Factors determining the ability of cytokine-activated killer cells to lyse human ovarian carcinoma targets

Lysis of human ovarian carcinoma cells by natural killer (NK) cells, interferon-alpha activated NK cells (alpha-NK) and lymphokine-activated killers cells (LAK) was studied using both fresh tumor cells and a cell line (HEY) as targets. A clonogenic assay to measure cell kill was more sensitive than a 4-h 51Cr release assay. Both assays showed that single cells were more effectively lysed than were tumor clumps (spheroids). Freshly isolated tumor cells studied in the 51Cr release assay appeared equally susceptible to lysis by LAK cells whether in the form of clumps or single cells, but NK and alpha-NK effectors appeared much less effective in lysing susceptible target cells when they were in clumps. Tumor cells from some patients showed marked resistance to lysis by NK and alpha-NK cells in fractions enriched for clonogenic cells, even when tested in a single cell-suspension, whereas LAK cells were always cytolytic. These data suggest that intrinsic resistance of ovarian carcinoma to lysis by LAKs is unlikely to explain failure of LAK + IL-2 therapy to eradicate tumor in vivo.     

Interleukin-6 does not support interleukin-2 induced generation of human lymphokine-activated killer cells

Summary The activity of lymphokine-activated killer (LAK) cells is supported by various cytokines. The objective of this study was to see if recombinant interleukin-6 (IL-6) either alone or in combination with interleukin-2 (IL-2) has any effect on the generation of LAK cells. Peripheral blood mononuclear cells of healthy donors were cultured for 4 or 6 days with both cytokines either alone or in combination. LAK activity against K562 and natural killer-resistant Daudi cells was assessed by a 4-h and an 18-h⁵¹Cr-release assay at various effector to target ratios. IL-6 alone in increasing concentrations did not induce LAK cell activity. Neither additive nor synergistic effects of IL-6 with IL-2 were observed. Immunofluorescence analysis with phycoerythrin-conjugated anti-CD56 antibody demonstrated that IL-6 could not maintain or increase the number of CD56-positive cells over a 6-day culture period. These results suggest that IL-6 does not support LAK cell generation by itself or increase LAK cell activity in combination with IL-2.     

Drug resistance in rat colon cancer cell lines is associated with minor changes in susceptibility to cytotoxic cells

The development of resistance to anticancer drugs urges the search for different treatment modalities. Several investigators have reported the concomitant development of drug resistance and resistance to natural killer (NK), lymphokine-activated killer (LAK) or monocyte/macrophage cell lysis, while others described unchanged or even increased susceptibility. We investigated this subject in the rat colon carcinoma cell line, CC531-PAR, which is intrinsically multidrug-resistant (MDR), and in three sublines derived from this parental cell line: a cell line with an increased MDR phenotype (CC531-COL), a revertant line from CC531-COL (CC531-REV), which demonstrates enhanced sensitivity to anticancer drugs of the MDR phenotype, and an independently developed cisplatin-resistant line (CC531-CIS). In a 4-h⁵¹Cr-release assay we found no difference in susceptibility to NK cell lysis. No significant differences in lysability by adherent LAK (aLAK) cells were observed in a 4-h assay. In a prolonged 20-h⁵¹Cr-release assay an enhanced sensitivity to aLAK-cell-mediated lysis was observed in the revertant, P-glycoprotein-negative cell line and in the cisplatin-resistant cell line (CC531-CIS). None of the cell lines was completely resistant to lysis by aLAK cells. Therefore, a role for immunotherapy in the treatment of drug-resistant tumors remains a realistic option.     

In vitro antitumor effect of LAK cells and alpha interferon in combination on tumor cell lines.

In vitro antitumor effects of LAK cells and alpha-2b-Interferon (IFN) either alone or in combination were evaluated on NK resistant (K562) and NK sensitive (Namalwa, Raji) cell lines. Tumor cells were incubated with LAK cells for 4, 8 and 24 hours at a LAK: tumor cell ratio of 1:1, 10:1, 100:1, or with IFN for 48 and 96 h at the concentrations of 100, 1000, 10,000, 100,000 IU/ml. A clonogenic assay was utilised to enumerate residual cells after in vitro treatment. A positive correlation was found between tumor cell killing and effector: target ratio, IFN of 100:1 incubated for 4 h, and 100 IU/ml of IFN incubated for 48 h were further chosen. A synergistic effect was found when IFN was incubated before LAK cells or contemporarily, but not when IFN was incubated after LAK cells. These findings demonstrate that an additive or a synergistic effect in vitro can be obtained by adding the two agents in different sequences and suggest that a potential utility of LAK cells and IFN in vivo should be tested in clinical trials.     

