Developmental changes in sulphation of chondroitin sulphate proteoglycan during myogenesis of human muscle cultures

The synthesis and secretion of chondroitin sulphate proteoglycan (CSPG) was examined in human muscle cultures during myogenesis prior to myoblast fusion and following myotube formation. Results from this study demonstrate that the major CSPG secreted into the medium had a Kav of 0.15 on Sephacryl 500 (exclusion limit of 10(7) Da) and contained predominantly unsulphated residues in mononucleated cell cultures but these became increasingly sulphated in postfusion cultures. Fibroblasts synthesised small amounts of a smaller molecular weight CSPG indicating that the Kav 0.15 proteoglycan is solely synthesised by cells of the myogenic lineage. These findings illustrate that sulphation of CSPG is developmentally regulated during myogenesis of human muscle cells grown under differentiating conditions.     

Serglycin expression during monocytic differentiation of U937-1 cells

Serglycin is the major proteoglycan in most hematopoietic cells, including monocytes and macrophages. The monoblastic cell line U937-1 was used to study the expression of serglycin during proliferation and differentiation. In unstimulated proliferating U937-1 cells serglycin mRNA is nonconstitutively expressed. The level of serglycin mRNA was found to correlate with the synthesis of chondroitin sulfate proteoglycan (CSPG). The U937-1 cells were induced to differentiate into different types of macrophage-like cells by exposing the cells to PMA, RA, or VitD3. These inducers of differentiation affected the expression of serglycin mRNA in three different ways. The initial upregulation seen in the normally proliferating cells was not observed in PMA treated cells. In contrast, RA increased the initial upregulation, giving a reproducible six times increase in serglycin mRNA level from 4 to 24 h of incubation, compared to a four times increase in the control cells. VitD3 had no effect on the expression of serglycin mRNA. The incorporation of (35S)sulfate into CSPG decreased approximately 50% in all three differentiated cell types. Further, the (35S)CSPGs expressed were of larger size in PMA treated cells than controls, but smaller after RA treatment. This was due to the expression of CSPGs, with CS-chains of 25 and 5 kDa in PMA and RA treated cells, respectively, compared to 11 kDa in the controls. VitD3 had no significant effect on the size of CSPG produced. PMA treated cells secreted 75% of the (35S)PGs expressed, but the major portion was retained in cells treated with VitD3 or RA. The differences seen in serglycin mRNA levels, the macromolecular properties of serglycin and in the PG secretion patterns, suggest that serglycin may have different functions in different types of macrophages.      

Role of CD8+ T cells in endogenous interleukin-10 secretion associated with visceral leishmaniasis

This study examined the role and source of endogenous interleukin-10 (IL) secretion in visceral leishmaniasis (VL). The amounts of endogenous and Leishmania specific IL-10 and interferon-gamma (IFN) secreted by peripheral blood mononuclear cells (PBMC) from VL patients were compared. The correlation coefficient between endogenous IL-10 secretion and Leishmania specific IFN-gamma was -0. 77, suggesting a major role for endogenous IL-10 secretion in VL. The effects of CD4+ and CD8+ T cell clones, isolated from a treated VL patient, on IL-10 secretion were assayed by mixing the clones with autologous, inactivated PBMC. The CD8+ clones mediated increased levels of IL-10 secretion in the presence of PBMC alone suggesting that CD8+ T cells may mediate endogenous IL-10 secretion.     

Secreted and cellular proteochondroitin sulfates of a human B lymphoblastoid cell line contain different protein cores.

