Short-term culture of exfoliated cells from the urine of patients with bladder tumors

Speciation of arsenic in exfoliated urinary bladder epithelial cells from individuals exposed to arsenic in drinking water

BACKGROUND

The concentration of arsenic in urine has been used as a marker of exposure to inorganic As (iAs). Relative proportions of urinary metabolites of iAs have been identified as potential biomarkers of susceptibility to iAs toxicity. However, the adverse effects of iAs exposure are ultimately determined by the concentrations of iAs metabolites in target tissues.

OBJECTIVE

In this study we examined the feasibility of analyzing As species in cells that originate in the urinary bladder, a target organ for As-induced cancer in humans.

METHODS

Exfoliated bladder epithelial cells (BECs) were collected from urine of 21 residents of Zimapan, Mexico, who were exposed to iAs in drinking water. We determined concentrations of iAs, methyl-As (MAs), and dimethyl-As (DMAs) in urine using conventional hydride generation-cryotrapping-atomic absorption spectrometry (HG-CT-AAS). We used an optimized HG-CT-AAS technique with detection limits of 12-17 pg As for analysis of As species in BECs.

RESULTS

All urine samples and 20 of 21 BEC samples contained detectable concentrations of iAs, MAs, and DMAs. Sums of concentrations of these As species in BECs ranged from 0.18 to 11.4 ng As/mg protein and in urine from 4.8 to 1,947 ng As/mL. We found no correlations between the concentrations or ratios of As species in BECs and in urine.

CONCLUSION

These results suggest that urinary levels of iAs metabolites do not necessarily reflect levels of these metabolites in the bladder epithelium. Thus, analysis of As species in BECs may provide a more effective tool for risk assessment of bladder cancer and other urothelial diseases associated with exposures to iAs.

Improvements in culturing exfoliated urothelial cells in vitro from human urine

Human bladder cancer is a common malignant tumor that may be produced by factors such as lifestyle, environment and occupation. The aim of this study was to evaluate parameters related to the viability of exfoliated urothelial cells. Exfoliated urothelial cells were obtained from 83 urine samples of 22 healthy participants (20-53 yr). From 67 of these samples, cells were transferred to collagen-coated 24-well plates. Parameters including sample volume, pH, osmolality and participant age and gender were examined on cell viability. In successive cultures, the numbers of cell colonies and cells per cell colony were determined. The number of viable cells in the urinary sediments of males varied from 0 to 6.5 x 10(3) cells per sample (mean 1 x 10(3)). Higher cell numbers in urine samples from females (6 x 10(3)) were due to considerable amounts of exfoliated vaginal cells. Cell numbers in males were positively related to volume, osmolality, and pH of the samples, as well as to the retention time of urine in the bladder. Cell proliferation was achieved in 25 out of 67 samples and was positively related to sample osmolality and pH. Participant age and content of urinary oxalates exerted negative effects on cell proliferation in vitro. The mean number of cell colonies per sample was 1.7. The mean cell number per colony was 11.7 x 10(3). It appears that high variability in individual excretion of urothelial cells able to proliferate is a limiting factor for routine use of these cells for in vitro toxicology.

A new and reliable culture system for superficial low-grade urothelial carcinoma of the bladder

Several bladder cancer culture systems have been developed in recent years. However, reports about successful primary cultures of superficial urothelial carcinomas (UC) are sparse. Based on the specific growth requirements of UC described previously, we developed a new and reliable culture system for superficial low-grade UC. Between November 2002 and April 2006, 64 primary cultures of bladder cancer specimens were performed. After incubating the specimens overnight in 0.1% ethylenediaminetetraacetic acid solution, tumour cells could easily be separated from the submucosal tissue. Subsequently, cells were seeded in a low-calcium culture medium supplemented with 1% serum, growth factors, non-essential amino acids and glycine. The malignant origin of the cultured cells was demonstrated by spectral karyotyping. Overall culture success rate leading to a homogenous tumour cell population without fibroblast contamination was 63%. Culture success could be remarkably enhanced by the addition of glycine to the culture medium. Interestingly, 86.4% of pTa tumours were cultured successfully compared to only 50% of the pT1 and 38% of advanced stage tumours, respectively. G1 and G2 tumours grew significantly better than G3 tumours (86, 73 and 41%, respectively). Up to three passages of low-grade UC primary cultures were possible. We describe a new and reliable culture system, which is highly successful for primary culture and passage of low-grade UC of the bladder. Therefore, this culture system can widely be used for functional experiments on early stage bladder cancer.

