BCG directly induces cell cycle arrest in human transitional carcinoma cell lines as a consequence of integrin cross-linking

Perfusion drugs for non‑muscle invasive bladder cancer (Review)

The high recurrence rate and poor prognosis of non-muscle invasive bladder cancer (BC) are challenges that need to be urgently addressed. Transurethral cystectomy for bladder tumors is often combined with bladder perfusion therapy, which can effectively reduce the recurrence and progression rates of BC. The present review integrated and analyzed currently available bladder perfusion drugs, mainly including chemotherapeutic agents, immunotherapeutic agents and other adjuvant perfusion drugs. Bacillus Calmette-Guerin (BCG) perfusion was the pioneering immunotherapy for early BC and still ranks high in the selection of perfusion drugs. However, BCG infusion has a high toxicity profile and has been shown to be ineffective in some patients. Due to the limitations of BCG, new bladder perfusion drugs are constantly being developed. Immunotherapeutic agents have opened a whole new chapter in the selection of therapeutic agents for bladder perfusion. The present review explored the mechanism of action, clinical dosage and adverse effects of a variety of bladder perfusion drugs currently in common use, described combined perfusion and compared the effects of certain drugs on BC.

Does the urinary microbiome profile change after treatment of bladder cancer?

INTRODUCTION

We sought to investigate the change in the urinary microbiome profile after transurethral resection of bladder tumor (TURBT).

METHODS

Urine specimens were collected from consecutive patients with bladder cancer. Patients were divided into those with bladder tumors ("Tumor group": de novo tumors or recurrent/progressed after TURBT ± intravesical therapy) versus those without evidence of recurrence after treatment "No Recurrent Tumor group". Samples were analyzed using 16S rRNA sequencing. Alteration in the urinary microbiome was described in terms of alpha (diversity within a sample measured by Observed, Chao, Shannon, and Simpson indices), beta diversities (diversity among different samples measured by Brady Curtis Diversity index), and differential abundance of bacteria at the genus level. Analyses were adjusted for gender, method of preservation (frozen vs preservative), and method of collection (mid-stream vs. catheter).

RESULTS

Sixty-eight samples were analyzed (42 in "Tumor" vs 26 in "No Recurrent Tumor" groups). The median age was 70 years (IQR 64-74) and 85% were males. All patients in the "No Recurrent Tumor" group had non-muscle invasive bladder cancer and 85% received BCG compared to 69% and 43% for the "Tumor" group, respectively. There was no significant difference in alpha diversity (p > 0.05). Beta diversity was significantly different (p = 0.04). Veillonella and Bifidobacterium were more abundant in the "Tumor" group (> 2FC, p = 0.0002), while Escherichia-Shigella (> 2FC, p = 0.0002) and Helococcus (> 2FC, p = 0.0008) were more abundant in the "No Recurrent Tumor" group.

CONCLUSION

Bladder cancer patients with no recurrence and/or progression exhibited a different urinary microbiome profile compared to those with tumors.

BCG in Bladder Cancer Immunotherapy

BCG is a live attenuated strain of Mycobacterium bovis that is primarily used as a vaccine against tuberculosis. In the past four decades, BCG has also been used for the treatment of non-muscle invasive bladder cancer (NMIBC). In patients with NMIBC, BCG reduces the risk of tumor recurrence and decreases the likelihood of progression to more invasive disease. Despite the long-term clinical experience with BCG, its mechanism of action is still being elucidated. Data from animal models and from human studies suggests that BCG activates both the innate and adaptive arms of the immune system eventually leading to tumor destruction. Herein, we review the current data regarding the mechanism of BCG and summarize the evidence for its clinical efficacy and recommended indications and clinical practice.

Prevention and Treatment of Side Effects of Immunotherapy for Bladder Cancer

Bladder cancer (BC) is one of the most important tumors of the genitourinary system, associated with high morbidity and mortality rates. Over the years, various antitumor treatments have been developed, and immunotherapy is one of the most effective methods. Immunotherapy aims to activate the body’s immune system to kill cancer cells. It has been established that immunotherapy drugs can be classified into “non-targeted” and “targeted” drugs depending on their site of action. Immunotherapy is reportedly effective for BC. Even though it can attack cancer cells, it can also cause the immune system to attack healthy cells, which can occur at any time during treatment and sometimes even after immunotherapy is stopped. Importantly, different types of immunotherapies can cause different side effects. Side effects may manifest themselves as signs or as symptoms. The prevention and treatment of side effects caused by immunotherapy is an important part of cancer patient management.

Investigating the association between the urinary microbiome and bladder cancer: An exploratory study

INTRODUCTION

We sought to investigate the association between the urinary microbiome and bladder cancer, including the difference between nonmuscle-invasive (NMIBC) and muscle-invasive (MIBC) bladder cancer, and Bacillus Calmette Guerin (BCG) responsive vs. BCG-refractory NMIBC.

METHODS

Urine specimens were collected from consecutive patients with bladder cancer and healthy volunteers. Urine samples were analyzed using 16S rRNA sequencing to identify and compare any present bacteria. Alteration in the urinary microbiome was described in terms of alpha (diversity of populations within a sample) and beta diversities (differences between populations among different samples). Analyses were corrected for age, sex, method of sample preservation, and method of collection (mid-stream catch vs. catheterized urine).

