T cell responses in melanoma patients after vaccination with tumor-mRNA transfected dendritic cells

We have developed an individualized melanoma vaccine based on autologous dendritic cells (DCs) transfected with autologous tumor-mRNA. The vaccine targets the unique spectrum of tumor antigens in each patient and may recruit multiple T cell clones. In a recent phase I/II trial, we demonstrated T cell responses against vaccine antigens in 9/19 patients evaluable by T cell assays. Here, we report a follow-up study that was conducted to characterize interesting T cell responses and to investigate the effects of long-term booster vaccination. Two patients were selected for continued vaccine therapy. The clinical follow-up suggested a favorable clinical development in both patients. The immunological data (T cell proliferation/IFNgamma ELISPOT/Bioplex cytokine assays) indicated sustained T cell responses and suggested an enhancing effect of booster vaccinations. Both CD4(+) and CD8(+) T cell responses were demonstrated. From post-vaccination samples, we generated 39 T cell clones that responded specifically to stimulation by mRNA-transfected DCs and 12 clones that responded to mock-transfected DCs. These data clearly indicate a two-component vaccine response, against transfected and non-transfected antigens. T cell receptor (TCR) clonotype mapping, performed on 11 tDC-specific clones, demonstrated that 10/11 clones had different TCRs. The results thus indicate a broad spectrum T cell response against antigens encoded by the transfected tumor-mRNA. We generally observed mixed Th1/Th2 cytokine profiles, even in T cell clones that were confirmed to be derived from a single cell. This finding suggests that cytokine patterns after cancer vaccination may be more complex than indicated by the classic Th1/Th2 dichotomy.     

Adenoviral transduction of melanoma cells with B7-1: antitumor immunity and immunosuppressive factors

 Previous studies in experimental models have demonstrated that the transduction of human or murine melanoma cells with the co-stimulatory B7-1 molecule induces effective antitumor immune responses. In order to develop B7-1 gene transfer as a therapeutic tool in the clinical management of melanoma, efficient means of in vivo gene transfer must be used. To this end we evaluated in vitro and in vivo immune responses associated with adenoviral transduction of murine and human melanoma cells with B7-1. Adenovirus-mediated transduction of human and murine melanoma cells with B7-1 leads to high-level transgene expression in vitro and in vivo and does not affect MHC class I and II expression. Adenovirus-delivered B7-1 induced antitumor immune responses, on the basis of observations that human melanoma cells transduced to express human B7-1 were able to co-stimulate allogeneic and autologous T cells to proliferate and that murine melanoma K1735 cells transduced to express murine B7-1 were rejected by syngeneic, immunocompetent mice. By contrast, intratumoral injection of an adenovirus encoding murine B7-1 failed to eliminate established murine melanoma (K1735) despite high-level transgene expression in tumor cells. Potent T cell inhibitory factor(s) secreted by both K1735 cells and select human melanoma cells may contribute to the failure to achieve protection in this setting. Thus, immune inhibitory melanoma-derived factors need to be taken into account when considering the clinical use of B7-1 immunotherapy. Received: 21 December 1997 / Accepted: 16 March 1998     

T cell activation and retargeting using staphylococcal enterotoxin B and bispecific antibody: An effective in vivo antitumor strategy

 The aim of this work was to test for cure and immunity in a micrometastatic tumor model using in vivo T cell activation with staphylococcal enterotoxin B (SEB) and retargeting with antitumor×anti-CD3 F(ab′)₂ bispecific antibodies (bsAb). All studies were performed in C3H/HeN mice using syngeneic tumor cell lines. For survival studies, mice were injected intravenously on day 0 with CL62 (a p97-transfected clone of the K1735 murine melanoma tumor). Day-3 treatments included saline (control), SEB (50 γg intraperitoneal) with or without bsAb (5 μg i.v.). Cured mice, surviving beyond 60 days, were rechallenged with subcutaneous CL62, K1735, or a nonmelanoma control, AG104. SEB activation studies were performed with pulmonary tumor-infiltrating lymphocytes isolated from 10-day established CL62 tumors. Maximal tumor-infiltrating lymphocyte cytotoxicity was demonstrated 24 h following SEB injection, therefore bsAb treatments were administered 24 h after SEB. When survival was examined at 60 days, there were significantly more survivors in the group receiving SEB plus bsAb (70%) compared to the group receiving SEB alone (30%), and the controls (0%) (P=0.02 and P<0.01, respectively). Mice cured of CL62 using SEB alone or with bsAb demonstrated equal immunity to CL62, however, mice treated with SEB plus bsAb were more often immune to the p97^– parental cell line, K1735(P=0.001). Ag104 consistently grew in all mice. Results of these studies demonstrate that SEB plus bsAb can be effective, not only in curing tumors but also in providing protective immunity against targeted and nontargeted tumor antigens. Accepted: 14 October 1997     