Enhanced sensitivity of bladder cancer cells to tumor necrosis factor related apoptosis inducing ligand mediated apoptosis by cisplatin and carboplatin

PURPOSE

The development and acquisition of multiple drug resistance in cancer cells are a consequence of cancer chemotherapy and remain a major obstacle in treatment. Therefore, there is an obvious need for alternative approaches, such as immunotherapy and gene therapy. Tumor necrosis factor related apoptosis inducing ligand (TRAIL) is one of the tumor necrosis factor ligand families and it selectively induces apoptosis against cancer cells. Several cytotoxic anticancer drugs also mediate apoptosis and may share the common intracellular pathways leading to apoptosis. We reasoned that combination treatment of cancer cells with TRAIL and drugs may overcome this resistance. We evaluated whether bladder cancer cells are sensitive to TRAIL mediated cytotoxicity and whether TRAIL may synergize with anticancer agents in cytotoxicity and apoptosis against bladder cancer cells.

MATERIALS AND METHODS

Cytotoxicity was determined by a 1-day microculture tetrazolium dye assay. Synergy was assessed by isobolographic analysis.

RESULTS

Human T24 bladder cancer line was relatively resistant to TRAIL and TRAIL was not cytotoxic against normal bladder cells. Treatment of T24 cells with TRAIL in combination with 5-fluorouracil or mitomycin C did not overcome resistance to these agents. However, treatment of T24 cells with a combination of TRAIL and cisplatin resulted in a synergistic cytotoxic effect. Synergy was also achieved in the cisplatin resistant T24 line (T24/CDDP), 2 other bladder cancer lines and 3 freshly derived bladder cancer cells. The combination of TRAIL and carboplatin resulted in a synergistic cytotoxic effect on T24 cells. However, the combination of TRAIL and trans-diamminedichloroplatinum (II) resulted in an antagonistic cytotoxic effect. The synergy achieved in cytotoxicity with TRAIL and cisplatin was also achieved in apoptosis. Treating T24 cells with cisplatin enhanced the expression of bax but not bcl-2. Incubation of T24 cells with TRAIL increased the intracellular accumulation of cisplatin.

CONCLUSIONS

This study demonstrates that combination treatment of bladder cancer cells with TRAIL and cisplatin overcomes their resistance. The sensitization obtained with established cisplatin resistant and freshly isolated bladder cancer cells required low subtoxic concentrations of cisplatin, supporting the in vivo potential application of a combination of TRAIL and cisplatin for treating TRAIL resistant and cisplatin resistant bladder cancer.

Bladder cancer recurrence by implantation of exfoliated cells: is gamma-linolenic acid an effective tumoricidal agent?

OBJECTIVE

To compare the tumoricidal efficacy of meglumine gamma-linolenic acid (MeGLA), mitomycin C, epirubicin and water on two urothelial cell lines, and to establish the effect of serum protein levels derived from bladder cancer resection craters on the action of these agents.

MATERIALS AND METHODS

The human urothelial cell lines MGHU-1 and RT112 and their drug-resistant variants were exposed to short pulses of aqueous MeGLA, mitomycin, epirubicin and water. Both adherent and suspended cells were exposed to these agents. The MTT viable biomass assay and a clonogenic assay were used to establish tumoricidal efficacy. These experiments were then repeated to assess the effect of added serum proteins on the test results. Estimates of protein in the waste irrigation fluid from 10 patients undergoing transurethral resection of bladder tumour (TURBT) were used to select the quantity of protein used in the study, to establish the clinical relevance.

