Negative regulation of onconstatin M signaling by suppressor of cytokine signaling (SOCS-3).

Oncostatin M (OSM) is known to inhibit the growth of melanocytes and early-stage melanomas, but this ability is lost with melanoma progression. The biological effects of OSM involve the activation of Janus kinases (Jak) and signal transducer and activator of transcription (STAT) factors. Since SOCS (suppressor of cytokine signaling) a recently described family of regulatory proteins, has been shown to act through down-regulation of Jak-STAT signaling, we investigated their putative role in the inhibition of OSM signaling in the human melanoma cell line A375. We observed that, among the SOCS family members examined, only SOCS-3 mRNA was strongly and rapidly induced by OSM. SOCS-3 protein was present within 1h and rapidly declined thereafter. Constitutive expression of SOCS-3 protein completely abolished the activation of the Jak-STAT signaling pathway as well as the Ras-MAP kinase pathway. As a result, A375 cells acquired an OSM-resistant phenotype. Our findings demonstrate that SOCS-3 is a potent regulator of OSM response and suggest that dysregulation of SOCS-3 expression could provide a mechanism for OSM resistance acquisition during tumour progression.

Definition of receptor binding sites on human interleukin-11 by molecular modeling-guided mutagenesis.

Interleukin-11 (IL-11) belongs to the interleukin-6 (IL-6)-type subfamily of long-chain helical cytokines including IL-6, ciliary neurotrophic factor (CNTF), leukemia inhibitory factor (LIF), oncostatin M, and cardiotrophin-1, which all share the glycoprotein gp130 as a signal transducing receptor component. IL-11 acts on cells expressing gp130 and the IL-11 receptor (IL-11R) alpha-subunit (IL-11Ralpha). The structural epitopes of IL-11 required for the recruitment of the individual receptor subunits have not yet been defined. Based on the structure of CNTF, a three-dimensional model of human IL-11 was built. Using this model, 10 surface exposed amino acid residues of IL-11 were selected for mutagenesis using analogies to the well-characterized receptor recruitment sites of IL-6, CNTF, and LIF. The respective mutants of human IL-11 were expressed as soluble fusion proteins in bacteria. Their biological activities were determined on HepG2 and Ba/F3-130-11alpha cells. Several mutants with substantially decreased bioactivity and one hyperagonistic mutant were identified and further analyzed with regard to recruitment of IL-11Ralpha and gp130. The low-activity mutant I171D still binds IL-11Ralpha but fails to recruit gp130, whereas the hyperagonistic variant R135E more efficiently engages the IL-11R subunits. The low-activity mutants R190E and L194D failed to bind to IL-11Ralpha. These findings reveal a common mechanism of receptor recruitment in the family of IL-6-type cytokines and offer considerable perspectives for the rational design of IL-11 antagonists and hyperagonists.

Antigen-presenting cells that phagocytose apoptotic tumor-derived cells are potent tumor vaccines.

We have reported recently that treatments combining injections of apoptotic bodies from tumor cells and interleukin 2 led to tumor regression and induced specific protection. In the present study, we show that tumor-bearing rats were cured with an 80% success rate by injection of antigen-presenting cells (APCs) that had phagocytosed apoptotic bodies derived from poorly immunogenic tumor cells, whereas phagocytic cells exposed to nonapoptotic tumor cell extracts were essentially without effect. In addition, curative vaccination using APCs that had phagocytosed apoptotic bodies generated a tumor-specific cytotoxic T-cell response and long-term protection from parental tumor challenge. Thus, systems using the processing and presentation of antigenic molecules by professional APCs after phagocytosis of apoptotic bodies appear to offer new possibilities for anticancer treatment.

5-Fluorouracil-resistant colonic tumors are highly responsive to sodium butyrate/interleukin-2 bitherapy in rats.