Mucin-1-related T cell infiltration in colorectal carcinoma

 Mucins (MUC) are highly glycosylated molecules widely expressed on epithelia of different origins, including colonic mucosa. Altered glycosylation processes in tumour cells result in the exposure of normally cryptic peptide epitopes, which may then be recognized as tumour-specific antigens. Recently, MUC1-specific antibodies were detected in the serum of a broad range of cancer patients, and from different tumours tumour-specific cytotoxic T lymphocytes (CTL) were isolated that recognized MUC1. Absence of HLA restriction in the recognition has been ascribed to the highly repetitive sequence of the polypeptide core, allowing simultaneous recognition of multiple identical epitopes and cross-linking and aggregation of T cell receptor on mucin-specific T cells. We investigated the expression of MUC1 epitopes in 56 cell suspensions from Dukes’ B to D colorectal carcinomas using antibodies that recognize distinct peptide sequences on the glycosylated or deglycosylated MUC1 protein backbone. No relation was observed between MUC1 expression, or the extent of its glycosylation, and Dukes’ stage, tumour location and tumour differentiation, but a positive correlation was detected between the percentages of tumour cells expressing mucin-1 and the numbers of CD3⁺ infiltrating cells. These tumour-infiltrating lymphocytes contained, however, only a few MUC1-specific T lymphocytes, as CTL showing preferential killing of MUC1-expressing target cells were only obtained from one tumour. Since, in addition, the majority of colorectal carcinomas were found to express the fully glycosylated MUC1 glycoprotein, its potential role as a target antigen for T-lymphocyte-mediated immunotherapy in this tumour type is probably limited. Received: 2 April 1996 / Accepted: 28 May 1996     

Active specific immunotherapy with hapten-modified autologous melanoma cell vaccine

 We have developed a novel approach to cancer immunotherapy – an autologous whole-cell vaccine modified with the hapten dinitrophenyl (DNP). This approach elicits significant inflammatory responses in metastatic sites and some objective tumor responses. Post-surgical adjuvant immunotherapy with DNP-modified melanoma vaccine in a setting of micrometastatic disease produces significant survival prolongation in stage III melanoma patients. Histologically, the inflammatory responses of the tumor consist of infiltration by lymphocytes, the majority of which are CD8⁺, HLA-DR⁺ T cells. T cells from these lesions tend to have mRNA for interferon γ. T cell receptor analysis suggests that the tumor-infiltrating T cells are clonally expanded. DNP-modified vaccine also induces T cells in the peripheral blood, which respond to DNP-modified autologous cells in a hapten-specific, MHC-restricted manner. Moreover, a T cell line generated from these lymphocytes responded to only a single HPLC fraction of MHC-associated, DNP-modified tumor peptides. Since inflammatory responses in metastases were not consistently associated with dramatic tumor regression, we considered the possibility of immunosuppression at the tumor site. We found that mRNA for the anti-inflammatory cytokine, interleukin-10 (IL-10) is expressed in most metastatic melanoma tissues and subsequently demonstrated that IL-10 protein is produced by melanoma cells. Thus the efficacy of DNP vaccine could be further enhanced by inhibition of IL-10 production or binding. Finally, we expect these results obtained with melanoma to be applicable to other human cancers. Received: 6 August 1996 / Accepted: 20 September 1996     

Active immunization of metastatic melanoma patients with interleukin-2-transduced allogeneic melanoma cells: evaluation of efficacy and tolerability

