Marie Indrová
Academy of Sciences of the Czech Republic
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Featured researches published by Marie Indrová.
Immunology | 2007
Jasper Manning; Marie Indrová; Barbora Lubyova; Hana Pribylova; Jana Bieblová; Jiri Hejnar; Símová J; Jandlová T; Bubeník J; Milan Reiniš
Epigenetic events play an important role in tumour progression and also contribute to escape of the tumour from immune surveillance. In this study, we investigated the up‐regulation of major histocompatibility complex (MHC) class I surface expression on tumour cells by epigenetic mechanisms using a murine tumour cell line expressing human E6 and E7 human papilloma virus 16 (HPV16) oncogenes and deficient in MHC class I expression, as a result of impaired antigen‐presenting machinery (APM). Treatment of the cells with the histone deacetylase inhibitor Trichostatin A, either alone or in combination with the DNA demethylating agent 5‐azacytidine, induced surface re‐expression of MHC class I molecules. Consequently, the treated cells became susceptible to lysis by specific cytotoxic T lymphocytes. Further analysis revealed that epigenetic induction of MHC class I surface expression was associated with the up‐regulation of APM genes [transporter associated with antigen processing 1 (TAP‐1), TAP‐2, low‐molecular‐mass protein 2 (LMP‐2) and LMP‐7]. The results demonstrate that expression of the genes involved in APM are modulated by epigenetic mechanisms and suggest that agents modifying DNA methylation and/or histone acetylation have the potential to change the effectiveness of antitumour immune responses and therapeutically may have an impact on immunological output.
Journal of Immunological Methods | 1997
Vesna Sobota; Bubeník J; Marie Indrová; Vladimı́r Vlk; Jaroslava Jakoubková
Experiments were designed to assess whether cryopreserved PBL could be used to monitor the immunological effects of IFN-alpha therapy in renal cell carcinoma (RCC) patients. It was found that programmed freezing and thawing of peripheral blood lymphocytes (PBL) from normal blood donors did not substantially change lymphocyte subset proportions and that cryopreserved PBL were able to proliferate in response to IL-2. It was also possible to activate the cytolytic activity of frozen PBL, and the frozen leukocytes did not lose their ability to secrete IFN-gamma after PHA activation. We have used these findings to investigate the immunological effects of IFN-alpha therapy in RCC patients. Cryopreservation of PBL samples collected from various patients over a period of 9-14 months enabled us to compare the in vitro reactivity of PBL from individual RCC patients repeatedly and under standard conditions. It was found that IL-2 induced proliferative responses of PBL from IFN-alpha non-responders, collected prior to IFN-alpha therapy, were significantly decreased as compared to those from normal blood donors. The proliferative responses of PBL from IFN-alpha responders, collected prior to IFN-alpha therapy, did not substantially differ from normal controls. Culture of PBL from IFN-alpha responders for 3 days in IFN-alpha-containing medium increased their lytic activity towards RCC targets, whereas no such increase was observed with non-RCC targets or using PBL from IFN-alpha non-responders or PBL from normal-blood donors. Enzyme-linked immunospot (ELISPOT) assays performed with cryopreserved lymphocytes from IFN-alpha non-responding RCC patients, collected prior to IFN-alpha therapy, revealed a substantially decreased ability to secrete IFN-gamma, as compared to IFN-gamma secretion of PBL from IFN-alpha responders or normal blood donors.
Journal of Cancer Research and Clinical Oncology | 1995
Bubeník J; Símová J; D. Bubeníková; J. Zeuthen; Marie Indrová
Experiments were designed to investigate a possible therapeutic role of interleukin-2 (IL-2) gene transfer in the model of murine (EL-4) leukaemia pretreated with cyclophosphamide. It has been found that i. p. pretreatment of the leukaemic mice with cyclophosphamide, followed by i. v. administration of irradiated cells, genetically engineered to produce IL-2 and used as a source of the cytokine (IR-IL-2 cells), cured a substantial percentage of the leukaemic mice. Neither treatment with cyclophosphamide nor administration of the IR-IL-2 cells alone had any significant therapeutic effect. Labelling of the EL-4 and IR-IL-2 cells with different fluorescent cell linkers followed by i. v. injection and detection of the labelled cells in cryostat sections of various organs has shown that both cell populations can be detected almost exclusively in the red pulp of the spleen, close to the white pulp nodules, thus providing the possibility of short-range local interactions among the IL-2-producing cells, IL-2-responsive defence effector cells and EL-4 leukaemia targets.