Proteoglycans of the human B lymphoblastoid cell line LICR-LON-HMy2 were metabolically labeled with [35S]sulfate. High-density fractions of 35S-labeled material separated by CsCl gradient ultracentrifugation were further purified by anion exchange chromatography and gel filtration. Two proteoglycans, isolated from cell lysates and culture supernatants, were characterized by gel filtration and sodium dodecyl sulfate-polyacrylamide gel electrophoresis (SDS-PAGE) in combination with enzymatic degradation. Treatment with chondroitinase AC completely degraded the glycosaminoglycan moiety of the proteoglycans. Three to 4 chondroitin sulfate chains (average molecular mass = 26 kDa) were estimated for each of the two proteoglycans. Differences between the proteochondroitin sulfates (CSPG) were observed in the content of N-linked oligosaccharides. After chondroitinase AC treatment the resulting band in SDS-PAGE of the secreted CSPG was sensitive to treatment with endoglycosidase F (Endo F) which further reduced the molecular mass from 30 to 21.5 kDa, whereas the band of the cellular CSPG after chondroitinase AC treatment (molecular mass = 30 kDa) remained resistant to Endo F treatment. The composition of amino acids was different in the protein cores, suggesting differences in the primary structure. Both CSPG contained a high percentage of glycine and serine. For both CSPG a molecular mass of approximately 135 kDa was deduced from the hydrodynamic sizes of the glycosaminoglycan chains obtained after alkaline/borohydride treatment and the migration of the protein/oligosaccharide complexes in SDS-PAGE. 75% of all [35S]sulfate-labeled molecules were found in the culture supernatant and 25% in the cellular fraction. 35S-Labeled material in the culture supernatant consisted exclusively of intact CSPG, whereas 35S-Labeled molecules in the cellular preparation consisted largely of free chondroitin sulfate chains. Only 8.3% of the cellular material, isolated from the microsomal fraction, was intact CSPG. In pulse-chase experiments maximal secretion of CSPG was found after 4 h, comprising approximately 40% of totally synthesized CSPG. From these experiments we tentatively conclude that a small proportion of CSPG synthesized by LICR-LON-HMy2 cells is membrane-associated, a larger portion is secreted, and another portion is intracellularly degraded.     

Expression of the Chondroitin Sulfate Proteoglycans of Amyloid Precursor (Appican) and Amyloid Precursor-Like Protein 2

Abstract: The Alzheimer amyloid precursor (APP) protein is a member of a family of glycoproteins that includes the amyloid precursor-like proteins (APLPs). Previously, we showed that in C6 glioma cell cultures, secreted APP nexin II occurs as the core protein of a chondroitin sulfate proteoglycan (CSPG). Here, we report that among seven untransfected cell lines, expression of secreted APP CSPG was restricted to two cell lines of neural origin, namely, C6 glioma and Neuro-2a neuroblastoma (N2a) cells. Addition of dibutyryl cyclic AMP in N2a cultures, a treatment that induces the neuronal phenotype in these cells, resulted in a significant reduction in the amount of the secreted APP CSPG, although secretion of APP was only marginally affected. Growth in the presence of serum increased the size of the secreted APP CSPG, suggesting that the number and/or length of the chondroitin sulfate (CS) chains attached to the core APP varies with growth conditions. Extensive mapping with epitope-specific anti-bodies suggested that a CS chain is attached within or proximal to the Aβ sequence of APP. In contrast to the restricted expression of the APP CSPG, expression of secreted APLP2 CSPGs was observed in all cell lines examined. After chondroitinase treatment, two core proteins of ∼100 and 110 kDa were obtained that reacted with an APLP2-specific antiserum, suggesting that non-transfected cell lines contain at least two endogenous APLP2 CSPGs, probably derived by alternative splicing of the APLP2 KPI domain. The fraction of the APLP2 proteins in the CSPG form was dependent on the particular cell line examined. The proteoglycan nature of APP and APLP2 suggests that addition of the CS glycosaminoglycan chains is important for the implementation of the biological function of these proteins. However, the differential expression of these two proteoglycans suggests that their physiological roles and their possible involvement in Alzheimer's disease may differ.     

Comparison of the stimulation of glycosaminoglycan synthesis in cultures of mononuclear cells from blood and of fibroblastic cells

A small molecular weight factor, derived from bovine bone ('matrigenin'), stimulated glycosaminoglycan and proteoglycan synthesis of cultured human fibroblastic cells but not of mononuclear cells from human blood. However, proteoglycan synthesis and secretion by the mononuclear cells was stimulated by the addition of concanavalin A. The proteoglycan from the concanavalin-A-stimulated mononuclear cells was of smaller molecular weight than the proteoglycan from the 'matrigenin'-stimulated fibroblastic cells. The major increase in proteoglycan synthesis and secretion occurred much later during the culture period for concanavalin-A-stimulated mononuclear cells than for 'matrigenin'-stimulated fibroblastic cells.     

B-cell stimulation by T-cell-secreted proteoglycan

We have further characterized a recently described B-cell stimulatory factor that contains chondroitin sulfate proteoglycan and 70- to 75-kDa protein, both of which are secreted by T cells and coisolate (T-cell proteoglycan fraction, T-PGF). Using T-PGF isolated from a T-cell hybridoma (T14), it was observed that the association between B-cell stimulatory activity and CSPG is stable and comigrates on Sephacryl S-200 columns eluted at high salt concentrations (1.5 M NaCl) and on CsCl gradients. The T-PGF stimulated larger numbers of low-density (activated) B cells, but better relative PFC formation occurred in high-density (resting) B-cell fractions. It is proposed that the B-cell stimulatory activity of T-PGF is, in fact, chondroitin sulfate proteoglycan.     