Advanced colorectal cancer is generally refractory to 5-fluorouracil (5-FU) chemotherapy. This is linked to the emergence of resistant cell populations, probably due to a selection process. The identification of molecular markers and the improvement of alternative therapies thus remain important. We have used as an experimental model a rat colon cancer cell line (PROb), which exhibits features similar to those of the human situation. 5-FU treatment of rats bearing PROb tumors enhanced their survival but did not lead to cure. A PROb 5-FU-resistant subline (PRObR1) was obtained by continuous in vitro exposure to 5-FU. Resistance to 5-FU was accompanied by a 2-fold increase in thymidylate synthase activity and a substantially higher incorporation of thymidine in the presence of 5-FU, compared with parental PROb cells. Unexpectedly, in syngeneic rats, PRObR1 tumors exhibited delayed growth when compared with parental PROb tumors. This was ascribed to an increased sensitivity of PRObR1 cells to host immune response since no growth delay was observed in immunocompromised nude mice and since there was no detectable difference in proliferation rates between PROb and PRObR1 cells. 5-FU treatment was inefficient in prolonging the survival of rats bearing PRObR1 tumors. In contrast, an immunotherapeutic protocol combining sodium butyrate and recombinant interleukin-2 (NaBut/rIL-2) cured 80% of the rats bearing established PRObR1 tumors. Our results suggest that NaBut/rIL-2 treatment is efficient against 5-FU-chemoresistant rat colon cancer.

Apoptosis induced by sodium butyrate treatment increases immunogenicity of a rat colon tumor cell line.

We have recently demonstrated that a treatment combining the cell differentiating agent sodium butyrate (NaBut) and interleukin-2 (IL2) resulted in a remission of established peritoneal colorectal carcinomatosis in rats. NaBut or IL2 treatment alone, never cured these tumour-bearing rats. In the present investigation, we report that NaBut-treatments induce apoptosis in the colonic cancer cells both in vitro and in vivo. We postulated that the significant therapeutic effect of NaBut/IL2 treatment can be mainly attributed to a NaBut-induced apoptosis of the tumoural cells increasing their immunogenicity. Indeed, treatment which combined apoptotic bodies (apobodies) as cell vaccine, plus IL2 immunotherapy significantly increased tumour remission and survival rate of the vaccinated rats, whereas IL2 treatment alone did not. We observed that the cured rats presented long-term protection against subsequent challenge with the parental tumour cells. This latter result suggests that these treatments generate an immune protection. This was confirmed by the presence, in the sera of the cured rats, of anti-tumoural antibodies directed against both the apobodies and the tumour cells, but not against normal colonocytes. In addition, we show that injections of apobodies before administration of the parental tumour cells results in a partial protection. We provide the first evidence that apobodies, derived from cancer cells after NaBut-treatment, induce a specific immune response against parental tumours cells. These data suggest that the distinctive immunologic properties of apobodies could provide a valuable tool in colorectal cancer immunotherapy.

[Induction of apoptosis, in vitro and in vivo, on colonic tumor cells of the rat after sodium butyrate treatment]. / Induction de l'apoptose, in vitro et in vivo, sur cellules tumorales coliques de rat après traitement par le butyrate de sodium.

Sodium butyrate (NaB) is known to induce the process of cell differentiation, particularly for epithelial colonic cells. We previously observed that treatment with NaB in association with interleukin 2 (IL2), cures 60% of peritoneal carcinomatosis induced by injection of DHDK12/TRb cells in syngenic rats [15]. In the present work, we evidenced in vitro metabolic alterations of the DHDK12/TRb cell line treated with NaB, followed by an apoptotic process. Flow cytometric analysis evidenced that the tumour cells were arrested in the G1 and G2 phases of the cell cycle for the adherent cells to the plastic. Biological analysis of cells and debris released in the culture medium were essentially apoptotic cells. Complementary, the NaB-induced apoptotic process was confirmed by the staining of the nucleus from releasing cells by Hoechst 33258 and the DNA fragmentation revealed by DNA electrophoresis. Mitochondrial activity and glucose consumption were significantly stimulated after NaB treatment, which reveal an alteration of the metabolic activity of the treated tumour cells. As a consequence, we measured a significant increase of the active TGF beta 1 production, a cytokine previously described to participate to the epithelial cell differentiation. These in vitro data were confirmed in vivo showing a significant expression of apoptotic tumour cells in NaB- or NaB/IL2-treated tumours. Thus, the present results in the rat peritoneal carcinomatosis treatment show that combination of apoptotic process induced by NaB with immunostimulation by IL2 has powerful therapeutic properties.

Optimisation of CCL64-based bioassay for TGF-beta.

Transforming growth factor beta (TGF-beta) is released by a variety of cells and known to be involved in many different processes including the immune response, wound healing and carcinogenesis. As most experimental investigations have been based on quantitative analysis of TGF-beta production using a bioassay, it seemed important to test the validity and limitations of this method. This paper analyses several parameters that may impair TGF-beta quantification by bioassay. Recommendations are made concerning the influence of technical parameters and the presence of other cytokines (EGF and bFGF) commonly released by cultured cells to which the Mv1Lu mink lung epithelial cell line (CCL64) is sensitive.