5 days) produced similar activity (35.9 +/- 8.8%, n = 7). Despite the induction of LAK activity by IFN-alpha and IL2 in patients with B-CLL, the malignant cells remained resistant to both allogeneic and autologous LAK effectors. NK activity in patients with B-CLL is also low (23.1 +/- 7.2%, n = 20), and B-CLL cells were resistant to NK cell activity. In cold target competition assays, CLL cells did not compete with labelled K562 or Daudi targets in the NK and LAK assays, suggesting that the malignant cells are not recognised by the effector cells, and this may be related to low level of expression of the adhesion receptors, LFA-1 and ICAM-1. Finally, CLL cells were also resistant to antibody dependent cell mediated cytotoxicity, but were susceptible to antibody dependent complement mediated lysis. These results suggest that it is unlikely that the effects of IFN-alpha in B-CLL are due to the enhancement of NK or LAK activity.     

Conjugate Formation by Leukemic Blasts from Acute Myeloid Leukemia with Cytotoxic Lymphocytes

Conjugate formation by AML blasts with fresh peripheral blood lymphocytes (PBL) and lym-phokine activated killer (LAK) effectors was studied by flow cytometry. Leukemic blasts formed very low numbers of conjugates with fresh PBL and were resistant to natural killer (NK) cytotoxicity. When LAK effectors were used a significant increase in conjugate formation was observed, which in the majority of cases was followed by an increased killing. There was a positive correlation between the percentages of conjugates formed by AML blasts with LAK effectors and the susceptibility to lysis. No significant difference in binding activity between the CD3+ and CD56+ LAK subpopulations was found. There was no correlation between the expression of ICAM-1, LFA-3 and Transferrin receptor (CD71) and the conjugate formation. The blocking of CD71 on the control K562 cell line reduced the conjugate formation with LAK effectors but no such effect could be observed with CD71 + AML blasts.     

Effect of human interleukin 3 on the susceptibility of fresh leukemia cells to interleukin-2-induced lymphokine activated killing activity.

Pretreatment of acute myeloblastic leukemia cells with the hemopoietic growth factor interleukin 3 (IL3) increased their susceptibility to lymphokine activated killing (LAK) but did not affect their constitutive resistance to native natural killer activity. In addition, IL3 treatment did not alter the LAK cell-mediated killing of CD34+ hemopoietic progenitors present in normal bone marrow. Increased 3H-thymidine uptake was generally observed after IL3 treatment. However, failure to proliferate in response to IL3, observed in some cases, did not prevent changes in LAK susceptibility. Enhanced lysis of IL3-treated leukemic cells was accompanied by a moderate increase of the effector-target binding. Increased LAK susceptibility was already observed at 18 h, while optimal cytolysis and expression of the cell adhesion molecule (CAM) LFA-3 (CD58) by IL3-treated AML cells were concomitantly observed at later culture times. In contrast, the CAM ICAM-1 (CD54) was not modulated by IL3, nor were significant changes in the expression of either CAMs observed in normal hemopoietic cells. Blocking experiments with the anti-CD58 monoclonal antibody demonstrated a variable neutralizing effect on the IL3-induced increase of LAK activity, depending on the leukemia cell studied. The effect described here, together with the known role of IL3 in normal hemopoiesis makes it a factor of potential therapeutic value for the treatment of leukemic patients.     

Interleukin-2 induction of lymphokine-activated killer activity in the peripheral blood of an acute lymphoblastic leukaemia patient--case study.

In this case study an acute lymphoblastic leukaemia (ALL) patient relapsing after autotransplant had remission reinduced with chemotherapy and consolidated after initial response by a course of therapy with recombinant interleukin-2 (rIL-2) given subcutaneously. Immunological parameters measured during therapy demonstrated an increase in the numbers of T cells and in lymphokine-activated killer (LAK) cell activity against autologous leukaemic blasts and LAK-sensitive cell lines. The therapy was well tolerated and administered on an out-patient basis. The patient has remained in haematological remission for over twelve months. Sustained remissions have not been observed previously in relapsed transplant patients using chemotherapy alone. The data suggests that rIL-2 deserves further evaluation in ALL patients who are immunologically intact with residual disease after primary or secondary chemotherapy.     

