Cisplatin (CDDP)-induced radiation resistance is not associated with CDDP resistance in 86HG39 and A172 malignant glioma cells.

Malignant gliomas are often treated with cisplatin (cis-diamminedichloroplatinum(II), CDDP) and radiation but results remain unsatisfactory. The development of resistance might explain the poor prognosis. The aim of this study was to investigate whether two human malignant glioma cell lines, 86HG39 and A172, develop resistance to CDDP and/or radiation after CDDP pretreatment. The cells are incubated three times with 10(-6) M CDDP for 24 h, allowed to recover from the treatment and then tested for sensitivity to CDDP and radiation (9 Gy, 60Co) using a colorimetric assay (MTT). A172 pretreated and wild-type cells showed no difference in sensitivity to CDDP, whilst 86HG39 cells became more sensitive following pretreatment. This indicates that no resistant phenotype towards CDDP developed in any of the cell lines. In contrast, the CDDP-pretreated cells, after radiation, had significantly higher growth rates compared with the wild-type cells in both cell lines (A172: 4.4 +/- 0.5 versus 2.5 +/- 0.3, respectively, 192 h after radiation; 86HG39: 6.2 +/- 0.7 versus 2.3 +/- 0.3, respectively, 216 h after radiation; P < 0.05) indicating resistance against radiation. The level of glutathione (GSH), which is known to mediate resistance against radiation, was 157.2 +/- 61.3 ng/mg protein in A172 cells and 93.2 +/- 16.9 ng/mg protein in 86HG39 cells, and there was no significant difference between levels in wild-type and pretreated cells (A172: 130.1 +/- 34; 86HG39: 81.6 +/- 10.4). These data show that CDDP pretreatment can induce resistance against radiation in vitro independently of CDDP cross-resistance mediated by a mechanism different from GSH.

In vitro modulation of cisplatin resistance by cytokines.

We have previously demonstrated that treatment of wild-type (wt) T98G malignant glioma cells with Cisplatin (CDDP) led to a resistant phenotype. It has been demonstrated that interleukin 1 (IL-1) potentiates the cytotoxic effect of CDDP and that IL-6 decreases cytotoxicity by inhibition of apoptosis in cancer cells. Here we examined the influence of IL-1 and IL-6 on the sensitivity of resistant and wt T98G cells. Using semi-quantitative PCR reactions in three independent experiments, resistant glioma cells revealed a decreased IL-1alpha (50.3+/-7.2), IL-1beta (56.0+/-4.0) and IL-6 (44. 3+/-18.2) mRNA content compared to wt cells (100%;P<0.05). Resistant and wt cells were positive for the receptors IL-1RI and IL-6R (PCR). To investigate whether IL-1alpha, IL-1beta or IL-6 changes the sensitivity of the resistant and wt cells towards CDDP, cells were incubated up to 7 days with 10(-5) M CDDP and with different concentrations (0, 0.01, 0.1, 1 ng/ml) of cytokine. Sensitivity was tested in a colorimetric assay (MTT). IL-6 did not influence the sensitivity towards CDDP of either wt or resistant cells, while IL-1alpha and IL-1beta enhanced sensitivity of resistant cells to CDDP. These data suggest that autocrine IL-1 production is involved in the mechanisms of resistance in T98G cells.

CD44 expression and hyaluronic acid binding of malignant glioma cells.

The mechanisms leading to rapid invasive growth of malignant gliomas are poorly understood. Expression of the hyaluronic acid (HA) receptor CD44 and adhesion to HA are involved in invasive properties. Our previous studies have shown that malignant glioma cells are able to adhere to extracellular HA. Here we investigated expression of the hyaluronic acid receptor CD44 protein in five human (T98G, A172, U87MG, 86HG39, 85HG66) and two rat (C6, 9L) glioma cell lines. Influence of anti-CD44 antibody and hyaluronidase-preincubation on the HA-binding was determined using HA/BSA (bovine serum albumin)-coated culture plates. While all gliomas were highly positive for CD44 with no differences in the number of positive staining cells, median fluorescence intensity decreased as follows: C6>T98G>9L>85HG66> 86HG39>A172>U87MG. Using HA/BSA coated culture plates the relative levels of specific adhesion to HA were determined as T98G>A172>9L>86HG39>U87MG> 85HG66. C6 cells failed to bind HA specifically. Incubation with anti-human-CD44 MAb significantly decreased HA-adhesion of T98G, A172, 85HG66 and U87MG human glioma cells. However the binding capacity was completely blocked only in 85HG66 cells. The three other cell lines kept a specific HA-adhesion after saturation of the receptor. Hyaluronidase pretreatment markedly enhanced HA-adhesion of C6 and 9L rat glioma cells. These results suggest that (i) HA-adhesion of malignant glioma cells is mainly, but not only, mediated by CD44, (ii) expression of CD44 does not correspond with adhesion capacity and (iii) cell-bound glycosaminoglycans may influence glioma cell adhesion to extracellular HA.