RESULTS

MeGLA caused > 95% reduction in the residual viable biomass of adherent cells, compared with < 50% reduction with any other agent. Both epirubicin and mitomycin were as effective as MeGLA in preventing colony formation from suspended drug-sensitive (parental) cells. However, using multidrug-resistant (MDR) cell lines, only MeGLA prevented any colony formation, although counts were greatly reduced by mitomycin and epirubicin. Water was least effective as a tumoricidal agent on both adherent and suspended cells. On the latter, water was markedly inactivated by adding 5% serum. TURBT waste irrigation fluid was found frequently to contain such quantities of serous fluid contamination, as shown by albumin estimates in waste fluid from 10 consecutive patients undergoing this procedure.

CONCLUSION

MeGLA is an effective tumoricidal agent against both parental and MDR cell lines. Its efficacy is maintained in the presence of clinically relevant serum contamination.

Association of in vitro growth potential of urinary exfoliated cells with tumor localization and intraluminal recurrence rates of urothelial cancers

PURPOSE

One problem in the treatment of urothelial cancers, in particular of upper urinary tract cancers, is multifocal synchronous and/or metachronous tumor development in the heterotopic urothelium. We investigated the abilities of exfoliated cells in the urine of patients with urothelial cancers to colonize and proliferate in vitro.

MATERIALS AND METHODS

Short-term cultures of 129 urine samples obtained from patients with urothelial cancers and 53 samples from healthy volunteers were compared as to the growth potential of urinary-exfoliated cells and clinico-pathological features, in particular tumor localization and evidence of intraluminal tumor recurrence.

RESULTS

Primary cell outgrowth occurred in 112 (86.8%) of the 129 cell cultures from the patients and in 29 (54.7%) of the 53 from the healthy volunteers (p < 0.0001). "Sufficient cell growth" (more than 10(5) cells per flask) was obtained for 77 (59.7%) of the 129 cultures from patients and 7 (13.2%) of the 53 from the healthy volunteers (p < 0.0001). In terms of tumor localization, the rate of sufficient cell growth was significantly higher for patients with upper urinary tract tumor (21/25, 84.0%) than for those with bladder tumor (56/104, 53.8%) (p = 0.0062). Proportional hazard regression analysis showed that only the growth potential of the urinary-exfoliated cells was significantly predictive of intravesical tumor recurrence in patients with superficial bladder tumors (p = 0.011).

CONCLUSIONS

The potentials for the colonization and proliferation of urinary-exfoliated cells are associated with intraluminal multifocal tumor recurrence of urothelial cancers.

Immunocytochemical detection of p53 in cultures of exfoliated cells from urine of patients with urothelial cancers

Early diagnosis of urothelial cancer is critical for successful treatment. Mutation of the p53 gene together with allelic loss of chromosome 17p correlates well with high grade and invasiveness of urothelial cancer. Moreover, this mutation is reported to be an early event for carcinoma in situ of the urothelium. In order to develop a new non-invasive diagnostic method for urothelial cancer, we have established a short-term culture system for urinary exfoliated cells from patients with urothelial cancer. Immunocytochemical detection of p53 in these urine-derived cells was conducted. Short-term cultures of exfoliated cells from 50 ml samples of urine from 52 patients with urothelial cancers were made. Adequate cell growth (> 10(5) cells per flask) was followed by passage onto glass chamber slides for p53 immunocytochemical staining. Successful passage was obtained in 40 of the 52 (76.9%) patients with urothelial cancers studied. The success rate for patients with tumors immunohistochemically positive for p53 nuclear accumulation was 90.5%, and 61.3% for those with tumors negative for p53 (P < 0.05). Results of immunochemical analysis of the p53 in the urine cells and those in the tumor samples were identical in 92.1% of the patients. Culture of exfoliated cells from urine would be a good, non-invasive method for the molecular diagnosis of urothelial cancer that should prove useful for the early detection and follow-up of tumors with p53 mutation.