 From January 1994 to July 1996 we immunized metastatic melanoma patients with HLA-A2-compatible, interleukin-2 (IL-2)-secreting, immunogenic melanoma lines in an attempt to induce a systemic reaction that might also affect distant melanoma lesions. Twelve patients (6 male and 6 female) aged from 28 to 72 years, affected with visceral and/or subcutaneous (s.c.) melanoma metastases, were treated. Two different HLA-A2⁺ melanoma lines were transduced with the human IL-2 gene (14932/IL-2 and 1B6/IL-2) and used as vaccine. Two groups of 4 patients each were injected s.c. with 5×10⁷ and 15×10⁷ irradiated 14932/IL-2 melanoma cells respectively, whereas a third group received 5×10⁷ cells of the second line (1B6/IL-2). All patients received the vaccine on days 1, 13, 26; if no progression was evident, further immunizations were administered at monthly intervals. All patients were assessable for clinical response after at least three injections of the vaccine. In 4 cases a stabilization of disease lasting from 2 to 6 months was observed; in 2 of them a mixed type of response to treatment was noted with simultaneous evidence of regressing and non-responding lesions in the same patients. No signs of clinical response were found in the remaining patients. Nine patients died of disease between 3 and 24 months after the onset of therapy, whereas 3 were alive 3 months after the end of therapy. The local and systemic side-effects of treatment were mild. These results indicate that vaccination with cells bearing the appropriate antigens and releasing IL-2 locally can produce weak clinical responses, but also indicate that better results may be achieved through modifications of the vaccine, the schedule of immunization and/or a more appropriate selection of patients. Received: 20 December 1996 / Accepted: 27 February 1997     

T cell recognition of melanoma antigens in association with HLA-A1 on allogeneic melanoma cells

Previous studies have shown that recognition of melanoma by cytotoxic T lymphocytes may be restricted by HLA-A1, A2 and other HLA antigens. The present study examined the cytotoxic specificity and major histocompatibility complex restriction of cloned cytotoxic T lymphocytes (CTL) isolated from a patient with the HLA phenotype A3,31 who had been immunized with a vaccine prepared from HLA-A1,3 melanoma cells. Cytotoxic assays against HLA-typed allogeneic melanoma cells indicated that cloned CTL from the patient were able to kill allogeneic melanoma cells expressing HLA-A1 but not other HLA-A1-positive cells. Studies on a representative clone indicated that proliferation and cytokine (tumour necrosis factor ) production in response to melanoma cells was also associated with HLA-A1 on melanoma cells. Response to the melanoma cells was associated with interleukin-4 (IL-4) rather than IL-2 production. The antigen recognized in the context of HLA-A1 on allogeneic melanoma cells was detected in cytotoxic assays on cells from 9 of 12 HLA-A1⁺ melanoma cell lines and did not appear to be the product of the MAGE-1 or-3 genes. These findings suggest that T cells can recognize melanoma antigens in the context of alloantigens and that allogeneic vaccines containing immunodominant alloantigens may generate CTL that are ineffective against autologous melanoma. The study does not, however, exclude the possibility that CTL with specificity to the latter may be activated by allogeneic vaccines, and further studies are needed to answer this question.     

Diverse manifestations of tumorigenicity and immunogenicity displayed by the poorly immunogenic B16-BL6 melanoma transduced with cytokine genes

 We evaluated the in vivo response to the poorly immunogenic B16-BL6 (BL6) murine melanoma genetically altered to secrete interleukin-2 (IL-2), IL-4, interferon γ (IFNγ) and granulocyte/macrophage-colony-stimulating factor (GM-CSF). Three parameters were evaluated: (1) tumorigenicity, (2) vaccination of naive animals, and (3) assessment of antitumor reactivity of T cells derived from tumor-draining lymph nodes (TDLN). Secretion of IL-2 abrogated the tumorigenicity of BL6, while IFNγ and IL-4 partially reduced tumorigenicity, and GM-CSF had no effect. Protective immunity to wild-type tumor challenge could not be achieved by vaccination with irradiated cytokine-secreting tumors, although IL-2 and IL-4 secretion appeared to retard the growth of the challenge inoculum significantly. An alternative method to evaluate the immunogenicity of the cytokine-secreting tumors was to measure the ability of T cells obtained from TDLN to mediate regression of wild-type tumor in adoptive immunotherapy. Neither IL-2 nor IFNγ secretion resulted in the induction of immune T cells. By contrast, GM-CSF and IL-4 secretion were found to induce immune T cells in the TDLN with GM-CSF being superior to IL-4. The combined secretion of GM-CSF and IL-4 did not lead to enhanced induction of immune T cells. GM-CSF secretion was found to up-regulate B7-1 expression in TDLN, consistent with an increase in the population of antigen-presenting cells. These studies demonstrated that reduced tumorigenicity by cytokine secretion did not correlate with increased immunogenicity. With the cytokines examined, there was limited capability of developing protective immunity against the BL6 tumor. Nevertheless, GM-CSF and IL-4 secretion significantly enhanced T cell immune reactivity to the poorly immunogenic BL6 tumor. Received: 30 January 1996 / Accepted: 22 March 1996     