Structure and interactions of proteoglycans in the extracellular matrix produced by cultured human fibroblasts.

Subconfluent cultures of human embryonic skin fibroblasts were labelled with [35S]sulphate for 3 days, after which cell-free extracellular matrix was isolated. A chondroitin sulphate proteoglycan (CSPG) and a heparan sulphate proteoglycan (HSPG) were purified from the matrix. Chromatography on Sepharose CL-2B gave peak Kav. values of 0.35 and 0.38 respectively for the CSPG and the HSPG. The polysaccharide chains released from the two PGs were of similar size (Kav. 0.50 on Sepharose CL-4B). Approx. 50% of the CSPG showed affinity for hyaluronic acid (HA). However, it differed immunologically from the HA-aggregating CSPG of human articular cartilage, and had a larger core protein (apparent molecular mass 290 kDa) than had the cartilage PG. Neither metabolically [35S]sulphate-labelled PGs, isolated from the medium of fibroblast cultures, nor chemically 3H-labelled polysaccharides (HA, CS, HS and heparin) were incorporated into the extracellular matrix when added to unlabelled cell cultures. These results indicate that the matrix PGs are not derived from the PGs present in the medium and that an interation between polysaccharide chains and matrix components is not sufficient for incorporation of PGs into the matrix. Incubation of cell-free 35S-labelled matrix with unlabelled polysaccharides did not lead to the release of any 35S-labelled material, supporting this conclusion. Furthermore, so-called 'link proteins' were not present in the fibroblast cultures, indicating that the CSPGs were anchored in the matrix in a manner different from the link-stabilized association of CSPG with HA in chondrocyte matrix. The identification of a proteinase, secreted by fibroblasts in culture, that after activation with heparin has the ability to release 35S-labelled PGs from the matrix may also indicate that the core proteins are important for the association of the PGs to the matrix.     

Biosynthetic relationships of the chondroitin sulfate proteoglycan with Ia and invariant chain glycoproteins

As a first step to elucidating the role of the Ia-associated chondroitin sulfate proteoglycan (CSPG) in the biology of the Ia antigens, we have studied several aspects of the interactions of the CSPG with the Ia/invariant chain glycoproteins. These studies revealed that at any time point, only 2 to 5% of Ia molecules were associated with the CSPG, and that this fraction included Ia molecules that were expressed at the cell surface. Pulse-chase studies indicated that the association of Ia molecules and the CSPG was rapid and short lived. Newly synthesized [35S]sulfate-labeled CSPG molecules were detected in association with Ia molecules immediately after a 15-min pulse, but were barely detectable after a 30-min chase, and were completely undetectable after a 60-min chase. Similarly, newly synthesized [3H]leucine-labeled Ia molecules associated with the CSPG were detectable immediately after a 20-min pulse, and after a 75-min chase, but could not be detected in association with the CSPG after a 300-min chase. Virtually no CSPG that was similar in size to that associated with Ia molecules was found free in the cells or was secreted into the media. The results in this report are compatible with the hypothesis that some or all of the Ia molecules associate transiently with the CSPG, or that a small fraction of Ia molecules associate permanently with the CSPG in a short-lived complex. These studies tend to favor a role for the CSPG in the biosynthesis of Ia rather than in intracellular trafficking or in intercellular communication.     

Interaction of rotavirus with human myeloid dendritic cells

We have previously shown that very few rotavirus (RV)-specific T cells that secrete gamma interferon circulate in recently infected and seropositive adults and children. Here, we have studied the interaction of RV with myeloid immature (IDC) and mature dendritic cells (MDC) in vitro. RV did not induce cell death of IDC or MDC and induced maturation of between 12 and 48% of IDC. Nonetheless, RV did not inhibit the maturation of IDC or change the expression of maturation markers on MDC. After treatment with RV, few IDC expressed the nonstructural viral protein NSP4. In contrast, a discrete productive viral infection was shown in MDC of a subset of volunteers, and between 3 and 46% of these cells expressed NSP4. RV-treated IDC secreted interleukin 6 (IL-6) (but not IL-1beta, IL-8, IL-10, IL-12, tumor necrosis factor alpha, or transforming growth factor beta), and MDC released IL-6 and small amounts of IL-10 and IL-12p70. The patterns of cytokines secreted by T cells stimulated by staphylococcal enterotoxin B presented by MDC infected with RV or uninfected were comparable. The frequencies and patterns of cytokines secreted by memory RV-specific T cells evidenced after stimulation of peripheral blood mononuclear cells (PBMC) with RV were similar to those evidenced after stimulation of PBMC with RV-infected MDC. Finally, IDC treated with RV strongly stimulated naive allogeneic CD4+ T cells to secrete Th1 cytokines. Thus, although RV does not seem to be a strong maturing stimulus for DC, it promotes their capacity to prime Th1 cells.     