Polyoxoanions are cytotoxic to malignant glioma cells.

We studied the cytotoxicity of five polyoxoanions on two human malignant glioma cell lines (T98G and 86HG39), a rat glioma cell line (C6) and a human fibroblast cell line (NIH-3T3) using MTT tests to measure the drug concentration killing 50% of the cells (LC50). Cisplatin was used as a reference agent. Cisplatin had the highest efficacy in three of the four cell lines. Only in T98G cells, one of the components (POA5) had a lower LC50 value (1.3 x 10(-6) mol/l) than cisplatin (2.5 x 10(-6)). POA5 was also the most cytotoxic polyoxoanion when the LC50 values of all four cell lines were averaged (6.6 x10(-6)). Average LC50 values of the other compounds were 10.9, 12.6, 19.0 and 19.2 x 10(-6) mol/l in POA1, POA2, POA3 and POA4, respectively. When the benign fibroblasts were used to calculate a therapeutic index as LC50 in fibroblasts divided by LC50 in glioma cells, POA5 was superior to cisplatin. These results indicate that polyoxoanions are cytotoxic for malignant glioma cells and that the most promising compound investigated here was POA5.

Valproic acid inhibits proliferation and changes expression of CD44 and CD56 of malignant glioma cells in vitro.

Recently we were able to show that valproic acid (VPA) induces growth-arrest and differentiation of human neuroblastoma cells. Hence we investigated in vitro the antitumoral effects of VPA on malignant gliomas by determining cell proliferation and expression of CD56 and CD44 of human T98G, A172, 85HG66, 86HG39 and rat C6 cell lines. VPA at concentrations ranging from 0.1 to 1 mM strongly inhibited proliferation of A172, 86HG39, 85HG66 and C6 cells in a dose-dependent manner, whereas T98G cell growth remained unchanged. All human glioma cells were highly positive for CD44, whereas CD56 was differently expressed. After 7 days of incubation with 1mM VPA CD56 expression was markedly increased in T98G, A172 and 85HG66 cells, whereas CD44 expression was decreased in all human cell lines. These data suggest that VPA has antitumoral effects on malignant glioma cells. Therefore we consider VPA as a potent therapeutic agent for treatment of these tumors.

Long recovery times improve the detection of cellular resistance in vitro.

In vitro cytotoxicity testing is used increasingly during the development of clinical treatment protocols. These tests are influenced by many variables, not all of which have been assessed systematically yet. We analyzed the influence of the recovery time between the end of treatments and measurements on the detection of cellular resistance. The development of resistance to cisplatin and radiation was chosen as a model since the schedule of these treatments is the objective of several ongoing clinical trials. C6 rat glioma, T98G, 86HG-39, A172 human glioma and TE671 human rhabdomyo-sarcoma cells were pretreated with radiation or cisplatin. The cellular resistance was then compared in pretreated and wild-type cells using the 3-(4,5-dimethylthiazol-2-yl)-2,5-diphenyltetrazolium bromide (MTT) test. In all cell lines, apparent drug concentrations killing 50% of the cells were dependent on the recovery time. In A172 cells this concentration was 10.3+/-02.1 microM after 48 h but decreased to 3.56+/-0.44 microM after 120 h recovery time (P < 0.001). After recovery times of more than 168 h, 53% of all pretreated cell lines were resistant to cisplatin or radiation, 25% were unchanged and 22% were more sensitive. However, only half the resistant cells could be identified when the MTT test was done with only 48 h recovery time. The sensitivity of detection increased from 0.46 to 0.83 when the recovery time of the test system was extended from 48 h to 168 h. The specificity was not dependent on the recovery time. Experiments showing resistance after short recovery times are reliable, but lack of resistance can only be shown in experiments with long recovery times. Cisplatin treatment can result in resistance to radiation in glioma cells.

Hyaluronic acid binding capacity of malignant glioma cells.

