Sumeer Dhar

Anti-cancer drug characterisation using a human cell line panel representing defined types of drug resistance.

Differential drug response in a human cell line panel representing defined types of cytotoxic drug resistance was measured using the non-clonogenic fluorometric microculture cytotoxicity assay (FMCA). In total 37 drugs were analysed; eight topoisomerase II inhibitors, eight anti-metabolites, eight alkylating agents, eight tubulin-active agents and five compounds with other or unknown mechanisms of action, including one topoisomerase I inhibitor. Correlation analysis of log IC50 values obtained from the panel showed a high degree of similarity among the drugs with a similar mechanism of action. The mean percentage of mechanistically similar drugs included among the ten highest correlations, when each drug was compared with the remaining data set, was 100%, 92%, 88% and 52% for the topoisomerase II inhibitors, alkylators, tubulinactive agents and anti-metabolites respectively. Classification of drugs into the four categories representing different mechanisms of action using a probabilistic neural network (PNN) analysis resulted in 29 (91%) correct predictions. The results indicate the feasibility of using a limited number of cell lines for prediction of mechanism of action of anti-cancer drugs. The present approach may be well suited for initial classification and evaluation of novel anti-cancer drugs and as a potential tool to guide lead compound optimisation.

Identification of molecular mechanisms for cellular drug resistance by combining drug activity and gene expression profiles

Acquired drug resistance is a major problem in cancer treatment. To explore the genes involved in chemosensitivity and resistance, 10 human tumour cell lines, including parental cells and resistant subtypes selected for resistance against doxorubicin, melphalan, teniposide and vincristine, were profiled for mRNA expression of 7400 genes using cDNA microarray technology. The drug activity of 66 cancer agents was evaluated on the cell lines, and correlations between drug activity and gene expression were calculated and ranked. Hierarchical clustering of drugs based on their drug–gene correlations yielded clusters of drugs with similar mechanism of action. Genes correlated with drug sensitivity and resistance were imported into the PathwayAssist software to identify putative molecular pathways involved. A substantial number of both proapoptotic and antiapoptotic genes such as signal transducer and activator of transcription 1, mitogen-activated protein kinase 1 and focal adhesion kinase were found to be associated to drug resistance, whereas genes linked to cell cycle control and proliferation, such as cell division cycle 25A and signal transducer of activator of transcription 5A, were associated to general drug sensitivity. The results indicate that combined information from drug activity and gene expression in a resistance-based cell line panel may provide new knowledge of the genes involved in anticancer drug resistance and become a useful tool in drug development.

STAT1 signaling is associated with acquired crossresistance to doxorubicin and radiation in myeloma cell lines

The myeloma cell line RPMI 8226/S and its doxorubicin resistant subline 8226/Dox40 were used as models to explore the potential importance of the STAT1 signaling pathway in drug and radiation resistance. The 40‐fold doxorubicin resistant subline 8226/Dox40 was found to be crossresistant to single doses of 4 and 8 Gy of radiation. A genome‐wide mRNA expression study comparing the 8226/Dox40 cell line to its parental line was performed to identify the underlying molecular mechanisms. Seventeen of the top 50 overexpressed genes have previously been implicated in the STAT1 signaling pathway. STAT1 was over expressed both at the mRNA and protein level. Moreover, analyses of nuclear extracts showed higher abundance of phosphorylated STAT1 (Tyr 701) in the resistant subline. Preexposure of the crossresistant cells to the STAT1 inhibiting drug fludarabine reduced expression of overexpressed genes and enhanced the effects of both doxorubicin and radiation. These results show that resistance to doxorubicin and radiation is associated with increased STAT1 signaling and can be modulated by fludarabine. The data support further development of therapies combining fludarabine and radiation.

Cytotoxic activity of topotecan in human tumour cell lines and primary cultures of human tumour cells from patients.

