Prevention of bladder tumor formation in mice by a novel bone marrow-derived factor, reptimed.

BACKGROUND: Reptimed is a novel, species-conserved, bone marrow-derived molecule which possesses anti-neoplastic activity. Previously, we established an orthotopic murine bladder tumor (MBT-2) model and reported accurate documentation of the presence and the extent of intravesical involvement of bladder tumor implants using magnetic resonance imaging (MRI) (1). Herein, we investigated the activity of exogenously administered Reptimed in the MBT-2 model. MATERIALS AND METHODS: Intravesicular and intraperitoneal administration of Reptimed concurrently with and following transurethral tumor cell implantation was performed and MBT-2 tumor response was assessed at several time points post tumor implant. RESULTS: Serial MRI scans of Reptimed-treated mice at days 14 to 33 post tumor transplant revealed significant inhibition of bladder tumor growth with no significant tumor growth observed by MRI on day 33 post-implant. The corresponding histological examination of the whole mount bladder sections revealed similar inhibitory effects of Reptimed with respect to the topography and depth of intravesical tumor involvement. In contrast, control, untreated bladders revealed extensive exophytic tumors with deeply invasive transitional cell carcinoma. CONCLUSIONS: These studies demonstrate the anti-tumor effect of Reptimed and highlight its importance as a potential therapy for cancer.

Potent antitumor activity of a novel nucleoside analogue, BCH-4556 (beta-L-dioxolane-cytidine), in human renal cell carcinoma xenograft tumor models.

Beta-L-Dioxolane-cytidine (BCH-4556) is a novel anticancer nucleoside analogue with a stereochemically unnatural beta-L configuration. This compound was previously shown to have a potent antitumor activity in human prostate and hepatocellular xenograft tumor models (K. L. Grove et al., Cancer Res., 55: 3008-3011, 1995). Herein, we extended the efficacy validation of BCH-4556 to renal cell carcinoma (RCC) cell lines both in vitro and in vivo. In vitro cytotoxicity and proliferation inhibition determinations in human RCC cell lines CAKI-1, CAKI-2, 786-0, and A498 produced IC50 concentrations ranging from 15-35 nM. In vivo antitumor activity was consistent with the in vitro sensitivity. BCH-4556 was very effective in human RCC tumor xenograft models, including CAKI-1, A498, RXF-393, and SN12C carcinomas. Very good responses were observed in animals bearing CAKI-1, A498, and RXF-393 RCC tumors given i.p. doses of 10, 25, and 50 mg/kg twice a day for 5 days, with complete regression recorded in most of the animals tested. Curative activity was also observed, with 40-60% of animals remaining tumor free in all three RCC models at the day of study termination. Significant tumor shrinkage was also evident in the SN12C model. BCH-4556 efficacy evaluation in the orthotopic subrenal capsule tumor models demonstrated a potent tumor growth inhibition against human CAKI-1 xenografts and tumor stasis against mouse Renca tumors. BCH-4556 was also effective in inhibiting the growth of rebound CAKI-1 tumors after the administration of a second treatment cycle. The observed antitumor activity of BCH-4556 in several RCC human solid tumor xenografts, including the lethal RXF-393 model, warrants further investigation of this novel nucleoside analogue in clinical trials of RCC.

Genetically regulated response to intravesical bacillus Calmette Guerin immunotherapy of orthotopic murine bladder tumor.

PURPOSE: Genetically regulated host response to intravesical Bacillus Calmette Guerin (BCG) immunotherapy was assessed using the murine bladder tumor MM45T in Bcgr and Bcgs inbred congenic strains of mice. MATERIALS AND METHODS: Tumor detection and monitoring of treatment response to BCG was carried out using magnetic resonance imaging (MRI) of BALB/c (Bcgs allele) and BALB/c. CD2 (CD2) (Bcgr allele) mice implanted orthotopically with MM45T tumor cells. Intravesical BCG instillation (3 doses per week for 3 weeks) was used as prophylaxis against tumor implantation in both Bcgr and Bcgs strains and as definitive treatment against MRI-confirmed established tumors. Tumors implanted in both strains of untreated mice served as controls. Intravesical injection of BCG was also performed in established heterotopic subcutaneous tumors in both strains. Immunologic response in all groups was assessed by flow cytometric analysis of the bladder irrigation fluid cell composition, measuring CD4+ (helper/inducer) and CD8+ (cytotoxic/ suppressor) cell subsets. RESULTS: Intralesional injection of BCG into established heterotopic tumors showed growth inhibition in the Bcgs strain but not in the Bcgr strain. Intravesical BCG treatment against established orthotopic tumors showed significant tumor regression in the Bcgs strain compared to control but there was no effect in the Bcgr strain. CONCLUSION: The differential anti-tumor activity of BCG in the Bcgs and Bcgr congenic murine strains supports the notion that Bcg gene-controlled responsiveness to BCG innoculation determines, at least partially, the host response to immunotherapy. These results have potential clinical significance in patient selection for intravesical therapy for bladder cancer.