The immunobiology of T cell responses to Mls-locus-disparate stimulator cells. III. Helper and cytolytic functions of cloned, Mls-reactive T cell lines

Mls-specific T cell clones derived by limiting dilution were tested for cytotoxic activity in a lectin-dependent 51Cr-release assay. All the T cell clones tested were cytotoxic in such an assay in apparent contrast to previous reports. However, only those target cells sensitive to cytolysis by other L3T4a+ cytolytic T cells were killed by Mls-specific T cell clones in short term 51Cr-release assays, possibly explaining this discrepancy. All the T cell clones tested were L3T4a+, Lyt-2- and stimulated B cells from Mlsa,d strains of mice to proliferate and secrete immunoglobulin. Furthermore, lysis of innocent bystander targets was observed when the T cells were stimulated with Mls-disparate stimulator cells. These results are consistent with those obtained with L3T4a+ T cells specific for protein antigen:self Ia and that express cytotoxic potential.     

The development and purification of a bispecific antibody for lymphokine-activated killer cell targeting against the rat colon carcinoma CC531

In vivo targeting of lymphokine-activated killer (LAK) cells to tumour deposits by bispecific monoclonal antibodies (bimAb) may be a way to improve adoptive immunotherapy. We developed a bimAb against adherent LAK (ALAK) cells and colon tumour CC531 in Wag rats. The bimAb was produced by somatic hybridization of two mouse hybridomas, one producing monoclonal antibodies (mAb) against CD8 (IgG2b, OX8), and the other producing mAb against a CC531-associated antigen (IgG1, CC52). A bimAb-producing clone was selected by an enzyme-linked immunosorbent assay with CC531 tumour cells. BimAb were purified from ascitic fluid by protein A affinity chromatography. Each of five pooled peak fractions was analysed by flow cytometry for the presence of bimAb. Most bimAb were found in a fraction that was eluted at pH 4.5 from protein A. FPLC analysis of this fraction revealed that no parental antibodies were present. The OX8 × CC52 bimAb greatly increased conjugate formation in vitro between ALAK cells and CC531. Results of⁵¹Cr-release assays with CC531 as target cells and ALAK cells as effector cells were not significantly different in the presence or in the absence of the bimAb. The methods we used here, a cell enzyme-linked immunosorbent assay and flow cytometry, are simple methods for development and purification of a bimAb when a functional selection method is not a priori available. The OX8 × CC52 bimAb we developed this way may increase in vivo tumour targeting of ALAK cells and thus augment antitumour effect in vivo.     

躯体性应激和心理性应激对鼠脾NK细胞受体表达的影响

阐明躯体性应激和心理性应激降低NK细胞杀伤活性的机制及异同。应用Communication box系统分别使小鼠连续负荷躯体性应激和心理性应激后,以~(51)Cr释放法检测鼠脾NK、LAK细胞的杀伤活性;以流式细胞术检测鼠脾细胞、LAK细胞中NK细胞受体的表达水平。结果表明,躯体性应激和心理性应激均可降低鼠脾NK、LAK细胞的杀伤活性,但对脾细胞、LAK细胞中NK细胞受体表达的影响却不同,提示躯体性应激和心理性应激影响NK细胞功能的机制不同。     

BLT-esterase activity followingin vitro andin vivo activation of human lymphocytes with interleukin-2

BLT-esterase and cytolytic activity by human in vitro and in vivo generated Lymphokine Activated Killer (LAK) cells were measured. Lysates made from peripheral blood lymphocytes (PBL) of both normal donors and cancer patients receiving IL-2 therapy were assayed for BLT-esterase activity in a spectro-photometric assay. Cytotoxicity of PBL was measured in a 51Cr-release assay. Both BLT-esterase activity and cytotoxicity increased when normal-donor PBL were stimulated in vitro with IL-2, with greater activities at higher IL-2 concentrations. The activities also increased over time, peaking at 6 days of in vitro stimulation. Patient PBL had increased BLT-esterase and cytotoxic activities after 4 weeks of in vivo IL-2 treatment. This association of BLT-esterase activity and cytotoxicity with IL-2 activation is consistent with the model that LAK cytotoxicity is mediated by secretion of BLT-esterase associated cytolytic granules. Lymphocytes obtained after in vivo IL-2 treatment and cultured for 3-4 hours in IL-2 show markedly augmented cytotoxic activity but no increase in their BLT-esterase activity. These results indicate that the increased cytotoxicity observed after this brief pulse of in vitro IL-2 following in vivo IL-2 treatment must result from effects of IL-2 other than the production of more esterase-containing cytolytic granules.     