Expression of the multidrug transporter P-glycoprotein is highly correlated with clinical outcome in childhood acute lymphoblastic leukemia: results of a long-term prospective study

The improved cure rate in childhood ALL may be attributed largely to the effective multidrug regimens currently applied in well-designed clinical trials. However, in a minority of patients with ALL, chemotherapy failure remains a leading cause of cancer related death, most probably due to cellular drug resistance. The better-known mechanism of such resistance is mediated by P-glycoprotein (P-gp). In a long term prospective study (mean time of follow-up: 65 months) the multidrug efflux pump P-gp was examined immunocytochemically in leukemic cells of 102 protocol-treated children with de novo acute lymphoblastic leukemia (ALL) and of 37 children with relapsed ALL. Fourteen percent expressed P-gp at initial diagnosis and 35% were P-gp positive at relapse. The patients being P-gp positive at initial diagnosis had a higher rate of leukemic relapse than the P-gp negative patients (P = 0.02). In the relapsing patients, those who were P-gp positive had a 2.18-fold greater risk for leukemic death than those who were P-gp negative. Paired analysis on diagnostic and relapsed samples from 20 patients did not support the hypothesis of P-gp mediated expression being a chemotherapy induced phenomenon. The cumulative event free survival for de novo ALL patients was significantly higher in the P-gp negative patient group. Multivariate analysis showed that P-gp expression is independent of other known risk factors. In conclusion we strongly advise that tests for P-gp in leukemic blasts should be conducted for every child with ALL, since this parameter selects a subgroup of patients with increased risk for leukemic relapse.     

Distinct α-L-Fucosidase Isoenzyme Profiles in Human Leukemic Cells

-L-Fucosidase (EC 3.2.1.51; FUS) activity and isoenzyme characteristics were analyzed in normal lymphocytes, normal (polymorphonuclear leukocytes, PMNs), and myeloid and lymphoid leukemic cells. Chronic lymphocytic leukemia (CLL) lymphocytes had a lower mean specific activity than normal lymphocytes (2.5 vs. 4.0, p 0.05). Acute lymphoblastic leukemia (ALL) blasts had a higher mean specific activity compared to normal lymphocytes (9. 7 vs. 4.0; p 0.001), CLL lymphocytes (9.7 vs. 2.5; p 0.001), and acute myeloid leukemic (AML) blasts (9.7 vs. 7.6; p = NS). Normal PMNs had a higher mean specific activity than normal lymphocytes (7.0 vs. 4.0; p 0.05) but similar activity when compared to CML cells or AML blasts. Blasts from acute myelomonocytic leukemia (AMMoL) patients had higher activity than normal PMNs (9.0 vs. 7.0; p 0.05). The isoenzyme patterns of normal and leukemic granulocytes and lymphocytes were obtained by automated chromatofocusing on PBE-94 microcolumns with normal and leukemic lymphocyte lysates. With normal and leukemic lymphoid lysates two major isoenzyme components (B and A) were isolated. The isoenzyme patterns of PMN, AML, CML, and AMMoL revealed three major peaks (B, A, I), totally different from those seen in lymphoid cells. The patterns of AML, CML, and PMN appeared to be similar to each other; however, the isoenzyme pattern obtained from AMMoL cells could be distinguished from the others by a prominent I peak. Thus, the FUS isoenzyme profile distinguishes the blasts of AMMoL from AML; and AMMoL and AML from ALL.     

Adhesion molecule expression, clinical features and therapy outcome in childhood acute lymphoblastic leukemia.

In view of the relevance of adhesion molecule expression for the mechanisms of homing, trafficking and spreading of malignant cells, we have investigated the expression of surface adhesion molecules in lymphoblasts from 57 acute lymphoblastic leukemia (ALL) cases and tried to correlate the adhesive phenotype with immunological typing, prognostic factors at diagnosis and clinical follow-up. Blasts from all cases expressed adhesion molecules at high rates. Beta1 integrin chain (CD18) was consistently found on blasts from most ALL cases: among integrins of the beta2 family. LFA-1 was detected in 58% of cases, in the virtual absence of other alpha chains. CD54 and CD58 were expressed in variable proportions by ALL blasts and CD44 was detected in the majority of the malignant cells, whereas the CD62L selectin was only present in 24% of cases. B-lineage ALL's displayed similar adhesion molecule phenotypes irrespective of maturational stages of the leukemic cells. We found a significantly reduced expression of beta2 alphaL integrins in the hybrid ALL cases (CD13 and/or CD33 positive). However, these cases did not show differences in clinical presentation and behaviour in comparison with patients of other groups. We did not find a significant correlation between adhesion molecule expression and well established risk factors (age, white blood cell count, central nervous system involvement, chromosomal abnormalities), with the exception of splenomegaly, that was significantly associated with CD18 expression. In the follow-up, no evidence of significant correlation between adhesive phenotype and adverse events such as leukemic relapse and death was found. In conclusion, although expression of adhesion molecules on lymphoblasts confirms the phenotypic heterogeneity of ALL, it appears that this is not relevant for the clinical aspects of the disease and for prognosis.     