RESULTS

Fifty-three samples (43 patients with bladder cancer, and 10 controls) were included. For bladder cancer patients, mean age was 70 years, 7 (16%) were females; and 29 (67%) had NMIBC. Among patients with NMIBC, 11 (38%) patients received BCG, 6 of which had recurrence or progression after a median follow up of 13 months. Comparing the microbiome of bladder cancer patients vs. healthy controls, beta-diversity was significantly different, with Actinomyces, Achromobacter, Brevibacterium, and Brucella significantly more abundant in urine samples of bladder cancer patients. Comparing NMIBC and MIBC, Hemophilus and Veillonella were significantly more abundant in urine of MIBC patients, while Cupriavidus was significantly more abundant in NMIBC patients. Among NMIBC patients, Serratia and Brochothrix, Negativicoccus, Escherichia-Shigella, and Pseudomonas were significantly more abundant in patients who responded to BCG in comparison to those who did not.

CONCLUSION

Urinary microbiome varied between patients with bladder cancer and healthy controls. Moreover, urinary microbial profiles differed among patient with NMIBC vs. MIBC, and among BCG responsive vs. BCG refractory NMIBC.

Androgen Receptor Signaling Reduces the Efficacy of Bacillus Calmette-Guérin Therapy for Bladder Cancer via Modulating Rab27b-Induced Exocytosis

Although intravesical bacillus Calmette-Guérin (BCG) immunotherapy has been the gold standard for nonsurgical management of non-muscle-invasive bladder cancer, a considerable number of patients exhibit resistance to the adjuvant treatment with unexplained mechanisms. This study aimed to investigate whether and how androgen receptor (AR) signals modulate BCG cytotoxicity in bladder cancer. AR knockdown or overexpression in bladder cancer lines resulted in induction or reduction, respectively, in intracellular BCG quantity and its cytotoxic activity. Microarray screening identified Rab27b, a small GTPase known to mediate bacterial exocytosis, which was upregulated in BCG-resistant cells and downregulated in AR-shRNA cells. Knockdown of Rab27b, or its effector SYTL3, or overexpression of Rab27b also induced or reduced, respectively, BCG quantity and cytotoxicity. In addition, treatment with GW4869, which was previously shown to inhibit Rab27b-dependent secretion, induced them and reduced Rab27b expression in bladder cancer cells. Meanwhile, AR expression was upregulated in BCG-resistant lines, compared with respective controls. In a mouse orthotopic xenograft model, Rab27b/SYTL3 knockdown or GW4869 treatment enhanced the amount of BCG within tumors and its suppressive effect on tumor growth. Moreover, in non-muscle-invasive bladder cancer specimens from patients subsequently undergoing BCG therapy, positivity of AR/Rab27b expression was associated with significantly higher risks of tumor recurrence. AR activation thus correlates with resistance to BCG treatment, presumably via upregulating Rab27b expression. Mechanistically, it is suggested that BCG elimination from urothelial cells is induced by Rab27b/SYTL3-mediated exocytosis. Accordingly, Rab27b inactivation, potentially via antiandrogenic drugs and/or exocytosis inhibition are anticipated to sensitize the efficacy of BCG therapy, especially in patients with BCG-refractory AR/Rab27b-positive bladder cancer.

Oncolytic bacteria: past, present and future

More than a century ago, independent groups raised the possibility of using bacteria to selectively infect tumours. Such treatment induces an immune reaction that can cause tumour rejection and protect the patient against further recurrences. One of the first holistic approximations to use bacteria in cancer treatment was performed by William Coley, considered the father of immune-therapy, at the end of XIX century. Since then, many groups have used different bacteria to test their antitumour activity in animal models and patients. The basis for this reactivity implies that innate immune responses activated upon bacteria recognition, also react against the tumour. Different publications have addressed several aspects of oncolytic bacteria. In the present review, we will focus on revisiting the historical aspects using bacteria as oncolytic agents and how they led to the current clinical trials. In addition, we address the molecules present in oncolytic bacteria that induce specific toxic effects against the tumors as well as the activation of host immune responses in order to trigger antitumour immunity. Finally, we discuss future perspectives that could be considered in the different fields implicated in the implementation of this kind of therapy in order to improve the current use of bacteria as oncolytic agents.