Journal of Leukocyte Biology | 2014
Romana Mikyšková; Marie Indrová; Veronika Vlková; Jana Bieblová; Símová J; Zuzana Paračková; Elżbieta Pajtasz-Piasecka; Joanna Rossowska; Milan Reiniš
MDSCs represent one of the key players mediating immunosuppression. These cells accumulate in the TME, lymphoid organs, and blood during tumor growth. Their mobilization was also reported after CY therapy. DNMTi 5AC has been intensively studied as an antitumor agent. In this study, we examined, using two different murine tumor models, the modulatory effects of 5AC on TU‐MDSCs and CY‐MDSCs tumor growth and CY therapy. Indeed, the percentage of MDSCs in the TME and spleens of 5AC‐treated mice bearing TRAMP‐C2 or TC‐1/A9 tumors was found decreased. The changes in the MDSC percentage were accompanied by a decrease in the Arg‐1 gene expression, both in the TME and spleens. CY treatment of the tumors resulted in additional MDSC accumulation in the TME and spleens. This accumulation was subsequently inhibited by 5AC treatment. A combination of CY with 5AC led to the highest tumor growth inhibition. Furthermore, in vitro cultivation of spleen MDSCs in the presence of 5AC reduced the percentage of MDSCs. This reduction was associated with an increased percentage of CD11c+ and CD86+/MHCII+ cells. The observed modulatory effect on MDSCs correlated with a reduction of the Arg‐1 gene expression, VEGF production, and loss of suppressive capacity. Similar, albeit weaker effects were observed when MDSCs from the spleens of tumor‐bearing animals were cultivated with 5AC. Our findings indicate that beside the direct antitumor effect, 5AC can reduce the percentage of MDSCs accumulating in the TME and spleens during tumor growth and CY chemotherapy, which can be beneficial for the outcome of cancer therapy.
Immunotherapy | 2010
Elżbieta Pajtasz-Piasecka; Marie Indrová
Dendritic cells (DCs) are believed to be the most potent antigen-presenting cells able to link the innate and adaptive immune systems. Many studies have focused on different immunotherapeutic approaches to applying DCs as tools to improve anticancer therapy. Although a number of investigations suggesting the benefit of DC-based vaccination during anticancer therapy have been reported, the general knowledge regarding the ultimate methods of DC-vaccine preparation is still unsatisfactory. In this article, the perspectives of DC-based anti-tumor immunotherapy and optimizing strategies of DC vaccination in humans in light of results obtained in mouse models are discussed.
International Journal of Cancer | 1998
V. Vlk; P. Rössner; Marie Indrová; Bubeník J; Vesna Sobota
Our study was designed to examine the effects of IL‐2 gene therapy in a surgical minimal residual tumour disease (SMRTD). Mice were inoculated s.c. with methylcholanthrene (MC)‐induced MC12 sarcoma cells. When the tumours reached 8 to 12 mm in diameter, they were excised, either completely (“microscopic SMRTD”) or incompletely (“macroscopic SMRTD”). On day 90 after surgery, the tumour recurrence rate in untreated mice with microscopic SMRTD was approximately 30%, whereas in those with macroscopic SMRTD it was 75%. After surgery, experimental mice were treated with 2 types of irradiated, IL‐2 gene‐modified, IL‐2‐producing tumour cell vaccine. One type of vaccine was derived from the MC12 sarcoma cells (MC12‐IL2/IV‐3); the other type was derived from an unrelated X63‐Ag8.653 plasmacytoma (X63‐m‐IL‐2). Both types of vaccine failed to cure the macroscopic SMRTD. Whereas the X63‐m‐IL‐2 vaccine was also ineffective in the microscopic SMRTD, the MC12‐IL2/IV‐3 vaccine was capable of preventing growth in all but one mouse (1/64) with microscopic SMRTD when administered 2 to 5 days after surgery. If the vaccination took place 2 days before surgery or later than 5 days after surgery, the therapeutic activity was lost. Vaccination with irradiated parental MC12 cells did not produce any significant benefit compared to the operated‐only mice. The protective effect of the MC12‐IL2/IV‐3 vaccine was specific and comparatively long‐lasting. Vaccinated mice, which had rejected the MC12 tumour residuum, were capable of rejecting a second inoculum of the MC12 sarcoma cells injected on days 35 to 110 after surgery but succumbed to the growth of 2 other unrelated murine sarcomas carrying different tumour‐rejection antigens. Int. J. Cancer 76:115–119, 1998.© 1998 Wiley‐Liss, Inc.
Vaccine | 2003
Bubeník J; Romana Mikyšková; V. Vonka; Luis Mendoza; Símová J; Michal Smahel; Marie Indrová
Moderately immunogenic HPV 16-associated tumours TC-1 (MHC class I(+), HPV 16 E6/E7(+), G12V Ha-ras(+)) and MK16/1/III ABC (MHC class I(-), HPV 16 E6/E7(+), G12V Ha-ras(+)), both of the H-2(b) haplotype and transplanted in syngeneic mice, were used to examine the adjuvant effects of IL-2 and dendritic cells for surgical therapy. Mice were inoculated s.c. with the respective tumour cells, and when the tumours reached 8-12 mm in diameter, they were extirpated. Three days after surgery, the experimental mice were treated with IL-2, IL-2 gene-modified tumour vaccines, or dendritic cells, injected s.c. to the site of previous surgery. It has been found in both, MHC class I(+) and MHC class I(-) tumours that the recombinant IL-2 and IL-2 gene-modified vaccines substantially reduced the tumour recurrence rate and inhibited growth of tumour recurrences. The dendritic cells were significantly effective only in mice with surgical minimal residual TC-1 (MHC class I(+)) tumour disease and when injected before they have reached the terminal stage of their differentiation.