The cytotoxic activity and cross-resistance pattern of the novel topoisomerase I inhibitor topotecan (Topo) were investigated in ten cell lines, representing different mechanisms of cytotoxic drug resistance, and in 218 fresh human tumour samples using the fluorometric microculture cytotoxicity assay (FMCA). Resistance to Topo in the cell lines was associated with expression of the multidrug resistance-associated protein (MRP), whereas the cell lines with P-glycoprotein (P-gp), topoisomerase II and glutathione-associated resistance did not show decreased sensitivity to the drug. Topo was more active in haematological than in solid tumour samples, but substantial activity was observed in carcinomas of the ovary and breast, sarcoma and childhood solid tumours. Cross-resistance to standard drugs representing different mechanisms of action was generally low in patient cells. The effect of Topo was better after longer exposure, but this time-dependent effect was largely abolished when adjustment for in vitro exposure was made. Topo showed activity both in proliferative and non-proliferative cell systems. The results indicate that Topo is insensitive to major mechanisms of resistance except for MRP. Proliferation does not seem to be necessary for the effect of Topo, and no superiority for protracted dosing schedules was observed. The results also suggest that, for example, leukaemias, lymphomas, sarcomas and childhood solid tumours may be suitable targets for future phase II trials.

Differential activity of topotecan, irinotecan and SN-38 in fresh human tumour cells but not in cell lines.

The topoisomerase I inhibitors topotecan irinotecan (CPT-11) and its metabolite SN-38 were studied in a panel of cell lines and in primary tumour cells from patients, using a non-clonogenic cytotoxicity assay. All three substances showed similar activity patterns in the panel of cell lines established to classify the drugs mechanistically. In the patient tumour cells the drugs had different effects. In haematological and ovarian cancer samples, SN-38 was much more potent than topotecan, followed by irinotecan, while in colorectal cancer samples only irinotecan showed substantial activity. This in vitro activity pattern seems to agree with clinical experiences to date. The inactivity of SN-38 in colorectal cancer suggests irinotecan may also have some other role in addition to being a prodrug to SN-38. This study raises questions as to the role and relevance of early preclinical model systems in anticancer drug development, and suggests that important information can be obtained from studies using primary cultures of human tumour cells.

Cytotoxic activity of calcein acetoxymethyl ester (calcein/AM) on primary cultures of human haematological and solid tumours

The aim of this study was to determine the in vitro cytotoxicity of calcein acetoxymethyl ester (Calcein/AM) on primary cultures derived from solid and haematological human tumours. Calcein/AM is a fluorescent dye that localises intracellularly after esterase-dependent cellular trapping and which has shown cytotoxic activity against various established human tumour cell lines at relatively low concentrations. The semi-automated fluorometric microculture cytotoxicity assay, based on the measurement of fluorescence generated from cellular hydrolysis of fluorescein diacetate to fluorescein, in microtitre plates was used for the evaluation of Calcein/AM activity in tumour cell suspensions from patients. The cytotoxicity was measured as a survival index (SI), defined as the fluorescence as a percentage of control cultures. A total of 163 evaluable samples from various tumours were tested with continuous drug exposure. The activity of Calcein/AM was compared with representatives of six major classes of standard chemotherapeutic drugs. Calcein/AM was found to induce concentration-dependent decreases in the SI of both haematological and solid tumour cells. The ratio of solid over haematological tumour activity increased at a rate that was concentration dependent. Although it was relatively less active than cisplatin against solid tumours, Calcein/AM showed higher solid tumour activity compared to leukaemic specific agents (cytarabine and amsacrine), vincristine and doxorubicin (Dox). Among the solid tumours tested, childhood tumours, non-small cell lung cancer and sarcomas were the most sensitive to Calcein/AM. The best correlation between SI values was seen between Calcein/AM and Dox, with weaker correlations to representatives of antimetabolites, platinum compounds, topoisomerase II inhibitors, tubulin interactive agents and alkylators. Non-cytotoxic concentrations of cyclosporin A significantly potentiated calcein-induced cytotoxicity. The results show that Calcein/AM is differentially active against haematological tumours, but with substantial activity against solid tumours. The drug may represent a new class of anticancer compound with a unique means of drug delivery.

Temporal effects of the novel antitumour pyridyl cyanoguanidine (CHS 828) on human lymphoma cells

CHS 828, a novel pyridyl cyanoguanidine, has shown potent antitumour activity both in vitro and in vivo and is currently undergoing phase I evaluation in humans in collaboration with the European Organization for Research and Treatment of Cancer (EORTC). Here we study the temporal effects of CHS 828 on cytotoxicity, protein and DNA synthesis, cellular morphology and ultra structure using the lymphoma cell line U-937 GTB as the primary tumour model. In vitro analysis of tumour cell survival in response to CHS 828 revealed a cytotoxic effect progressively increased as a function of exposure time with maximum efficacy observed after 72 h. Activity of CHS 828 on U-937 GTB cells grown in vivo was also found. CHS 828 induced-cell death was dependent on intact protein synthesis and most cells appeared to lose their membrane integrity in the presence of a relatively well preserved nuclear structure. The results indicate that CHS 828 induced active and delayed cell death with a non-apoptotic morphology.