Nuclear co-expression of p21 and p27 induced effective cell-cycle arrest in T24 cells treated with BCG

A proposed mechanism underlying the effect of bacillus Calmette-Guérin (BCG) treatment for bladder cancer cells is as follows: BCG-induced crosslinking of cell-surface receptors results in the activation of signaling cascades, including cell-cycle regulators. However, the clinical significance of cell-cycle regulators such as p21 and p27 is controversial. Here we investigated the relationship between BCG exposure and p21 and p27. We used confocal laser microscopy to examine the expression levels of pKi67, p21 and p27 in T24 cells (derived from human urothelial carcinoma) exposed six times to BCG. We performed dual immunofluorescence staining methods for p21 and p27 and observed the localization of nuclear and cytoplasm expressions. We investigated the priority of p27 over p21 regarding nuclear expression by using p27 Stealth RNAi™ (p27-siRNA). With 2-h BCG exposure, the nuclear-expression level of p21 and p27 was highest, while pKi67 was lowest. The percentage of double nuclear-expression of p21 and p27 in BCG cells was significantly higher than that in control cells during the 1st to 6th exposure (P < 0.05), and the expression of pKi67 showed the opposite of this pattern. Approximately 10% of the nuclear p21 was independent of p27, whereas the cytoplasmic p21 was dependent on p27. Our results suggested that the nuclear co-expression of p21 and p27 caused effective cell-cycle arrest, and thus the evaluation of the nuclear co-expression of p21 and p27 might help determine the effectiveness of BCG treatment.

Histopathologic and molecular comparative analyses of intravesical Aurora kinase-A inhibitor Alisertib with bacillus Calmette-Guérin on precancerous lesions of bladder in a rat model

PURPOSE

Recent studies have shown that Aurora-A expression is associated with bladder cancer initiation and progression. In this study, the effects of intravesical Aurora-A inhibitor Alisertib (ALS) and bacillus Calmette-Guérin (BCG) were compared on bladder carcinogenesis.

METHODS

Two mg N-Methyl-N-nitrosourea was administered intravesically to forty of Wistar-albino rats every other week for 8 weeks. At week 10, rats were divided into four groups (10/group): No-treatment (vehicle), ALS-alone, BCG-alone, and ALS + BCG. The intravesical treatment of ALS, BCG, and ALS plus BCG was performed once a week for 6 weeks. At week 16, bladders were collected for immunohistopathological and Western blot analysis. The cell cycle regulators p53, p21, Aurora-A, phosphorylated Aurora-A (p-Aurora-A), and apoptotic marker cleavage of poly [ADP-ribose] polymerase (c-PARP) were determined by Western blot.

RESULTS

Histopathologically relatively healthy urothelium was observed in ALS + BCG group (87.5%) compared to the ALS-alone (50%) and the BCG-alone (50%) groups. The lowest expression of p21 and p53 was detected in the BCG-alone, while the highest level of expression was evident in no-treatment group. The ALS treatment alone caused a slight decrease in Aurora-A while there was a dramatic decrease in p-Aurora-A in comparison to no-treatment group. In overall combined treatment with ALS + BCG significantly increased c-PARP compared to all mono-treatments, and decreased all cell cycle parameters compared to no-treatment group.

CONCLUSIONS

Although intravesical ALS treatment has similar antiproliferative effects like BCG, ALS + BCG combined treatment led to a best histopathologic and apoptotic response. Consequently, BCG combined with Aurora-A inhibition may provide a new intravesical treatment modality in the prevention of bladder carcinogenesis.

The microbiome of the urinary tract--a role beyond infection

Urologists rarely need to consider bacteria beyond their role in infectious disease. However, emerging evidence shows that the microorganisms inhabiting many sites of the body, including the urinary tract--which has long been assumed sterile in healthy individuals--might have a role in maintaining urinary health. Studies of the urinary microbiota have identified remarkable differences between healthy populations and those with urologic diseases. Microorganisms at sites distal to the kidney, bladder and urethra are likely to have a profound effect on urologic health, both positive and negative, owing to their metabolic output and other contributions. Connections between the gut microbiota and renal stone formation have already been discovered. In addition, bacteria are also used in the prevention of bladder cancer recurrence. In the future, urologists will need to consider possible influences of the microbiome in diagnosis and treatment of certain urological conditions. New insights might provide an opportunity to predict the risk of developing certain urological diseases and could enable the development of innovative therapeutic strategies.

Mechanism responsible for the antitumor effect of BCG-CWS using the LEEL method in a mouse bladder cancer model

We previously reported on the development of a water soluble formulation of the cell wall skeleton of BCG (BCG-CWS), a major immune active center of BCG, by encapsulating it into a nanoparticle (CWS-NP). The CWS-NP allowed us to clarify the machinery associated with the BCG mediated anti-bladder tumor effect, especially the roles of bladder cancer cells and dendritic cells (DCs) in the initial step, which remains poorly understood. We show herein that the internalization of BCG-CWS by bladder cancer cells, but not DCs, is indispensable for the induction of an antitumor effect against bladder cancer. Tumor growth was significantly inhibited in mice that had been inoculated with mouse bladder cancer (MBT-2) cells containing internalized BCG-CWS. On the other hand, the internalization of BCG-CWS by DCs had only a minor effect on inducing an antitumor effect against MBT-2 tumors. This was clarified for the first time by using the CWS-NP. This finding provides insights into our understanding of the role of bladder cancer cells and DCs in BCG therapy against bladder cancer.