Cellular immune responses in acute leukaemia patients with severe chemotherapy-induced leucopenia; characterization of the cytokine repertoire of clonogenic T cells

 T lymphocytes are important both for the host defence against infections and probably also as antileukaemic effector cells in patients with acute leukaemia. To investigate the T lymphocyte cytokine repertoire of clonogenic T lymphocytes, CD4⁺ and CD8⁺ T lymphocyte clones were prepared from acute leukaemia patients with chemotherapy-induced cytopenia (leucocytes <0.5×10⁹/l). A majority of both CD4⁺ and CD8⁺ clones secreted detectable interleukin-2 (IL-2), IL-10, IL-13, granulocyte/macrophage-colony-stimulating factor and interferon γ (IFNγ) in response to phytohaemagglutinin + accessory cells (Epstein-Barr-virus-transformed B cell line, 80-Gy-irradiated). The CD4⁺ clones showed significantly higher levels of IL-10 secretion than the CD8⁺ clones. Decreased levels of IL-2, IL-13 and IFNγ were observed when acute myelogenous leukaemia (AML) blasts were used instead of cells from the B cell line as accessory cells during phytohaemagglutinin activation, but the differences in IL-13 and IFNγ levels were reversed by addition of exogenous IL-2. On the basis of these results we conclude: (i) the remaining clonogenic T lymphocytes derived from acute leukaemia patients with therapy-induced leucopenia can respond to activation with a broad cytokine response, and T-cell-derived cytokines may then contribute to cytokine responses during complicating infections in these patients; (ii) although T cells can modulate AML blast functions and mediate antileukaemic effects, the leukaemia blasts will also modulate T cell functions and alter the cytokine profile of activated T lymphocytes. Received: 6 November 1997 / Accepted: 5 March 1998     

Oligoclonal in vitro response of CD4 T cells to vesicles of mistletoe extracts in mistletoe-treated cancer patients

 Mistletoe (Viscum album) extracts are widely used in adjuvant cancer therapy. We have investigated the in vitro responsiveness of T cells from mistletoe-treated cancer patients and untreated healthy donors to various preparations of mistletoe extracts. Proliferation of peripheral blood mononuclear cells from treated but not from untreated patients was observed in response to therapeutically used mistletoe extracts prepared from apple (mali) or pine (pini) host trees. The strongest proliferation was induced by a vesicle preparation of mali extract. Activation was strongly inhibited by interleukin-10. Using a newly developed flow-cytometry assay, we determined that cell growth was restricted to CD4 T cells. Analysis with a panel of monoclonal antibodies against the variable region of the T cell receptor β chain (Vβ) revealed an oligoclonal pattern of CD4 T cell activation. These results indicate that therapeutic administration of mistletoe extracts sensitizes a restricted set of CD4 T lymphocytes in mistletoe-treated patients. Received: 25 May 1996 / Accepted: 9 January 1997     

Immunization of mice with melanoma cells transfected to secrete the superantigen, staphylococcal enterotoxin A