Mycobacterium cell wall: an alternative to intravesical bacillus Calmette Guerin (BCG) therapy in orthotopic murine bladder cancer.

PURPOSE: The antitumor effect of intravesical mycobacterium cell wall (MCW) therapy on orthotopic and heterotopic bladder tumors in the mouse was assessed with magnetic resonance imaging (MRI). MATERIALS AND METHODS: The live bacillus Calmette Guerin (BCG) organism was replaced with a cell wall extract derived from the outer capsule of Mycobacterium phlei. This alternative form of intravesical therapy was used with the aim of reducing the toxicity associated with the live mycobacterium organism without compromising efficacy. Response to multiple doses of intravesical MCW and BCG was assessed in mice with established MBT-2 tumors after transurethral tumor implantation. RESULTS: Serial MRI of BCG-treated mice revealed significant tumor regression. The MR images correlated well with the corresponding histology of the whole mount bladder sections. Treatment with MCW also resulted in significant inhibition of tumor growth compared with control untreated animals (p < 0.05) although the antitumor effect was less pronounced than that of live BCG. Treatment was well tolerated in the MCW group with no apparent ill effects. Flow cytometric (FCM) analysis of bladder washings with phenotype-specific monoclonal antibodies revealed predominantly a CD3+ T cell infiltrate in the control and BCG-treated as well as the MCW-treated mice. The CD4+ (helper/inducer) subset of T cells predominated over the CD8+ (suppressor/cytotoxic) subset in both the BCG- and MCW-treated animals, and the CD4+/CD8+ ratio in both of the treated groups differed significantly from that of the control untreated groups. CONCLUSION: Intravesical MCW appears to invoke a similar inflammatory response in the mouse bladder mucosa as the live BCG organism and retains an antitumor action. It deserves further evaluation as a potential antitumor agent against bladder cancer. A Phase II clinical trial is now underway.

Metallothionein in testicular germ cell tumors and drug resistance. Clinical correlation.

BACKGROUND: Metallothioneins (MT) are endogenous metalloproteins involved in the homeostasis of essential metals and detoxification of toxic metals. Some recent experimental studies suggested tumor resistance to cisdiamminedichloroplatin may be associated with overexpression of MT in the tumor. METHODS: The presence of MT in 33 primary testicular germ cell tumor specimens was assessed immunohistochemically using a rabbit polyclonal rat liver MT antibody that cross-reacted with human MT. The data were correlated with the patients' clinical course. RESULTS: Seminomas stained weakly or not at all for MT, regardless of the clinical stage. Most nonseminomas stained heavily for MT. The more advanced staged nonseminomas tended to stain more heavily for MT. CONCLUSIONS: In view of the considerable experimental evidence as well as some inferential clinical data involving MT in cis-diamminedichloroplatin resistance, there appears to be a role for MT in cis-diamminedichloroplatin resistance in germ cell tumors. Further studies to elucidate the role of MT in germ cell tumor chemoresistance are warranted.

Modulation of both cisplatin nephrotoxicity and drug resistance in murine bladder tumor by controlling metallothionein synthesis.

The role of metallothionein (MT) in cisplatin (cis-DDP) resistance and renal toxicity was investigated in C3H mice inoculated with mouse bladder tumor (MBT-2). C3H mice were inoculated s.c. with 1 x 10(6) MBT-2 cells/mouse on day 0. Mice were given injections of proparglyglycine (PPG) (500 mumol/kg s.c.) once a day for 3 days from day 7 to day 9 and with ZnSO4 (200 mumol/kg s.c.) once a day for 2 days from day 8 to day 9. cis-DDP (50 mumol/kg i.p.) was administered 10 days after MBT-2 cell inoculation. Since MT contents in the tumor and kidneys were significantly increased by administration of ZnSO4, both the antitumor activity of cis-DDP and its renal toxicity were reduced. However, coadministration of PPG reduced MT induction in tumor without affecting the level of renal MT. As a result, PPG could clearly overcome the MT-mediated cis-DDP resistance of tumors without compromising the protective effect exerted by renal MT on nephrotoxicity of the drug. It was suggested, therefore, that PPG may be a promising adjunct in cancer chemotherapy to overcome the drug resistance of tumors caused by the elevated level of MT.

Characterization of MBT-2 tumour cell "variant" resistant to tumour necrosis factor.

Previously we reported sensitivity of MBT-2 murine bladder tumour to tumour necrosis factor (TNF) in vivo and in vitro [8]. We showed that with prolonged exposure of cultured MBT-2 tumour cells to TNF, a resistant MBT-2 "variant" tumour cell population emerged in vitro. This concurred with the finding of transient in vivo cytotoxic effect of TNF against MBT-2 tumour. Herein, we delineate phenotypic changes in MBT-2 cells associated with TNF resistance. Parent MBT-2 (MBT-2P) and the TNF-resistant "variant" MBT-2R cells were compared in terms of in vitro sensitivity to TNF, DNA profile, karyotype and in vitro growth kinetics. We conclude that acquisition of resistance to TNF may be due to cell cycle derangement and differences in in vitro growth characteristics. DNA indices and karyotype of "variant" MBT-2R cells were not altered, indicating the anti-tumour action of TNF is not-mutagenic.