The mechanism of action of BCG therapy for bladder cancer--a current perspective

Bacillus Calmette-Guérin (BCG) has been used to treat non-muscle-invasive bladder cancer for more than 30 years. It is one of the most successful biotherapies for cancer in use. Despite long clinical experience with BCG, the mechanism of its therapeutic effect is still under investigation. Available evidence suggests that urothelial cells (including bladder cancer cells themselves) and cells of the immune system both have crucial roles in the therapeutic antitumour effect of BCG. The possible involvement of bladder cancer cells includes attachment and internalization of BCG, secretion of cytokines and chemokines, and presentation of BCG and/or cancer cell antigens to cells of the immune system. Immune system cell subsets that have potential roles in BCG therapy include CD4(+) and CD8(+) lymphocytes, natural killer cells, granulocytes, macrophages, and dendritic cells. Bladder cancer cells are killed through direct cytotoxicity by these cells, by secretion of soluble factors such as TRAIL (tumour necrosis factor-related apoptosis-inducing ligand), and, to some degree, by the direct action of BCG. Several gaps still exist in our knowledge that should be addressed in future efforts to understand this biotherapy of cancer.

Human β-defensin 2 may inhibit internalisation of bacillus Calmette-Guérin (BCG) in bladder cancer cells

OBJECTIVE

To investigate whether secretion of human β-defensin 2 (HBD-2) is induced by bacillus Calmette-Guérin (BCG) and to determine whether HBD-2 affects BCG internalisation in bladder cancer cells.

MATERIALS AND METHODS

Reverse transcription-polymerase chain reaction analysis was used to determine whether HBD-2 mRNA increases after incubation with BCG. HBD-2 proteins in 5637 and T24 human bladder cancer cell lines were assayed by enzyme-linked immunosorbent assay. The internalisation rate was evaluated by double immunofluorescence assay and confocal microscopy to test the optimal dose of HBD-2 for BCG internalisation. We also investigated the difference in internalisation rates and cell viability between recombinant HBD-2 protein, anti-HBD-2 antibody, and HBD-2 plus anti-HBD-2 antibody pretreatments.

RESULTS

BCG induced HBD-2 mRNA expression and HBD-2 production dose and time-dependently in bladder cancer cells and affected BCG internalisation. Pretreatment with recombinant HBD-2 protein lowered internalisation of BCG dose-dependently. Moreover, anti-HBD-2 antibody prevented the effect of HBD-2 on BCG internalisation in bladder cancer cells. The internalisation rate of BCG pretreated with anti-HBD-2 antibody was higher than that in the control in 5637 (P < 0.01) and T24 cells (P < 0.05). The BCG internalisation rate in cells pretreated with anti-HBD-2 antibody plus recombinant HBD-2 protein was higher than that in the control in 5637 (P < 0.01) and T24 cells (P < 0.05). Mycobacterium bovis BCG decreased bladder cancer cell viability, and anti-HBD-2 antibody prevented the inhibitory role of HBD-2 on the anti-proliferative effects of M. bovis BCG in bladder cancer cells

CONCLUSION

Bladder cancer cells produce HBD-2 when they are infected by BCG to defend themselves against BCG internalisation, which plays an important role during the initiation and propagation of the immunotherapeutic response in bladder cancer cells.

A synthetic polyvalent ligand for α5β1 integrin activates components of the urothelial carcinoma cell response to bacillus Calmette-Guérin

PURPOSE

Prior study has shown that bacillus Calmette-Guérin binds to and cross-links α5β1 integrins present on the surface of urothelial carcinoma cells. Antibody mediated cross-linking of α5β1 integrins can reproduce signal transduction, gene transactivation and phenotypic changes, similar to those observed in response to bacillus Calmette-Guérin. We evaluated the effect of a synthetic polyvalent ligand for α5β1 on these elements of the tumor response to bacillus Calmette-Guérin.

MATERIALS AND METHODS

The consensus α5β1 integrin binding tripeptide RGD was linked to a MAP8 backbone to result in an octavalent construct targeting α5β1 integrin. RGD-MAP8 was used to determine its effect on signaling pathway activation (nuclear factor-κB, NRF2 and CEBP), gene expression (p21, interleukin-6 and 8, CXCL1, CXCL2 and CCL20) and cytotoxicity (trypan blue exclusion and HMGB1 release) in human urothelial carcinoma cells. Results were compared to those of treatment with bacillus Calmette-Guérin or the missense peptide GRD-MAP8.

RESULTS

The RDG-MAP8 construct significantly increased nuclear factor-κB signaling and p21 expression relative to controls. Compared to bacillus Calmette-Guérin treatment, only p21 expression was comparable for cells treated with RGD-MAP8, averaging 70% of bacillus Calmette-Guérin induced expression. RGD-MAP8 failed to have a significant effect on CEBP or NRF2 activation, gene expression or cell viability.

CONCLUSIONS

Intracellular signaling, gene transactivation and phenotypic changes in response to RGD-MAP8 were qualitatively and quantitatively different than those observed in response to bacillus Calmette-Guérin. Results suggest that while α5β1 integrin cross-linking contributes to the bacillus Calmette-Guérin response, it alone is insufficient to duplicate the full spectrum of bacillus Calmette-Guérin induced changes in urothelial carcinoma cell biology.