Effect of endothelial-cell-conditioned medium on proteoglycan synthesis in cultured smooth muscle cells from pig aorta

The effect of porcine endothelial-cell-conditioned medium on proteoglycan synthesis by pig aorta smooth muscle cells was studied under serum-free conditions. Maximal stimulation of [35S]-sulfate incorporation (50%) into medium-secreted and cell layer proteoglycans was observed after 20 min and 4 h incubation, respectively. This stimulation can be explained neither by increased secretion nor by oversulfation of medium-secreted [35S]-labeled proteoglycans. Those [35S]-proteoglycans secreted (for 24 h) in the presence of endothelial cell-conditioned medium were characterized by a higher hydrodynamic size than those secreted in the presence of control medium, without modification of glycosaminoglycan chain length. Agreement between the stimulation of incorporation of [35S]-sulfate into glycanic chains (50.1%) and [14C]-serine residues associated with glycosaminoglycans (49.9%) involved an increase in the number of glycanic chains linked to protein cores. The lesser stimulation of [14C]-serine incorporation into secreted proteins (18%) suggested that stimulation of glycosaminoglycan synthesis was not the direct consequence of enhanced protein synthesis. Proteoglycan synthesis was studied in the presence of para-nitrophenyl-beta-D-xyloside. Fractionation of medium-secreted [35S]-proteoglycans and xyloside-initiated glycosaminoglycans revealed that stimulation of [35S]-glycosaminoglycan protein core acceptor for glycanic chain initiation. Our results suggest that the factor(s) secreted by endothelial cells are able to modify smooth muscle cell proteoglycan synthesis by stimulating the first step of protein core glycosylation. This stimulation was accompanied by an increase in proteoglycan hydrodynamic size.     

Cytokine profiles in tuberculosis patients and healthy subjects in response to complex and single antigens of Mycobacterium tuberculosis

Peripheral blood mononuclear cells (PBMC) were obtained from tuberculosis (TB) patients and Mycobacterium bovis bacillus Calmette-Guerin vaccinated healthy subjects. PBMC were tested for secretion of tumor necrosis factor-alpha (TNF-alpha), interferon-gamma (IFN-gamma), interleukin-5 (IL-5) and IL-10 in response to complex (whole cells, culture filtrate and cell walls), single secreted (Ag85B, ESAT6, MPT64, PstS and MPT70) and single cytosolic (DnaK, GroES and GroEL) antigens of Mycobacterium tuberculosis. In the absence of antigens, detectable concentrations of TNF-alpha, IFN-gamma and IL-10 were secreted by PBMC of both donor groups, but the concentrations of only IL-10 were significantly higher (P=0.015) in TB patients than in healthy subjects. In the presence of complex antigens, PBMC secreted IFN-gamma and TNF-alpha in response to all three preparations, whereas IL-10 was secreted in response to whole cells and cell walls only. In the presence of single antigens, IFN-gamma was secreted in response to Ag85B, ESAT6 and MPT64 in TB patients and ESAT6 in healthy donors. Except for GroEL and DnaK, single antigens did not induce TNF-alpha and IL-10 secretion from PBMC in either donor group. The secretion of IFN-gamma, but not IL-10, in the presence of Ag85B, ESAT6 and MPT64 supports their potential as subunit vaccine candidates against TB.     