Modulation of multidrug resistance by verapamil or mdr1 anti-sense oligodeoxynucleotide does not change the high susceptibility to lymphokine-activated killers in mdr-resistant human carcinoma (LoVo) line

Two sublines were derived from the colon adenocarcinoma line LoVo, the first one was sensitive (LoVo/H) and the second one was made resistant to doxorubicin (LoVo/Dx). When tested for susceptibility to lysis by different types of immune effectors, LoVo/Dx appeared more sensitive than LoVo/H to the killing of CD3+CD5+CD16-, CD3- CD16+)-enriched lymphokine activated killers (LAK) or activated macrophages. In order to check whether this effect was due to different expression of glycoprotein P170 between the two LoVo sublines (30% vs. 90% of positive cells), a pharmacological and genetic modulation of P170 was carried out in LoVo cells. Treatment of LoVo/Dx with the calcium channel blocker verpamil (VRP), strongly impaired P170 function as evaluated by reduced Dx resistance, without affecting the lysability of LoVo/Dx cells by LAKs. Moreover, the significant inhibition of P170 expression resulting from the treatment of LoVo/Dx with mdr1 anti-sense olideoxynucleotide also failed to change the high lysability of LoVo/Dx by LAKs. These results, therefore, indicate that molecules other than P170 are involved in the increased lysis of LoVo/Dx subline by immune effectors and that down-regulation of the P170 expression or function will not reduce the potential effectiveness of cancer chemo-immunotherapy.     

In vitro and in vivo susceptibility of human leukemic cells to lymphokine activated killer activity

The susceptibility of human myeloid and lymphoid leukemic blasts to the lytic action of recombinant interleukin-2 (rIL-2)-generated lymphokine activated killer (LAK) cells was analyzed. With the exception of the K562 cell line, all 9 leukemic cell lines tested were resistant to the natural killer activity of freshly isolated peripheral blood lymphocytes (PBL) from healthy donors but were susceptible to the lytic action of PBL cultured for 3 days in the presence of rIL-2. Of the 32 primary myeloid and lymphoid acute leukemia samples investigated, the great majority were natural killer cell-resistant but were variably sensitive to LAK effectors. Variations in LAK activity were observed according to the donor of PBL, while little or no difference was documented in the capacity to elicit LAK activity of PBL cultured with 100 or 1,000 U of rIL-2/ml. Pretreatment of the leukemic target cells with neuraminidase did not increase substantially their sensitivity to LAK activity. LAK cells generated from the PBL of patients at the onset of the disease or in complete clinicohematological remission lysed Raji cells as efficiently as normal LAK effectors. Finally, LAK cells were capable of abrogating the tumor growth in nude mice of a human leukemic T cell line. These findings demonstrate the susceptibility in vitro and in vivo of human leukemic blasts to the lytic effect of LAK cells and point to a possible clinical exploitment of this new form of adoptive immunotherapy in the management of acute leukemia.     

An Hsp70 peptide initiates NK cell killing of leukemic blasts after stem cell transplantation

In contrast to solid tumors, leukemic blasts frequently present both Hsp70 and HLA-E on their cell surface and thereby present activating and inhibitory signals to CD94(+) NK cells. In the first 12 months after stem cell transplantation (SCT) CD94(+) NK cells clearly dominate over CD3(+)/CD16(-)/56(-) T and CD3(+)/CD16(+)/56(+) NK-like T cells. An incubation of post-SCT-derived peripheral blood lymphocytes with the Hsp70 peptide TKD and IL-15 enhances the cell surface density of CD56/CD94 and initiates the cytolytic activity of NK cells against Hsp70/HLA-E double-positive autologous and allogeneic leukemic blasts. Hsp70 was identified as the target structure for TKD-activated NK cells.     

Absence of class II-associated invariant chain peptide on leukemic blasts of patients promotes activation of autologous leukemia-reactive CD4+ T cells

Immune escape in cancer poses a substantial obstacle to successful cancer immunotherapy. Multiple defects in HLA class I antigen presentation exist in cancer that may contribute to immune escape, but less is known about roles for HLA class II antigen presentation. On class II(+) leukemic blasts, the presence of class II-associated invariant chain peptide (CLIP) is known to be correlated with poor survival in acute myeloid leukemia (AML). In this study, we evaluated the functional significance of CLIP expression on leukemic blasts of AML patients. CD4(+) T cells from patients were cocultured with autologous CLIP(-) and CLIP(+) primary leukemic blasts and analyzed for several functional parameters by flow cytometry. Increased HLA-DR and IFN-γ expression was observed for CD4(+) T cells stimulated with CLIP(-) leukemic blasts, in contrast to CLIP(+) leukemic blasts, which indicated an activation and polarization of the CD4(+) T cells toward T-helper 1 cells. In addition, CLIP(-) leukemic blasts induced greater outgrowth of effector memory CD4(+) T cells (with HLA-DR-restricted T-cell receptor Vβ repertoires) that were associated with better leukemia-specific reactivity than with CLIP(+) leukemic blasts. Our findings offer a clinical rationale to downmodulate CLIP on leukemic blasts as a strategy to degrade immune escape and improve leukemia-specific T-cell immunity in AML patients.