Prognostic value of Bcl-2 and Bax tumor cell expression in patients with non muscle-invasive bladder cancer receiving bacillus Calmette-Guerin immunotherapy

Apoptosis is the distinctive form of programmed cell death that complements cell proliferation in maintaining normal tissue homeostasis. The significance of constitutive apoptosis in the recurrence of Non Muscle Invasive Bladder Cancer has yet to be investigated. The aim of this study is to investigate the prognostic significance of Bax and Bcl-2 in terms of recurrence after BCG immunotherapy. Immunohistochemical analysis was performed on frozen biopsies to evaluate bcl-2 and Bax proteins expression in 28 cases of NMIBC. All patients with confirmed NMIBC were treated with intravesical BCG-immunotherapy. The follow up was performed for 26 months. The correlation between clinicopathological, immunohistochemical data and the response to BCG therapy was performed. Univariate analysis showed that, PT1 stage, High grade and Bax expression increased significantly the risk of recurrence (P = 0.015, P = 0.015 and P= 0.034 respectively). In addition, multivariate analysis selected the model involving stage, age, Bax and Bcl-2 expression as the best independent variables of recurrence. In conclusion, the expression of Bcl-2 and Bax in NMIBC could have a prognostic value in assessing the risk of recurrence after BCG immunotherapy. These findings require further investigations on larger cohort in order to ascertain new molecular markers of the response to BCG immunotherapy.

Bacillus Calmette-Guérin induces cellular reactive oxygen species and lipid peroxidation in cancer cells

OBJECTIVE

To determine whether Bacillus Calmette-Guérin (BCG) and/or BCG-soluble factors could modulate cellular reactive oxygen species (ROS) in human bladder cancer cells and the impact this could have on response to therapy.

METHODS

The expression of α5β1 integrins on human bladder cancer cell lines and their ability to internalize BCG were determined. The effect of live and lyophilized BCG on cellular ROS, lipid peroxidation, and DNA damage was determined using H(2)DCF-DA, TBARS, and comet assays. The cytotoxic effects of live and lyophilized BCG on cancer cells were determined after 24 hours. ROS modulation by Antigen 85B and mycobacterial protein tyrosine phosphatases was monitored.

RESULTS

Live and lyophilized BCG were internalized to a similar extent, but live BCG increased cellular ROS, whereas lyophilized BCG reduced ROS. High ROS levels correlated with increased lipid peroxidation. The cytotoxic effect of BCG was independent of cellular ROS but dependent on internalization. Lyophilized BCG was more cytotoxic to bladder cancer cells than live BCG. BCG soluble factors such as Antigen85B could increase cellular ROS. Internalization of lyophilized BCG abrogated the ROS, and lipid peroxidation increase induced by BCG soluble factors. Both live and lyophilized BCG induced DNA damage but to different extents.

CONCLUSION

The end products of ROS, such as lipid peroxides and superoxide, could induce DNA damage, which could lead to mutations in cancer cells that select for their survival. Reducing BCG instillations may reduce the risk of mutational changes occurring in remnant cancer cells.

Th1 cytokine-secreting recombinant Mycobacterium bovis bacillus Calmette-Guérin and prospective use in immunotherapy of bladder cancer

Intravesical instillation of Mycobacterium bovis bacillus Calmette-Guérin (BCG) has been used for treating bladder cancer for 3 decades. However, BCG therapy is ineffective in approximately 30–40% of cases. Since evidence supports the T helper type 1 (Th1) response to be essential in BCG-induced tumor destruction, studies have focused on enhancing BCG induction of Th1 immune responses. Although BCG in combination with Th1 cytokines (e.g., interferon-α) has demonstrated improved efficacy, combination therapy requires multiple applications and a large quantity of cytokines. On the other hand, genetic manipulation of BCG to secrete Th1 cytokines continues to be pursued with considerable interest. To date, a number of recombinant BCG (rBCG) strains capable of secreting functional Th1 cytokines have been developed and demonstrated to be superior to BCG. This paper discusses current rBCG research, concerns, and future directions with an intention to inspire the development of this very promising immunotherapeutic modality for bladder cancer.

Bacillus Calmette Guerin induces fibroblast activation both directly and through macrophages in a mouse bladder cancer model

BACKGROUND

Bacillus Calmette-Guerin (BCG) is the most effective treatment for non-muscle invasive bladder cancer. However, a failure in the initial response or relapse within the first five years of treatment has been observed in 20% of patients. We have previously observed that in vivo administration of an inhibitor of nitric oxide improved the response to BCG of bladder tumor bearing mice. It was described that this effect was due to a replacement of tumor tissue by collagen depots. The aim of the present work was to clarify the mechanism involved in this process.

METHODOLOGY/PRINCIPAL FINDINGS

We demonstrated that BCG induces NIH-3T3 fibroblast proliferation by activating the MAPK and PI3K signaling pathways and also differentiation determined by alpha-smooth muscle actin (alpha-SMA) expression. In vivo, intratumoral inoculation of BCG also increased alpha-SMA and collagen expression. Oral administration of L-NAME enhanced the pro-fibrotic effect of BCG. Peritoneal macrophages obtained from MB49 tumor-bearing mice treated in vivo with combined treatment of BCG with L-NAME also enhanced fibroblast proliferation. We observed that FGF-2 is one of the factors released by BCG-activated macrophages that is able to induce fibroblast proliferation. The involvement of FGF-2 was evidenced using an anti-FGF2 antibody. At the same time, this macrophage population improved wound healing rate in normal mice and FGF-2 expression was also increased in these wounds.