Immunization of mice with a melanoma vaccine coupled with staphylococcal enterotoxin A (SEA) inhibits the growth of primary melanoma tumors in mice. We have now successfully transfected B16 cells with the sea gene and have immunized C57BL/6 mice subcutaneously once per week for 4 weeks prior to tumor challenge with vaccines of irradiated B16 cells or, 4 weeks following tumor challenge of naïve mice with B16 cells, with irradiated B16 cells transfected with the sea gene. Primary tumor growth following both types of treatments was inhibited significantly. To characterize immune responses to these immunogens, we examined the production of antibodies to the B700 melanoma antigen, the stimulation of endogenous IL-2 production, the expression of CD4, CD8, Vβ and CD25 T cell markers, and the induction of NK activity. At 4 weeks following immunization of mice, there was a significant increase (P<0.05) in levels of interleukin-2 production by splenocytes from mice immunized with SEA-secreting B16 cells or with the parental B16 cells, compared to controls. Levels of antibodies to the B700 melanoma antigen were also significantly higher in mice immunized with the SEA-secreting B16 cells, as was expression of CD4, CD8, CD25 and Vβ T cell antigens, particularly CD4. Natural killer cell activity (at various E:T ratios) was tenfold higher in splenocytes of mice immunized with SEA-secreting B16 cells, and fivefold higher in mice immunized with the parental B16 cells, compared to controls.?These data confirm the possibility of using irradiated murine melanoma cells transfected to secrete SEA in vaccines targeted at preventing the development and growth of melanoma.     

Interleukin-13 secretion by normal and posttransplant T lymphocytes; in vitro studies of cellular immune responses in the presence of acute leukaemia blast cells

T lymphocyte secretion of interleukin-13 (IL-13) in response to different activation signals was characterized in vitro. IL-13 release was investigated when virus transformed B lymphocytes or acute myelogenous leukaemia (AML) blasts were used as accessory cells during T cell activation. First, a majority of both CD4⁺ and CD8⁺ TCRαβ⁺ T lymphocyte clones, derived from normal individuals and bone marrow transplant recipients, secreted IL-13 in response to a standardized mitogenic activation signal (phytohaemagglutinin+IL-2+ B lymphocyte accessory cells). The CD4⁺ cells showed significantly higher IL-13 levels than the CD8⁺ subsets. Second, when leukaemic accessory cells (more than 95% AML blasts) were used during T cell activation, IL-13 was released both during alloactivation of normal T lymphocytes and during mitogen activation of posttransplant T cells. Third, when normal T lymphocytes were stimulated with allogeneic AML blasts, addition of IL-13-neutralizing monoclonal antibodies decreased interferon γ levels. Although addition of IL-13-neutralizing antibodies did not alter granulocyte-colony-stimulating factor secretion by allostimulating AML blasts, altered blast proliferation was detected for certain patients. Thus, most T cell clones can release IL-13, and IL-13 can modulate cytokine responses during T cell recognition of allogeneic AML cells. Received: 24 April 1997 / Accepted: 24 July 1997     

Vaccine-specific local T cell reactivity in immunotherapy-associated vitiligo in melanoma patients

The occurrence of vitiligo in patients with melanoma is especially reported for patients undergoing immunotherapy. While vitiligo in these patients is thought to be related to an immune response directed against melanoma cells, solid evidence is lacking. Here we report local cytotoxic T cell reactivity in three melanoma patients who developed vitiligo, after experimental immunotherapy using dendritic cell vaccinations. Tetramer analysis showed that vaccine-induced T cells recognizing gp100 and tyrosinase are present at the vitiligo lesions. These T cells secrete IFN-γ and IL-2 upon peptide specific stimulation as well as upon recognition of the autologous tumor. We show that functional CD8⁺ T cells specific for melanoma differentiation antigens used in a melanoma immunotherapy trial, do not only invade the tumor, but also the vitiligo lesions. This directly links vitiligo to the immuno-therapeutic intervention and supports the hypothesis that vitiligo is a marker of immunity against melanoma cells. Electronic supplementary material  The online version of this article (doi:) contains supplementary material, which is available to authorized users.     