Concomitant treatment of MBT-2 bladder tumour by tumour necrosis factor alpha and interferon alpha in conjunction with delayed type hypersensitivity immunotherapy.

In our previous study [9], we reported the anti-tumour effect of TNF on mouse bladder tumour (MBT-2) both in vivo and in vitro. Inoculation of a single dose of TNF alone caused significant but transient tumour growth inhibition. Subsequent repeated doses of TNF did not sustain or augment the anti-tumour effect. The current experiments were undertaken to assess the anti-tumour activity of (i)-concomitant treatment of TNF-A and IFN-A against MBT-2 bladder tumour and (ii)-concomitant TNF + IFN-A treatment in conjunction with T-DTH (delayed-type hypersensitivity) immunotherapy. Systemic administration of multiple doses of TNF + IFN-A in vivo caused initial partial tumour regression followed by tumour growth inhibition up to 14 days following treatment. This combined treatment showed an enhanced anti-tumour effect compared to TNF-A treatment alone. Immunotherapy of MBT-2 tumour-bearing mice with T-DTH "immune" effector cells alone did not cause significant tumour growth inhibition. In contrast, concomitant administration of both T-DTH effector cells and TNF + IFN-A in MBT-2 tumour-bearing mice resulted in significant tumour growth inhibition for up to 16 days. The immune effector cells conferring immunotherapy were isolated from the spleens of tumour-immunized, "DTH-primed" animals and were characterized as Lyt 1+2- helper/DTH T cells (CD4+ phenotype). These cells mediate both DTH response to MBT-2 tumour antigens as well as anti-MBT-2 tumour protection. In vitro treatment of the "immune" cells with TNF-A resulted predominantly in the proliferation of Lyt 1+ T cells versus Lyt 2+ cells.(ABSTRACT TRUNCATED AT 250 WORDS)

Anti-tumor effect of tumor necrosis factor and its induction of tumor variant of MBT-2 transitional cell carcinoma of the bladder.

The effect of tumor necrosis factor (TNF), a potential anti-tumor agent, was assessed both in vivo and in vitro against MBT-2 transitional cell carcinoma of the bladder in C3H/HeHa mice. Systemic administration of either single or multiple doses of TNF into tumor bearing animals resulted in partial tumor regression and had a consistent but transient anti-tumor effect. Compared to control, untreated tumor bearing animals, TNF-treated tumor bearing mice had significantly smaller tumor volumes and slower tumor growth rates over the period of 12 days following TNF inoculation. No significant difference in tumor volumes and tumor growth rates between controls and TNF-inoculated mice was observed from day 12 to day 21 after TNF treatment. Assessment of TNF cytotoxicity against in vitro MBT-2 cell line using 3[H]-thymidine proliferation assay showed significant sensitivity of MBT-2 cells to treatment with TNF. A "Variant" MBT-2 cell line was derived by sequential culturing of the original MBT-2 cells in the presence of progressively higher concentrations of TNF in culture medium. Although the significant growth suppression on the MBT-2 tumor appears to be transient, further studies are warranted which may elucidate the immunologic and biologic behavior of TNF and this transplantable animal tumor.

The roles of two peritoneal T-lymphocyte populations in the in vivo rejection of methylcolanthrene-induced sarcoma.

Two phenotypically distinct T-lymphocyte populations infiltrating the peritoneal site of active tumor rejection were found to have specific reactivity against methylcolanthrene (MCA)-induced sarcoma(s) in two separate biological assays. One, expressing a Lyt 1+2- phenotype, mediates specific delayed type hypersensitivity (DTH) reaction to the immunizing MCA tumor transplantation antigen, and the other, expressing a Lyt 1+2+ phenotype, transfers in vivo protection against the MCA tumor in Winn assay. This latter antitumor immunity was specific for individually distinct transplantation antigens of each MCA sarcoma line. In contrast, standard transplantation tests by direct (whole animal) challenge demonstrated considerable tumor cross-reactivity. These findings and the relative contributions of the two T-cell populations are discussed in terms of effector mechanism.

Enhancement of tumor growth in mice: evidence for the involvement of host macrophages.

Intratumor host cells of methylcholanthrene-induced fibrosarcoma(s) were shown to enhance the in vivo outgrowth of syngeneic homologous tumors (MC1A, Mc2A, Mc2B) but not two heterologous T-lymphomas (EL4 and TLX9) in the Winn adoptive transfer assay. This enhancing activity was not restricted only to the latent period of tumor growth but was also observed during the period of active in vivo tumor proliferation. Tumor enhancement was mediated by a population of cells adherent to nylon wool and glass and insensitive to irradiation (with 850 rads) or to treatment with anti-Thy 1.2 serum and complement. Macrophages from peritoneal exudates of normal mice, used as control host cell population, showed similar tumor-enhancing activity. These findings suggest that tumor infiltrating host cells, predominantly macrophages appear to be the cell type responsible for tumor enhancement and active promotion of tumor growth (in vivo).