Additive effects of antitumor drugs and lymphokine-activated killer cell cytotoxic activity in tumor cell killing determined by lactate-dehydrogenase-release assay

Summary The effect of pretreatment with antitumor drugs on lymphokine-activated killer (LAK) cell cytotoxic activity, determined by lactate-dehydrogenase(LDH)-release assay, was investigated. LAK cells were induced by incubating peripheral blood lymphocytes of healthy donors in medium containing interleukin-2 (IL-2) and monoclonal anti-CD3 antibody for 6–7 days. A human lung squamous carcinoma cell line, SQ-5, was used as an adherent target. After 24 h exposure of the target cells to cisplatin, doxorubicin, or mitomycin C, the drugs were washed off and LAK cells were added at an E/T ratio of 5. During further incubation for 48 h, LDH release from cisplatin- or doxorubicin-pretreated target cells was markedly higher than that from non-pretreated target cells. The combination of cisplatin and LAK cells has an additive cytotoxic effect and that of mitomycin C and LAK cells does not; there may also be an additive effect late in the toxicity mechanism between doxorubicin and LAK cells.     

Human lymphokine-activated killer (LAK) cells: identification of two types of effector cells

We analyzed the antigenic phenotype of lymphokine-activated killer (LAK) effector cells. Human blood lymphocytes were cultured for 3 days with 100 U/ml recombinant interleukin 2 (rIL 2), subpopulations isolated with monoclonal antibodies and a fluorescence-activated cell sorter (FACS) and assayed for cytotoxic activity against 51chromium labeled noncultured melanoma tumor cells. Initial experiments compared the LAK effector function of CD5+ T lymphocytes vs CD5- cells (predominantly CD16+ NK cells). The mean percent specific release at a 10:1 effector:target (E:T) ratio was 25% +/- 16 for CD5- cells, 10% +/- 6 for CD5+ cells, and 22% +/- 9 for unsorted cells. In contrast, when lymphocyte subpopulations were isolated before rIL 2 culture (LAK precursors), CD5- cells but not CD5+ cells developed LAK activity (28% +/- 12 vs 1% +/- 1, mean percent specific release, 10:1 E:T ratio), confirming our previous results showing that only CD16+ cells were LAK precursors. The discrepancy between LAK effector and precursor phenotypes suggested that LAK precursors acquired CD5 determinants during rIL 2 culture; however, double label immunofluorescence of rIL 2 cultured CD16+ cells showed that this was not the case. The data suggested that in the presence of other cell types, some T lymphocytes may develop LAK activity, but purified blood T lymphocytes do not develop LAK function when cultured with rIL 2 alone. We also analyzed LAK effector function in lymphocyte subpopulations defined by CD4 and CD8 antigens. The data showed that lymphocytes with a low density expression of CD8 and no expression of CD4 were enriched for LAK effector cells, whereas CD4+ and CD8- had less activity than unsorted cells. Lymphocytes with a high density expression of CD8 had activity similar to unsorted cells. We also assessed the contribution of Leu-7 (HNK-1) granular lymphocytes to LAK effector function. After culture with IL 2, lymphocytes were depleted of Leu-7+ cells by antibody and complement treatment and then were sorted into CD5+ and CD5- fractions. The cytotoxic activity of Leu-7-CD5+ cells was a mean 5% +/- 5 vs a mean 14% +/- 8 for the total CD5+ population (20:1 E:T ratio). The activity of Leu-7- CD5- was slightly less than the total CD5- fraction (21% +/- 9 vs 28% +/- 14, 10:1 E:T ratio). In conclusion, LAK effector function was highest in non-T cell (CD5- CD16+) populations and some activity was also present in T cell populations (CD5+ and predominantly Leu-7+).     

Distinct and non-cross-reactive epitopes are recognized on B16 melanoma by LAK cells and anti-B16 monoclonal antibodies.