CONCLUSIONS/SIGNIFICANCE

Our findings suggest that fibroblasts are targeted by BCG both directly and through activated macrophages in an immunotherapy context of a bladder murine model. We also described, for the first time, that FGF-2 is involved in a dialog between fibroblasts and macrophages induced after BCG treatment. The fact that L-NAME administration improves the BCG effect on fibroblasts, NO inhibition, might represent a new approach to add to the conventional BCG therapy.

BCG strain S4-Jena: An early BCG strain is capable to reduce the proliferation of bladder cancer cells by induction of apoptosis

BACKGROUND

Intravesical immunotherapy with Mycobacterium bovis bacillus Calmette-Guérin has been established as the most effective adjuvant treatment for high risk non-muscle-invasive bladder cancer (NMIBC). We investigated the differences between the S4-Jena BCG strain and commercially available BCG strains. We tested the genotypic varieties between S4-Jena and other BCG strains and analysed the effect of the BCG strains TICE and S4-Jena on two bladder cancer cell lines.

RESULTS

In contrast to commercially available BCG strains the S4-Jena strain shows genotypic differences. Spoligotyping verifies the S4-Jena strain as a BCG strain. Infection with viable S4-Jena or TICE decreased proliferation in the T24 cell line. Additionally, hallmarks of apoptosis were detectable. In contrast, Cal29 cells showed only a slightly decreased proliferation with TICE. Cal29 cells infected with S4-Jena, though, showed a significantly decreased proliferation in contrast to TICE. Concordantly with these results, infection with TICE had no effect on the morphology and hallmarks of apoptosis of Cal29 cells. However, S4-Jena strain led to clearly visible morphological changes and caspases 3/7 activation and PS flip.

CONCLUSIONS

S4-Jena strain has a direct influence on bladder cancer cell lines as shown by inhibition of cell proliferation and induction of apoptosis. The data implicate that the T24 cells are responder for S4-Jena and TICE BCG. However, the Cal29 cells are only responder for S4-Jena and they are non-responder for TICE BCG. S4-Jena strain may represent an effective therapeutic agent for NMIBC.

MB49 murine urothelial carcinoma: molecular and phenotypic comparison to human cell lines as a model of the direct tumor response to bacillus Calmette-Guerin

PURPOSE

The mouse urothelial carcinoma cell line MB49 is widely used as an in vitro and in vivo model of urothelial carcinoma. Little comparative data exist on the molecular and phenotypic responses of this cell line relative to human cell lines. We compared the effect of bacillus Calmette-Guerin on the MB49 cell line relative to responses previously observed in the human urothelial carcinoma lines T24 (ATCC) and 253J.

MATERIALS AND METHODS

Molecular end points in MB49 cells after bacillus Calmette-Guerin exposure were signaling pathway activation (NF-kappaB, AP1 and C/EBP), gene expression (IL-6 and p21), HMGB1 release/responsiveness and gene expression profiling at 6 hours. Phenotypic response end points were direct cytotoxicity using dye exclusion, viability on MTT assay, apoptotic sensitivity and cell cycle compartmentalization.

RESULTS

NF-kappaB, AP1, C/EBP, IL-6 and p21 reporter constructs were activated in MB49 cells in response to bacillus Calmette-Guerin. Gene expression profiles showed an inflammatory/immune clustering response. Bacillus Calmette-Guerin decreased cell viability and induced G1 cell cycle arrest. Treatment of MB49 cells with bacillus Calmette-Guerin induced caspase independent cell death while simultaneously decreasing sensitivity to pro-apoptotic agents. Cell death was associated with release of the necrotic cell death marker HMGB1. MB49 cells expressed HMGB1 receptors and activated intracellular NF-kappaB signaling pathways in response to bacillus Calmette-Guerin.

CONCLUSIONS

MB49 cells show molecular and phenotypic responses to bacillus Calmette-Guerin that replicate those observed in human urothelial carcinoma lines. MB49 cells appear to be an excellent model in which to study bacillus Calmette-Guerin as an antitumor agent for urothelial carcinoma.

Bacille-Calmette Guèrin induces caspase-independent cell death in urothelial carcinoma cells together with release of the necrosis-associated chemokine high molecular group box protein 1

OBJECTIVE

To evaluate the ability of bacille-Calmette Guèrin (BCG) to induce caspase-independent cell death and release the necrosis-associated chemokine high molecular group box protein 1 (HMGB1) from urothelial carcinoma (UC) cells; a correlative clinical trial determined if BCG treatment resulted in increased urinary levels of HMGB1.

PATIENTS, MATERIALS AND METHODS

The human UC cell lines 253 J and T24 were pretreated with apoptosis inhibitors, exposed to BCG, and cell viability and ultrastructural changes measured. HMGB1 levels were assessed in cell culture supernatant after BCG treatment. The expression/function of HMGB1 receptors on the UC cell lines was determined by reverse transcription-polymer chain reaction and the ability of exogenous HMGB1 to activate nuclear factor (NF)-kappaB signalling assessed. An HMGB1 enzyme-linked immunosorbent assay was used to measure HMGB1 levels in urine obtained from BCG-treated patients.