International Journal of Oncology | 2016
Romana Mikyšková; Ivan Štěpánek; Marie Indrová; Jana Bieblová; Símová J; Iva Truxova; Irena Moserova; Jitka Fucikova; Jiřina Bartůňková; Radek Spisek; Milan Reiniš
High hydrostatic pressure (HHP) has been shown to induce immunogenic cell death of cancer cells, facilitating their uptake by dendritic cells (DC) and subsequent presentation of tumor antigens. In the present study, we demonstrated immunogenicity of the HHP-treated tumor cells in mice. HHP was able to induce immunogenic cell death of both TC-1 and TRAMP-C2 tumor cells, representing murine models for human papilloma virus-associated tumors and prostate cancer, respectively. HHP-treated cells induced stronger immune responses in mice immunized with these tumor cells, documented by higher spleen cell cytotoxicity and increased IFNγ production as compared to irradiated tumor cells, accompanied by suppression of tumor growth in vivo in the case of TC-1 tumors, but not TRAMP-C2 tumors. Furthermore, HHP-treated cells were used for DC-based vaccine antigen pulsing. DC co-cultured with HHP-treated tumor cells and matured by a TLR 9 agonist exhibited higher cell surface expression of maturation markers and production of IL-12 and other cytokines, as compared to the DC pulsed with irradiated tumor cells. Immunization with DC cell-based vaccines pulsed with HHP-treated tumor cells induced high immune responses, detected by increased spleen cell cytotoxicity and elevated IFNγ production. The DC-based vaccine pulsed with HHP-treated tumor cells combined with docetaxel chemotherapy significantly inhibited growth of both TC-1 and TRAMP-C2 tumors. Our results indicate that DC-based vaccines pulsed with HHP-inactivated tumor cells can be a suitable tool for chemoimmunotherapy, particularly with regard to the findings that poorly immunogenic TRAMP-C2 tumors were susceptible to this treatment modality.
Oncology Reports | 2011
Romana Mikyšková; Marie Indrová; Símová J; Jana Bieblová; Bubeník J; Milan Reiniš
Genetically modified tumour cells producing cytokines such as interleukin 12 (IL-12) are potent activators of the antitumour immune responses and represent a promising therapeutic modality when combined with chemotherapy. The objective of this study was to examine whether IL-12-producing cellular vaccines can augment chemotherapy of human papilloma virus (HPV) 16-associated murine tumours with the cytostatic agent gemcitabine (GEM). We found that peritumoral administration of IL-12-producing tumour vaccines enhanced the effect of cytoreductive therapy with GEM both in non-metastasizing murine carcinoma TC-1 and in metastasizing murine carcinoma MK16. The percentage of mice with MK16 metastases and the number of lung metastatic nodules was substantially decreased. In another clinically relevant setting, surgical minimal residual tumour disease, the administration of IL-12-producing tumour vaccine and GEM after the MK16 tumour surgery reduced the percentage of mice with tumour recurrences; similarly, the percentage of metastasis-bearing mice and the number of metastatic nodules was decreased. Tumour inhibitory effects exerted by GEM plus IL-12 were associated with high production of interferon-γ (IFNγ) by splenocytes. Our results suggest that the IL-12-producing vaccine can enhance the effect of GEM chemotherapy in some HPV16-associated murine tumour models.
International Journal of Cancer | 2010
Símová J; Marie Indrová; Jana Bieblová; Romana Mikyšková; Bubeník J; Milan Reiniš
Natural killer T (NKT) cells are potent modulators of antitumor immunity. Their protective effects can be achieved upon their activation by glycolipid ligands presented in the context of the CD1d molecule. These CD1d‐binding glycolipid antigens have been described as potent therapeutic agents against tumors, infections, as well as autoimmune diseases. Immunoregulatory and therapeutic effects of glycolipid ligands depend on their structure and modes of administration. Therefore, more studies are needed for optimization of the particular therapeutic settings. This study was focused on the tumor‐inhibitory effects of 12 carbon acyl chain β‐galactosyl ceramide (C12 β‐D‐Galactosyl Ceramide; β‐GalCer(C12)) on the growth of human papillomavirus type 16 (HPV16)‐associated neoplasms transplanted in syngeneic mice. Treatment of tumor‐bearing mice with β‐GalCer(C12) 3–14 days after tumor cell transplantation significantly inhibited the growth of the major histocompatability complex (MHC) Class I‐positive (TC‐1), as well as MHC Class I‐deficient (TC‐1/A9) HPV16‐asssociated tumors. Moreover, administration of β‐GalCer(C12) after surgical removal of TC‐1 tumors inhibited the growth of tumor recurrences. Similar results were obtained in the treatment of tumors after chemotherapy. β‐GalCer(C12) treatment turned out to be also synergistic with immunotherapy based on administration of IL‐12‐producing cellular vaccines. These results suggest that β‐GalCer(C12), whose antitumor effects have so far not been studied in detail, can be effective for the treatment of minimal residual tumor disease as well as an adjuvant for cancer immunotherapy.