Two rat anti-B16 melanoma monoclonal antibodies (MoAb), designated IB16-6 and IB16-8, recognize an epitope expressed with high density on the surface of B16 parental cells and B16-F1, F10, F10FLR, and BL6 sublines. The purpose of this study was to define by means of cytolytic and clonogenic assays whether these MoAbs reacted with the same or distinct determinants as those recognized on B16 targets by lymphokine-activated killer (LAK) cells. Using 125I-labeled antibody and Scatchard analysis, the affinity constant (KA) of IB16-6 was determined to range from 5.6 to 9.4 x 10(8) liter/M and the number of receptor sites per B16 cell was 4.8 x 10(4) to 2.5 x 10(5). The effects of anti-B16 MoAb on LAK activity were determined by either preincubating 51Cr-labeled B16 target cells with varying concentrations of MoAb, followed by the cytolytic assay, or exposing unlabeled B16 cells to MoAb, and then carrying out a 10-day clonogenic assay. Over a wide range of antibody concentrations, IB16-6 and IB16-8 had minimal effects on LAK activity, and even at MoAb concentrations up to 1 mg there were no changes in target cell sensitivity or colony-forming ability. Enzymatic treatment of B16 melanoma cells with either trypsin or pronase completely removed the epitope recognized by MoAb IB16-6 but did not alter B16 sensitivity to LAK cells. These observations indicate that the LAK recognition unit was distinct from the epitope reactive with MoAb IB16-6 and that the B16 determinant(s) recognized by LAK cells is resistant to proteolytic enzymes. The molecular structure of each of these remains to be determined.     

小鼠LAK细胞对粒—单系祖细胞增殖的影响

Murine lymphokine-activated killer (LAK) cells were generated from spleen cells of C57/BL6 mice by culture of spleen cells in vitro for 72 hours in medium containing 500 units/ml recombinant human interleukin 2 (IL-2), and effects of these LAK cells on proliferation of syngenic myeloid progenitor cells (CFU-GM) were observed. After 3 days culture, LAK cells were assayed for their cytotoxicity in a 4 hours 51Cr-release test. Either natural killer (NK) cell sensitive YAC-1 lymphoma cells or NK cell resistant LP-3 and WEHI-164 fibrosarcoma cells were efficiently lysed by murine LAK cells. When LAK cells were added into culture system in a final concentration of 5 x 10(4)/ml, 2 x 10(5)/ml, 8 x 10(5)/ml, CFU-GM were increased by 55.2%, 165.5%, and 194.4% of control respectively. LAK-CM also showed augmentative effect on CFU-GM growth. When 10% (v/v) of LAK-CM were added into culture system, CFU-GM were increased by 51.4% of control, but LAK-CM alone could not stimulate CFU-GM growth. Again, effects of LAK-BMC interaction on CFU-GM formation were investigated. CFU-GM were inhibited to 27.6% of control when 1 x 10(5) BMC were mixed with 8 x 10(5) LAK cells and incubated for 4 hours prior to CFU-GM culture. These data suggest that (1) LAK cells may secrete co-CSF which showed synergistic effect with CSF on CFU-GM proliferation: (2) When LAK cells contact with BMC, they showed significant cytotoxicity to myeloid progenitor cells which mediated decrease of CFU-GM formation.     

Generation of lymphokine-activated killer (LAK) cells and possible implications in autologous bone marrow transplantation--a preliminary report

Lymphokine-activated killer (LAK) cells were generated successfully without mitogen from blood mononuclear cells obtained from 14 patients with varying malignancies and 2 normal donors. Cells from both groups showed a positive cytotoxicity by a 4-hour 51-Cr-release assay against a variety of target cells including natural killer (NK) sensitive K562 myeloid leukemia, NK-resistant Raji lymphoma cell lines, and fresh/cryopreserved leukemia cells from patients refractory to standard chemotherapy but not normal blood cells. Higher cytotoxic activity was obtained with a higher effector:target ratio at 100:1 greater than 50:1 greater than 25:1 (P less than 0.01) in each setting of different targets. Experiments involving cocultures of the LAK cells with either allogeneic (9) or autologous (3) bone marrow cells disclosed no detrimental effect on the committed hemopoietic stem cells by semisolid agar colony forming unit (CFU-GM) assay. The findings suggest that LAK cells may have a potential role for the in vitro purging of the residual leukemic cells from the marrow inoculum prepared for autologous bone marrow transplantation.     