RESULTS

Inhibition of apoptotic pathways failed to inhibit BCG-induced cell death in UC cells. Electron microscopy showed BCG-dependent ultrastructural changes consistent with cellular necrosis. BCG exposure resulted in a binary increase in cell culture supernatant levels of HMGB1. UCs expressed multiple HMGB1 receptors. Treatment of UCs with HMGB1 activated NF-kappaB. In the clinical setting, six of seven patients had increased urinary levels of HMGB1 at 24 h after BCG treatment.

CONCLUSIONS

BCG causes direct cytotoxicity in a subpopulation of UC cells. This cytotoxicity is caspase-independent and associated with ultrastructural changes and cellular protein release (HMGB1), characteristic of necrosis. Urinary levels of HMGB1 can be elevated in patients after BCG treatment. The expression and function of HMGB1 receptors in UC cells, coupled with the known role of HMGB1 on the host immune response, suggest a role for necrosis and HMGB1 release in the antitumour effect of BCG.

Bacillus Calmette-Guerin Inhibits Apoptosis in Human Urothelial Carcinoma Cell Lines in Response to Cytotoxic Injury

PURPOSE

By inducing cell cycle arrest at the G1/S transition bacillus Calmette-Guerin has been shown to have a direct antiproliferative effect on urothelial carcinoma cell lines. In other systems cell cycle arrest has been shown to confer a relative state of apoptotic resistance. We assessed the effect of bacillus Calmette-Guerin on the susceptibility of urothelial carcinoma cells to apoptotic stimuli.

MATERIALS AND METHODS

The human UC cell lines T24 and 253J (American Type Cell Culture, Rockville, Maryland) were used to evaluate the effect of bacillus Calmette-Guerin or antibody mediated alpha5beta1cross-linking on apoptosis and apoptotic sensitivity. Following treatment baseline apoptosis and the response to the apoptotic inducing agent camptothecin was evaluated using assays for caspase 3 activation and DNA fragmentation. Pharmacological blockade of signaling pathways known to be activated in response to bacillus Calmette-Guerin/alpha5beta1 cross-linking was used to assess the role of these pathways in the bacillus Calmette-Guerin apoptotic response. A final series of experiments used the MTT assay to study the impact of bacillus Calmette-Guerin pretreatment on the cytotoxicity of the antineoplastic agent mitomycin C.

RESULTS

Treatment with bacillus Calmette-Guerin failed to induce apoptosis, as measured by caspase 3 activation or DNA laddering. Bacillus Calmette-Guerin pretreatment significantly inhibited the induction of apoptosis in response to camptothecin. These effects were reproduced by antibody mediated cross-linking of alpha5beta1 integrin. Pharmacological inhibition of nuclear factor kappaB and/or AP1 signaling pathways reversed the anti-apoptotic effect of bacillus Calmette-Guerin. Mitomycin C cytotoxicity was significantly decreased by bacillus Calmette-Guerin pretreatment.

CONCLUSIONS

Bacillus Calmette-Guerin exerts a direct anti-apoptotic effect on human urothelial carcinoma cell lines. The ability of antibody mediated cross-linking to reproduce the effect and the ability of signal transduction inhibitors to block it are consistent with a mechanism involving integrin mediated signaling. Apoptotic resistance represents a therapeutic target for modulating the response to bacillus Calmette-Guerin and it may have clinical implications in the sequencing of intravesical therapies.

Bacillus Calmette-Guérin induces p21 expression in human transitional carcinoma cell lines via an immediate early, p53 independent pathway

PURPOSE

Work by our group has shown that bacillus Calmette-Guérin (BCG) induces cell cycle arrest at the G1/S interface in human transitional carcinoma cell lines. This study evaluated the effect of BCG on cell cycle regulatory proteins relevant to this effect.

MATERIALS AND METHODS

The effect of BCG on selected cell cycle regulatory proteins, including cyclin D1, p27, and p21, was assessed in 2 human cell lines. After the identification of p21 as a candidate protein, p21 regulation was evaluated using a combination of Western, reverse transcriptase polymerase chain reaction, and promoter-reporter analysis. The immediate early versus delayed nature of p21 induction was determined. Finally, given the known potential for p21 to be regulated by both p53 dependent and independent pathways, the role of p53 in BCG induced expression of p21 was evaluated.

RESULTS

BCG increased p21 expression 2-fold relative to controls as measured by Western, and promoter-reporter analysis. Inhibition of protein synthesis had no effect on p21 messenger ribonucleic acid induction in response to BCG. T24 cells contained a previously reported mutation in p53. In the p53 wild-type 253J cells, deletion of one or both p53 response elements in the p21 reporter had no effect on BCG induced reporter transactivation.

CONCLUSIONS

BCG up-regulates expression of p21 in human transitional cell carcinoma lines. The transactivation of p21 in response to BCG occurs through an immediate early, p53 independent pathway. The finding of increased p21, together with the observation that BCG induces cell cycle arrest at the G1/S interface, supports a role for this protein in the biologic response to BCG.