Xyloside inhibits synthesis of the class II-associated chondroitin sulfate proteoglycan and antigen presentation events

An alternative form of the human invariant chain exists as a chondroitin sulfate proteoglycan (CSPG) with invariant chain as the core protein. The selective inhibitor of proteoglycan synthesis, p-nitrophenyl beta-D-xyloside was used to study the role of this CSPG in class II biology. At xyloside concentrations of 2.5 and 5.0 mM, CSPG synthesis was completely inhibited with marginal inhibition of protein synthesis. The inhibitory effect on CSPG synthesis was completely reversible. The number of class II molecules on the cell surface was not affected by xyloside, but biosynthesis and appearance of newly synthesized class II molecules at the cell surface were both decreased by xyloside. Recognition of influenza virus-infected cells by class II-restricted, virus-specific cytotoxic T lymphocytes was not diminished by the presence of xyloside in the effector phase of the cytotoxicity assay. However, sensitization of target cells was markedly inhibited when target cells were exposed to virus in the presence of xyloside. These results are consistent with the hypothesis that the CSPG form of invariant chain has a role in antigen processing.     

The effects of cycloheximide on the biosynthesis and secretion of proteoglycans by chondrocytes in culture.

Proteoglycans synthesized by rat chondrosarcoma cells in culture are secreted into the culture medium through a pericellular matrix. The appearance of [35S]sulphate in secreted proteoglycan after a 5 min pulse was rapid (half-time, t 1/2 less than 10 min), but that of [3H]serine into proteoglycan measured after a 15 min pulse was much slower (t 1/2 120 min). The incorporation of [3H]serine into secreted protein was immediately inhibited by 1 mM-cycloheximide, but the incorporation of [35S]sulphate into proteoglycans was only inhibited gradually(t 1/2 79 min), suggesting the presence of a large intracellular pool of proteoglycan that did not carry sulphated glycosaminoglycans. Cultures were pulsed with [3H]serine and [35S]sulphate and chased for up to 6 h in the presence of 1 mM-cycloheximide. Analysis showed that cycloheximide-chased cells secreted less than 50% of the [3H]serine in proteoglycan of control cultures and the rate of incorporation into secreted proteoglycan was decreased (from t 1/2 120 min to t 1/2 80 min). Under these conditions cycloheximide interfered with the flow of proteoglycan protein core along the route of intracellular synthesis leading to secretion, as well as inhibiting further protein core synthesis. The results suggested that the newly synthesized protein core of proteoglycan passes through an intracellular pool for about 70-90 min before the chondroitin sulphate chains are synthesized on it, and it is then rapidly secreted from the cell. Proteoglycan produced by cultures incubated in the presence of cycloheximide and labelled with [35S]sulphate showed an increase with time of both the average proteoglycan size and the length of the constituent chondroitin sulphate chain. However, the proportion of synthesized proteoglycans able to form stable aggregates did not alter.     

Cellular distribution of the Ia-associated chondroitin sulfate proteoglycan

The Ia-associated chondroitin sulfate proteoglycan (CSPG) found in anti-Ia and anti-invariant chain immunoprecipitates was originally detected in [35S] sulfate-labeled extracts derived from unseparated populations of splenocytes. To determine whether the CSPG was produced only by a subpopulation of spleen cells, we examined various cell populations for their ability to produce the CSPG. We found that B lymphocytes were the predominant source of CSPG in the spleen. The synthesis of the Ia-associated CSPG in spleen cell cultures was not diminished by the depletion of T cells or adherent cells. Moreover, the CSPG was readily detected in lysates derived from the Lyb-5- B cell subsets of xid mice, splenocytes from athymic (nude) mice, and in vitro B cell hybridomas. Peritoneal exudate macrophages from indomethacin-treated mice were also found to be capable of producing the CSPG. In all of the studies performed to date, no dissociation of the synthesis of the CSPG from the synthesis of Ia was observed in any cell type. We therefore tentatively conclude that all cells that synthesize conventional Ia molecules also synthesize the CSPG. Finally, we have been able to use anion exchange chromatography to prepare proteoglycan-enriched fractions to isolate the CSPG. This purification step has allowed us to convincingly demonstrate that the CSPG can be labeled with amino acids, and is a necessary step for detecting amino acid-labeled CSPG. This purification step method was used in the accompanying report to begin a quantitative examination of the Ia/CSPG complex, to monitor the kinetics of CSPG synthesis and association with Ia, and to determine its subcellular localization.     