Ex vivo generation of human anti-melanoma autologous cytolytic T cells by dentritic cell/melanoma cell hybridomas

Due to their central role in controlling immunity, dendritic cells are logical targets for priming naive cytotoxic T lymphocytes against tumour cells. In a strictly autologous system, we fused dendritic cells with melanoma cells, both of which were derived from patients with metastatic malignant melanoma. Hybridomas were positive for major histocompatibility complex (MHC) class II, CD40, CD54, CD83, CD86, and the pro-inflammatory cytokine interleukin-12. Autologous T lymphocytes were co-incubated with hybridomas. After 6 days, in-vitro-primed T lymphocytes revealed a strong proliferation activity and released Th-1-associated, but not Th-2-associated, cytokines. Furthermore they showed effective anti-melanoma activity, resulting in death of 70 +/- 9% of autologous melanoma cells. After depletion of CD4+ cells from the mixed population of primed T lymphocytes, the remaining CD8+ cells were able to kill 63+/-8% of autologous melanoma cells. Following depletion of CD8+ cells, however, the cytotoxic capacity of the remaining T lymphocytes caused death in only 32+/-6% of autologous melanoma cells. Blocking of MHC class I, but not class II, molecules on hybridomas impaired T cell proliferation, secretion of Th-1-associated cytokines, as well as the cytotoxic activity of primed T cells. These findings strongly suggest that hybridomas deliver melanoma-associated antigens via MHC class I molecules to T lymphocytes, resulting in the generation of CD8+ cytotoxic T lymphocytes with effective anti-melanoma activity in vitro. The data may serve as a basis for the use of hybridomas in the immunotherapy of malignant melanoma in vivo.     

Spontaneous T cell responses to melanoma differentiation antigens from melanoma patients and healthy subjects

The spontaneous cytotoxic T cell responses to melanoma differentiation antigens and influenza matrix peptide were compared in 20 HLA-A2⁺ melanoma patients and 17 healthy A2⁺ individuals. Cytotoxic T lymphocyte (CTL) responses were determined by mixed lymphocyte peptide culture (MLPC) involving two stimulations of unfractionated peripheral blood lymphocytes (PBLs) with peptide in vitro. CTL responses to Melan-A 9-mer (amino acids 27–35, AAGIGILTV) peptide were detected in 4 out of 16 normal individuals, but in none of the melanoma patients. CTL specific for influenza matrix peptide were frequently found in both normal individuals and melanoma patients, suggesting that generalized immuno-suppression was not responsible for this difference. No significant responses were observed in either normal individuals or melanoma patients to Melan-A 10-mer (26–35, EAAGIGILTV), two gp100 epitopes (280–288, YLEPGPVTA; 457–466, LLDGTATLRL) and two tyrosinase epitopes (1–9, MLLAVLYCL; 368–376, YMDGMSQV). Melan-A (27–35)-specific CTL cells generated by normal individuals and melanoma patients recognized both synthetic peptide-pulsed T2 cells and two HLA-A2⁺, Melan-A⁺ melanoma cell lines (ME272, LAR1) in an antigen-specific, MHC class I restricted manner. T cells generated against Melan-A 9-mer were also able to recognize Melan-A 10-mer-pulsed target cells. Spontaneous CTL responses to Melan-A 9-mer from three known responder normal individuals were further evaluated over a prolonged time course (6–11 months). All 3 subjects demonstrated specific Melan-A 9-mer responses throughout the study period, although lytic activity fluctuated over time for a given individual. We found the MLPC assay to be reliable and easy to perform for monitoring T cell responses, although it may still not be sufficiently sensitive to detect low numbers of precursor T cells. Received: 21 May 1998 / Accepted: 23 July 1998     

Levamisole regulates the proliferation of murine liver T cells through Kupffer-cell-derived cytokines