Mathematical Model of BCG Immunotherapy in Superficial Bladder Cancer

Immunotherapy with Bacillus Calmette-Guérin (BCG)-an attenuated strain of Mycobacterium bovis (M. bovis) used for anti tuberculosis immunization-is a clinically established procedure for the treatment of superficial bladder cancer. However, the mode of action has not yet been fully elucidated, despite much extensive biological experience. The purpose of this paper is to develop a first mathematical model that describes tumor-immune interactions in the bladder as a result of BCG therapy. A mathematical analysis of the ODE model identifies multiple equilibrium points, their stability properties, and bifurcation points. Intriguing regimes of bistability are identified in which treatment has potential to result in a tumor-free equilibrium or a full-blown tumor depending only on initial conditions. Attention is given to estimating parameters and validating the model using published data taken from in vitro, mouse and human studies. The model makes clear that intensity of immunotherapy must be kept in limited bounds. While small treatment levels may fail to clear the tumor, a treatment that is too large can lead to an over-stimulated immune system having dangerous side effects for the patient.

Phosphatidylinositol mannoside from Mycobacterium tuberculosis binds alpha5beta1 integrin (VLA-5) on CD4+ T cells and induces adhesion to fibronectin

The pathological hallmark of the host response to Mycobacterium tuberculosis is the granuloma where T cells and macrophages interact with the extracellular matrix (ECM) to control the infection. Recruitment and retention of T cells within inflamed tissues depend on adhesion to the ECM. T cells use integrins to adhere to the ECM, and fibronectin (FN) is one of its major components. We have found that the major M. tuberculosis cell wall glycolipid, phosphatidylinositol mannoside (PIM), induces homotypic adhesion of human CD4+ T cells and T cell adhesion to immobilized FN. Treatment with EDTA and cytochalasin D prevented PIM-induced T cell adhesion. PIM-induced T cell adhesion to FN was blocked with mAbs against alpha5 integrin chain and with RGD-containing peptides. Alpha5beta1 (VLA-5) is one of two major FN receptors on T cells. PIM was found to bind directly to purified human VLA-5. Thus, PIM interacts directly with VLA-5 on CD4+ T lymphocytes, inducing activation of the integrin, and promoting adhesion to the ECM glycoprotein, FN. This is the first report of direct binding of a M. tuberculosis molecule to a receptor on human T cells resulting in a change in CD4+ T cell function.

Sequential BCG and electromotive mitomycin versus BCG alone for high-risk superficial bladder cancer: a randomised controlled trial

BACKGROUND

The rationale for combining anticancer drugs has not been applied consistently to use of intravesical agents for treatment of superficial bladder cancer, for which immunotherapeutic BCG and chemotherapeutic mitomycin seem to be a potentially effective combination. We aimed to do a prospective, randomised comparison of BCG alone with that of sequential BCG and electromotive mitomycin in patients with stage pT1 bladder cancer.

METHODS

After transurethral resection and multiple biopsies, 212 patients with stage pT1 bladder cancer were randomly assigned to: 81 mg BCG infused over 120 min once a week for 6 weeks (n=105); or to 81 mg BCG infused over 120 min once a week for 2 weeks, followed by 40 mg electromotive mitomycin (intravesical electric current 20 mA for 30 min) once a week as one cycle for three cycles (n=107). Complete responders underwent maintenance treatment: those assigned BCG alone had one infusion of 81 mg BCG once a month for 10 months, and those assigned BCG and mitomycin had 40 mg electromotive mitomycin once a month for 2 months, followed by 81 mg BCG once a month as one cycle for three cycles. The primary endpoint was disease-free interval; secondary endpoints were time to progression; overall survival; and disease-specific survival. Analyses were done by intention to treat. This trial has been submitted for registration at the US National Cancer Institute website .

FINDINGS

Median follow-up was 88 months (IQR 63-110). Patients assigned sequential BCG and electromotive mitomycin had higher disease-free interval than did those assigned BCG alone (69 months [95% CI 55-86] vs 21 months [15-54]; difference between groups 48 months [42-54], log-rank p=0.0012). Patients assigned sequential BCG and electromotive mitomycin also had lower recurrence (41.9% [32.7-51.5] vs 57.9% [48.7-67.5]; difference between groups 16.0% [2.7-29.3], log-rank p=0.0012); progression (9.3% [3.8-14.8] vs 21.9% [17.9-25.9]; difference between groups 12.6% [3.0-22.2], log-rank p=0.004); overall mortality (21.5% [13.5-29.5] vs 32.4% [23.4-41.4], difference between groups 10.9% [0.6-21.2], log-rank p=0.045); and disease-specific mortality (5.6% [1.2-10.0] vs 16.2% [6.1-23.3], difference between groups 10.6% [2.5-18.7], log-rank p=0.01). Side-effects were mainly localised to the bladder.

INTERPRETATION

BCG-induced inflammation might increase the permeability of the bladder mucosa such that mitomycin can reach the target tissue more easily and exert its anticancer effect.