The mechanisms underlying the rapid invasive growth of malignant gliomas are poorly understood. Adhesion to extracellular hyaluronic acid (HA) has been implicated in the invasive properties of tumor cells. We investigated the HA binding capacity of human (T98G, A172, U87MG, 86HG39, 85HG66) and rat (C6, 9L) glioma cell lines by means of HA coated, bovine serum albumin (BSA)-blocked (HA/BSA) and only BSA-blocked culture plates. Results were compared with adhesion to native wells (100% adhesion). Adhesion to HA/BSA was high for T98G (84.4%), medium for 86HG39 (36%), 9L (33.1%), A172 (35.5%) and low for 85HG66 (21.3%) and U87MG (26.8%). Adhesion to only BSA-coated wells was significantly lower in all these cell lines, suggesting a specific HA-adhesion. Only C6 showed similar adhesion to HA/BSA and BSA alone, therefore, C6 failed to bind HA specifically. These results suggest that adhesion to extracellular HA might be involved in the invasion of some gliomas.

Interferon-gamma inhibits proliferation and adhesion of T98G human malignant glioma cells in vitro.

BACKGROUND: The prognosis of children with malignant gliomas is poor. A new therapeutic strategy using interferon-gamma (IFN-g) as an immunostimulator substance will start in Germany in 1997. One of the therapeutic problems in malignant gliomas is the high invasiveness of the tumor cells. Adhesion to the extracellular matrix molecule hyaluronic acid (HA) is involved in invasion. We addressed the question of whether IFN-g (i) influences the proliferation and (ii) changes the HA-binding capacity of malignant glioma cells. METHOD: T98G glioblastoma cells were incubated up to 4 days with IFN-g (30 and 300 IE/ml). Proliferation was measured by a colorimetric assay (MTT) and compared with untreated controls. Expression of the HA-receptor CD44 was determined by FACS-analysis using the mouse monoclonal antibody J-173. HA-adhesion was investigated using HA-coated (3 mg/ml), bovine serum albumin blocked 24-well-plates and compared with uncoated wells. RESULTS: FN-g (300 IE/ml) inhibited proliferation to 76.3% (p < 0.0001) after 48 hours compared with untreated controls. This effect was mediated not only by inhibition of proliferation, but also by induction of cell-death, first seen 72 h after IFN-g incubation. 24 hours later only 24% of treated cells survived. 93.1% of T98G cells expressed CD44 (FACS-analysis). A specific HA-adhesion of glioma cells was shown: 85.5% of the cells adhered to HA, 13.3% to BSA compared with controls. 300 IE/ml IFN-g decreased HA-adhesion significantly (p < 0.001) to 17%, whereas BSA-adhesion remained unchanged. CONCLUSION: IFN-g inhibits tumor cell proliferation and diminishes the invasive properties of glioma cells via reduction of HA binding capacity. Our results support the use of IFN-g in the therapy of malignant gliomas.

C6 cells cross-resistant to cisplatin and radiation.

Malignant gliomas are relatively resistant to radiation and chemotherapy. To investigate whether cisplatin (cis-diamminedichloroplatinum(II), CDDP) causes resistance we pretreated C6 cells with 10(-6) M CDDP for 24 hours and then tested their sensitivity in a colorimetric assay. Pretreated cells developed resistance to CDDP (resistance factor 2.0) and radiation (survival after 9 Gy 60Co: 36.4% +/- 5.5 versus 28.6% +/- 5.2, p = 0.005). Glutathione levels of pretreated cells were higher (51.7 +/- 13.8 ng/mg protein) than in wt cells (40.4 +/- 13.2, p = 0.029). Addressing the mechanisms we established 4 wild type subclones with different CDDP sensitivities. However, cross-resistance to CDDP (survival: 60.7% +/- 3.5 versus 7.2% +/- 0.5, respectively p = < 0.001) and radiation (29.7% +/- 2.6 versus 12.9% +/- 0.8, p = < 0.001) could also be induced in a subclone showing involvement of mutation. These data suggest that CDDP can induce resistance mediated via induced mutation and increased GSH levels.

Cisplatin induces radioprotection in human T98G glioma cells.

Malignant gliomas are often treated with cisplatin (cis-diamminedichloroplatinum(II), CDDP) and radiation but results remain unsatisfactory. To investigate whether CDDP induces radioresistance in glioma, T98G human glioblastoma cells were pretreated 5 times with 10(-6)M CDDP for 24 hours and then the sensitivity of wild type (wt) and pretreated cells towards radiation (9Gy 60Co) and CDDP was tested in a colorimetric assay (MIT). The growth rates of wt and pretreated cells were 1.8 +/-0.2 and 3.1 +/- 0.2 respectively (p = 0.000155) 216 hours post radiation. Pretreated cells also developed resistance to CDDP (resistance factor 2.35). Glutathione (GSH) which potentially mediates resistance to both treatments was measured. Incubation for 6 hours with 10(-5) M CDDP increased GSH levels by a factor of 2.28 (p < 0.0001). However, neither basal nor increased levels differed between wt and pretreated cells. These data show that CDDP pretreatment can induce resistance against radiation and CDDP independently of GSH.