 We have previously shown that levamisole increases the cytotoxic, cytostatic, and proliferative activity of murine nonparenchymal liver cells (NPC) in vitro. We have also shown that the nonadherent subpopulation of NPC, which are composed predominantly of T lymphocytes, is very responsive to this agent when administered to mice. Kupffer cells or immigrant macrophages are also responsive to levamisole but to a lesser extent. These findings prompted us to investigate changes in cytokine production by NPC following-treatment of mice with levamisole (25 mg/kg, i.p.), which may help explain the observed alterations in the immune functions of these cells. We found that levamisole treatment of mice causes a threefold increase in production of interferon (IFN) α/β by adherent NPC (more than 80% – 90% Kupffer cells) in vitro. When IFN α/β was added to cultured cells, it decreased the proliferative capacity of liver T cells in a dose-dependent manner. In contrast, the addition of anti-IFNα/β was shown to augment levamisole-induced proliferation of unfractionated NPC and Kupffer cells. NPC production of interleukin 1 (IL-1) and interleukin-6 (IL-6) in vitro was also increased threefold following treatment of mice with levamisole. IL-6 added in vitro to cells significantly augmented levamisole-induced proliferation of liver T cells while anti-IL-6 reduced proliferative activity to control levels. These findings suggested that IFNα/β, IL-6, and IL-1 play important regulatory roles in controlling the proliferative response of murine liver-associated T lymphocytes to levamisole. Finally, the proliferation of bone marrow cells was increased in mice given 5-fluorouracil (5FU). On the other hand, the proliferation of NPC was dramatically suppressed when 5FU was administered. However, the proliferation of these cells was restored when levamisole was given after 5FU. Received: 27 November 1995 / Accepted: 16 October 1996     

Effects of granulocyte-colony-stimulating factor and granulocyte/macrophage-colony-stimulating factor administration on T cell proliferation and phagocyte cell-surface molecules during hematopoietic reconstitution after autologous peripheral blood progenitor cell transplantation

Thirty-four ovarian and breast cancer patients received autologous peripheral blood progenitor cell transplantation after high-dose myeloablative chemotherapy and either granulocyte-colony-stimulating factor (G-CSF) or granulocyte/macrophage-colony-stimulating fictor (GM-CSF) in the immediate post-transplant period. The recovery of T cell functionality was monitored by a three-color flow-cytometric approach using carboxyfluorescein diacetate succinimidyl ester, a probe the fluorescence intensity of which halves at each round of cell replication, in conjunction with CD3 and CD25 monoclonal antibodies. There was no significant difference between the two treatments on days 12, 20, and 40, T cell proliferation always being considerably lower than that of control cultures from healthy donors. At day 80, a significantly higher proportion of mitogen-stimulated T cells from GM-CSF-treated patients expressed interleukin-2 receptor, and a higher proportion of these T cells were actively proliferating. This phenomenon did not reflect any difference in the relative proportion of various lymphocyte subsets (T cells, CD4 and CD8+ T cells, CD45RA+ and CD45RO- T cells, and natural killer cells). At the end of follow-up (1-1.5 years) T cell proliferation had returned to values typically observed in healthy individuals in both groups of patients. Soon after transplantation (day 12), neutrophils from G-CSF-treated patients had a more elevated Fcgamma receptor I density and monocytes from GM-CSF-treated patients had a more elevated Fcgamma receptor II and MHC class II molecules density. The up-modulation of Fcgamma receptor II was maintained until day 40. Thus, administering G-CSF and GM-CSF in the post-transplant period affects T lymphocyte proliferation and phagocyte membrane molecules differently.     

CD40-ligation-mediated protection from apoptosis of a Fas-sensitive Hodgkin's-disease-derived cell line

 Paclitaxel or Taxol has attracted a great deal of attention in recent years because of its immense success as a chemotherapeutic agent for numerous types of cancer. It is known that paclitaxel stabilizes microtubules, and this characteristic is the presumed primary mechanism for its antitumor activity. Recently, however, paclitaxel’s ability to regulate gene expression, particularly in the murine system, has been reported by several groups. Here, we present research examining paclitaxel’s ability to alter expression of the interleukin-1β (IL-1β) and IL-8 cytokines in primary human monocytes, T lymphocytes, and four human breast cancer cell lines: MCF-7, ZR-75-1, MDA-MB-468, and MDA-MB-231. This report shows for the first time that treatment with 5–50 μM paclitaxel increases steady-state levels of IL-1β mRNA in unprimed human monocytes, MCF-7, and ZR-75-1 cells. Monocytes from eight donors in 16 experiments showed increased IL-1β secretion upon treatment; however, the increase in IL-1β production by monocytes was predicated on culturing in the absence of fetal bovine serum or in the presence of autologous human serum. In contrast to the IL-1β results, paclitaxel did not have significant effects on IL-8 expression by monocytes, T lymphocytes, or the breast cancer cells. These data show a specific effect of paclitaxel on cytokine synthesis by both immune cells and cancer cells. Received: 8 September 1997 / Accepted: 26 November 1997