生物学效应分析——心理性应激和躯体性应激对鼠脾杀伤细胞影响的异同

阐明心理性应激和躯体性应激对鼠脾杀伤细胞影响的异同。应用Communication box系统分别使小鼠连续负荷心理性应激和躯体性应激3 d后,以51Cr释放法检测鼠脾NK、LAK、CTL细胞杀伤活性。负荷心理性应激和躯体性应激后,可导致鼠脾NK细胞、LAK细胞杀伤活性降低（P〈0.05,P〈0.01）;两者均可明显降低C57BL/6小鼠脾CTL细胞活性（P〈0.01）,躯体性应激比心理性应激对CTL细胞活性有较强的抑制作用。心理性应激和躯体性应激均可降低脾NK、LAK、CTL细胞杀伤活性。     

The combined effect of lymphokine activated killer cell and radiation therapy on rat brain tumorin vitro

Thein vitro effect of a combined treatment with lymphokine activated killer (LAK) cell and radiation therapy on rat brain tumor was examined using⁵¹Cr release assay. The tumor cell-line used in this experiment was 9L rat brain tumor derived from a Fischer 344 rat. LAK cells were obtained by culturing rat lymphocytes with recombinant human interleukin 2 for at least 3 days. The cytotoxic activity of the LAK cells was examined by⁵¹Cr release assay. Irradiation was done by exposing the microtiter plate in which the¹⁵Cr labeled 9L cells and LAK cells were cultured to a¹³⁷Cs gamma cell unit. Without irradiation, there was 18% cytotoxicity in the 1:100 tumor-to-LAK cell ratio specimen after 24 hrs cocultivation. However, if 5 Gy of irradiation was given, followed by 12 hrs incubation, the cytotoxicity was enhanced significantly at the same cell ratio (30%). This enhancement effect was the most prominent when the cell ratio was 1:100 and the irradiation dose was 5 Gy. To generate the enhancement effect, an incubation time of over 8 hrs both before and after irradiation was required. The supernatant of the LAK cells showed 19.8% and 11.4% cytotoxicity with and without irradiation, respectively. This result indicates the participation of a cytotoxic factor released from LAK cells.This work is supported in part by grant from Univeristy of Tsukuba Project Research.     

In vitro purging of clonogenic leukaemic cells from human bone marrow by interferon-γ-activated monocytes

With a view to the immunologically mediated purging of autologous bone marrow transplants in acute myeloid leukaemia, the efficacy of cytotoxic monocytes to cradicate leukaemic cells has been studied using clonogenic assays. U937 cells were found to be sensitive to highly purified and interferon--activated human monocytes whereas HL60 cells were rather resistant as measured in an MTT-based cytotoxicity assay under liquid conditions. A spectrophotometric clonogenic assay measured almost complete inhibition of clonogenic activity for U937 cells at low effector-to-target cell (E/T) ratios of at least 0.1. Limiting dilution analysis detected a 2–3 log₁₀ unit reduction in clonogenic activity. In an experimental mixture of U937 cells with a 20-fold excess of normal bone marrow nuclear cells a maximum 2-log₁₀-unit killing could be measured at E/T=10. Only at high E/T ratios could a reduction in granulocyte/macrophage-colony-forming units (cfu) be observed with only marginal effects on erythroid cfu and erythroid burst-forming. In conclusion, cytotoxic monocytes are highly potent anti-leukaemic effector cells, as measured in clonogenic assays, that do not compromise normal human progenitors.     

Functional interaction between the tumor necrosis factor and interleukin 2 during induction of lymphokine activated killer cytotoxic activity

TNF has a differential effect on the induction of LAK activity which is dependent on the IL-2 concentrations used for LGL stimulation. TNF was found to synergize with low concentrations of IL-2 which are normally ineffective in inducing LAK activity. When IL-2 was used at concentrations optimal for LAK generation, TNF did not further enhance the differentiation of LGL into LAK effectors. When anti-TNF was included in the 51Cr-release assay, no effect on the cytolytic activity was observed. We also demonstrate that IL-2 induced an increase of specific TNF binding to LGL.     

IL-4 regulation of murine lymphokine-activated killer activity in vitro. Effects on the IL-2-induced expansion, cytotoxicity, and phenotype of lymphokine-activated killer effectors