Differential activity of cremophor EL and paclitaxel in patients' tumor cells and human carcinoma cell lines in vitro

Previous studies indicate that Cremophor EL (CEL), the excipient for Taxol, a clinical preparation of paclitaxel, has biologic properties per se.

Cytotoxic activity of a new paclitaxel formulation, Pacliex, in vitro and in vivo.

BackgroundThe paclitaxel formulation, Taxol (Bristol-Myers Squibb), is one of the most effective anticancer agents used today. However; it is associated with serious side effects believed to be caused by the Cremophor EL used for its formulation.AimTo evaluate the cytotoxic activity of a new paclitaxel formulation, Pacliex (developed by Oasmia Pharmaceutical, Uppsala, Sweden), a mixed micelles preparation in which an amphiphilic synthetic derivative of retinoic acid replaced Cremophor EL/ethanol vehicle.MethodIn this study, three model systems were used to evaluate the cytotoxic activity of Pacliex and other paclitaxel preparations. The cytotoxic activities of Pacliex, Taxol and paclitaxel in ethanol were investigated against a panel of ten human tumor cell lines using the fluorometric microculture cytotoxicity assay (FMCA). Low- and high- proliferating in vitro hollow fiber model of two cell lines, the leukemia CCRF-CEM and the myeloma RPMI 8226/S cell lines, were used to assess the cytotoxic activity of the three formulations. The in vivo hollow fiber model of the two cell lines was used for assessment of Pacliex and Taxol activity. The [3-4,5-dimethylthiazol-2-yl]-2,5-diphenyltetrazolium bromide (MTT) assay was utilized to analyze the in vitro and in vivo hollow fiber data.ResultPacliex was somewhat more effective than Taxol in the more sensitive cell lines. The activity of Taxol was more pronounced in the resistant cell lines due to an additive effect of the vehicle used. The three formulations showed similar activity in both the low- and high-proliferating in vitro hollow fiber cultures. The in vivo hollow fiber cytotoxic activity of Pacliex was similar to that of Taxol. Putting all the results together, it was found that all the three formulations had similar in vitro and in vivo activity.ConclusionThe three in vitro and in vivo models confirmed the similarity of the cytotoxic activities of Pacliex and Taxol. Considering the above, Pacliex could be an interesting alternative Cremophor EL-free formulation of paclitaxel.

Cytotoxic effect of calcein acetoxymethyl ester on human tumor cell lines: drug delivery by intracellular trapping.

Calcein acetoxymethyl ester (calcein/AM) and some related cellular dyes with a cytoplasmic distribution were investigated with respect to cellular hydrolysis, accumulation, efflux and cytotoxicity in a panel of established human cell lines, including multidrug resistant (MDR) phenotypes. At 0.1-1 micrograms/ml, calcein/AM was highly cytotoxic against several cell lines, even after short-term exposure (30 min). Calcein/AM induced no immediate loss (3 h) of membrane integrity and the drug was more active against low compared with high density plated cells. In cell lines with the MDR phenotype and in the renal carcinoma cell line ACHN, the drug was considerably less active. Non-esterified calcein had no effect and calcein/AM was significantly more potent than other structurally related fluorescein analogs and AM esters tested. Although MDR cell lines showed a decreased cellular hydrolysis and accumulation of the dye, there was no strict relationship between cytoplasmic calcein exposure and cytotoxic activity. The rate of efflux was low in the two most sensitive cell lines, the human lymphoma U-937-GTB and its vincristine (vcr) resistant subline U-937/vcr10, while the remaining cell lines showed similar biphasic efflux patterns, including cell lines of the MDR phenotype. The results show that calcein/AM has cytotoxic activity against human tumor cell lines at low concentrations. The effect appears dependent on the intracellular trapping of the drug, although the specific cellular target remains unknown. Due to its cytotoxic efficacy and unique principle of cellular drug delivery, further investigation of calcein/AM and related compounds as potentially new anticancer agents seems warranted.