Immunoreactive growth hormone (GH) secretion by human lymphocytes: augmented release by exogenous GH

Peripheral blood mononuclear cells (PBMCs) from normal adults secreted small amounts of human growth hormone (GH; 0.2-0.6 pg/10(5) cells/7 days culture) as measured by a highly sensitive enzyme immunoassay. Stimulation of PBMCs with phytohemagglutinin (PHA) consistently showed a 4-6 fold increase in GH secretion. Transformed B-lymphocytes by Epstein-Barr virus also secreted GH (0.8-4.8 pg/5 x 10(4) cells/7 days culture). GH secreted by lymphocytes comigrated with pituitary GH on an Ultrogel AcA44 column. Addition of GH during the culture augmented endogenous GH secretion from PHA-stimulated PBMCs. GH-releasing hormone and a somatostatin analogue, SMS 201-995, did not affect GH secretion from non-stimulated and PHA-stimulated PBMCs. These findings suggest that both T and B lymphocytes secrete immunoreactive GH in a different manner from that in the anterior pituitary.     

Cell density-dependent expression of chondroitin sulfate proteoglycan in cultured human monocytes

Monocytes were isolated and established in vitro at different cell densities. The incorporation of [35S]sulfate into macromolecules in monocytes (day 1 in culture) and monocyte-derived macrophages (day 5 in culture) was found to increase with decreasing cell density in approximately the same way in both day 1 and day 5 cell cultures. [35S]Sulfate was found to be incorporated almost exclusively into chondroitin sulfate proteoglycan (CSPG) in both high and low density monocyte and monocyte-derived macrophage cultures. The molecular size of the [35S]CSPGs produced by the high and low cell density cultures were not found to differ as judged by gel chromatography elution patterns. The molecular size and the structure of the glycosaminoglycan chains were found to be almost similar in high and low density day 1 and day 5 cultures. Only a small degree of proteoglycan degradation could be observed in both high and low density cultures. Furthermore, cell density-dependent differences in CSPG biosynthesis could be observed already 2 h after the establishment of the cultures, indicating that a process of "down-regulation" in high density cultures was already in operation. The glycosaminoglycan synthesis in high cell density day 1 cultures could be increased slightly following exposure to 0.5 mM benzyl-beta-D-xyloside, but not to the same level as that observed in untreated low cell density cultures. By contrast, the expression of 35S-macromolecules by cells cultured at high cell density for 5 days could be increased by xyloside treatment almost to the same level as that observed in the low density cultures.     

High chondroitin sulfate proteoglycan 4 expression correlates with poor outcome in patients with breast cancer

Chondroitin sulfate proteoglycan 4 (CSPG4), a transmembrane proteoglycan originally identified in melanoma cells, has been reported to be expressed in breast cancer cells. This study was performed to examine the expression and significance of CSPG4 in a cohort of breast cancer patients. Immunohistochemical analysis of CSPG4 was performed on tissue microarrays constructed from tissue specimens from 240 breast cancer patients. CSPG4 staining was correlated with clinical and pathological characteristics, overall survival (OS), and disease recurrence. Contradicting to a previous report, our results showed that high CSPG4 expression was not related to triple-negative status of breast cancer patients. The Kaplan–Meier method showed that high CSPG4 expression was significantly associated with shorter time to recurrence (TTR). Patients with high CSPG4 expression had poorer OS and shorter TTR in a multivariate survival analysis after adjustment for stage, tumor grade, expression of estrogen receptor and progesterone receptor, and HER2 overexpression. This study showed that high CSPG4 expression correlates with disease recurrence and OS in breast cancers.     

Human T lymphocyte activation in the presence of acute myelogenous leukaemia blasts: studies of allostimulated interferon-γ secretion

 Normal peripheral blood mononuclear cells (PBMC responders) were cultured together with non-irradiated allogeneic PBMC (more than 95% leukaemia blasts) derived from patients with acute leukaemia (referred to as leukaemic PBMC stimulators). Cytokine secretion was determined as cytokine concentrations in supernatants. Both normal PBMC and enriched CD4⁺ and CD8⁺ T cells responded to allostimulation with interferon (IFNγ) secretion. Interleukin-1 (IL-1) receptor antagonist and IL-2-neutralizing antibodies decreased IFNγ secretion. Exogenous IL-1β, IL-2 and IL-7 increased allostimulated IFNγ secretion, whereas decreased levels were seen in the presence of IL-6, IL-10 and granulocyte-colony-stimulating factor (G-CSF). During allorecognition IFNγ -neutralizing antibodies decreased acute myelogenous leukaemia (AML) blast secretion of G-CSF. We conclude that (i) both CD4⁺ and CD8⁺ T cells show allostimulated cytokine secretion in response to allogeneic stimulator cells containing a dominating population of native, cytokine-secreting leukaemia blasts, and (ii) IFNγ released during this response can modulate the function of allogeneic AML blasts. Received: 4 June 1996 / Accepted: 15 October 1996