The in vitro incubation of B6 splenocytes with purified, mouse rIL-4 for 4 to 5 days was sufficient to generate lymphokine-activated killer (LAK) activity. In addition, rIL-4 augmented LAK cytotoxic activity when combined with rIL-2, as measured in a 4 h 51Cr-release assay against fresh, syngeneic MCA-sarcoma (MCA-102 and MCA-105) cells. Interestingly, this augmentation was not observed against the cultured YAC-1 target. LAK generation and augmentation of cytotoxicity by rIL-4 was species-specific, because human rIL-4 (up to 20,000 U/ml) failed to elicit these effects in the mouse splenocyte cultures. When 5-day B6 LAK cells (splenocytes incubated in rIL-2 at 1000 U/ml for 5 days) were split and recultured in the combination of rIL-2 plus rIL-4 for 4 additional days at least a twofold greater expansion in cell number resulted compared to similar cells cultured in either rIL-2 or rIL-4 alone. Moreover, LAK cells expanded in rIL-2 plus rIL-4 exhibited substantial increases in in vitro cytolytic activity (on a per cell basis) against MCA-102 and MCA-105 sarcoma cells, but not against YAC-1 targets. FACS analysis or negative selection using Lyt-2 or NK-1.1 mAb plus C revealed no differences in effector phenotype(s) of LAK cells expanded in rIL-2 alone compared to rIL-2 plus rIL-4 to account for the differences observed in both expansion and cytolytic activity by rIL-4. The majority of cells was Thy-1+, Lyt-2+, T3+, and ASGM-1+. However, a marked increase in the granule-associated serine esterase, BLT-E, was found only in LAK cells expanded in the combination of both lymphokines. Collectively, these studies show that rIL-4 has potent regulatory activities on splenic LAK generation, expansion, and cytotoxic function in the mouse.     

Augmentative effect of Nocardia rubra cell-wall skeleton (N-CWS) on lymphokine-activated killer (LAK) cell induction

Summary The present study elucidated that N-CWS augments the cytolytic activity against 3LL tumor cells of LAK cells from N-CWS-immunized mice administered i.p. with rIL-2. This augmentative effect of N-CWS was not seen when the LAK cells were prepared from normal mice. The cytolytic activity was predominantly expressed in the NAPC prepared from the site of injection of rIL-2, and repeated administrations of rIL-2 were required to induce and maintain this potent cytolytic activity in vivo. Serological analysis revealed that the LAK cells were positive for Thy 1.2 and asialo GM1 antigens and that they were not classical CTL or NK cells. The administration of rIL-2 statistically prolonged the MST of mice bearing LAK-sensitive 3LL cells but not the MST of mice bearing LAK-resistant EL-4 leukemia. Furthermore, combination therapy with N-CWS and rIL-2 prolonged the MST of the mice more than the therapy with rIL-2 alone. These results suggest that LAK cells potentiated with N-CWS would be useful for immunotherapy of malignant neoplasms. Abbreviations used: N-CWS, Nocardia rubra cell-wall skeleton; rIL-2, recombinant interleukin 2; LAK, lymphokine-activated killer; RPMI 1640, Roswell Park Memorial Institute 1640; FCS, fetal calf serum; TCM, tumor culture medium; PC, peritoneal cells; NAPC, nonadherent PC; APC adherent PC; MST, mean survival time; NK, natural killer; E:T ratios, effector to target ratios; Poly I:C, polyinosinic-polycytidylic acid; CTL, cytotoxic T lymphocytes; RLNC, regional lymphnode cells     

Fungicidal activity of Candida albicans-induced murine lymphokine-activated killer cells against C. albicans hyphae in vitro.

Multiple intraperitoneal injections of inactivated Candida albicans cells resulted in the generation of cytotoxic peritoneal cells with phenotypical and functional properties similar to in vitro-generated lymphokine-activated killer (LAK) cells. Using an in vitro [3H]glucose uptake assay, C. albicans-induced LAK-like (CA-LAK) cells exhibited high levels of anti-hyphal activity, the effects being effector to target cell (E:T) ratio- and time-dependent. Maximal levels of anti-C. albicans activity (approximately 60%) were observed after 4 h and at E:T greater than or equal to 300:1. Similar patterns of anti-C. albicans activity were exerted by in vivo-activated natural killer (NK) cells, in vitro interleukin-2- (IL-2) generated LAK cells and polymorphonuclear cells. The anti-hyphal activity of CA-LAK cells was enriched by separation on a Percoll gradient, F2 and F3 fractions retaining most of the activity. Experiments using immunodepressed animals demonstrated that the in vivo lethality of the C. albicans hyphal form is significantly affected by in vitro pre-exposure to CA-LAK cells. While control mice receiving C. albicans alone had a median survival time of 2 d, mice receiving C. albicans pre-exposed to CA-LAK cells (E:T = 300:1) had a median survival time of 15 d. Overall, the susceptibility of the C. albicans hyphal form to CA-LAK cells suggests that C. albicans-induced effectors might play a significant role as a second-line defence mechanism against the C. albicans hyphal form.