Phase I trial of intravesical Suramin in recurrent superficial transitional cell bladder carcinoma

Recent Advances in Enterovirus A71 Infection and Antiviral Agents

Enterovirus A71 (EV-A71) is one of the major causative agents of hand, foot, and mouth disease (HFMD) that majorly affects children. Most of the time, HFMD is a mild disease but can progress to severe complications, such as meningitis, brain stem encephalitis, acute flaccid paralysis, and even death. HFMD caused by EV-A71 has emerged as an acutely infectious disease of highly pathogenic potential in the Asia-Pacific region. In this review, we introduced the properties and life cycle of EV-A71, and the pathogenesis and the pathophysiology of EV-A71 infection, including tissue tropism and host range of virus infection, the diseases caused by the virus, as well as the genes and host cell immune mechanisms of major diseases caused by enterovirus 71 (EV-A71) infection, such as encephalitis and neurologic pulmonary edema. At the same time, clinicopathologic characteristics of EV-A71 infection were introduced. There is currently no specific medication for EV-A71 infection, highlighting the urgency and significance of developing suitable anti-EV-A71 agents. This overview also summarizes the targets of existing anti-EV-A71 agents, including virus entry, translation, polyprotein processing, replication, assembly and release; interferons; interleukins; the mitogen-activated protein kinase, phosphatidylinositol 3-kinase, and protein kinase B signaling pathways; the oxidative stress pathway; the ubiquitin-proteasome system; and so on. Furthermore, it overviews the effects of natural products, monoclonal antibodies, and RNA interference against EV-A71. It also discusses issues limiting the research of antiviral drugs. This review is a systematic and comprehensive summary of the mechanism and pathological characteristics of EV-A71 infection, the latest progress of existing anti-EV-A71 agents. It would provide better understanding and guidance for the research and application of EV-A71 infection and antiviral inhibitors.

Old Polyanionic Drug Suramin Suppresses Detrimental Cytotoxicity of the Host Defense Peptide LL-37

The host defense peptide LL-37 is the only human cathelicidin, characterized by pleiotropic activity ranging from immunological to anti-neoplastic functions. However, its overexpression has been associated with harmful inflammatory responses and apoptosis. Thus, for the latter cases, the development of strategies aiming to reduce LL-37 toxicity is highly desired as these have the potential to provide a viable solution. Here, we demonstrate that the reduction of LL-37 toxicity might be achieved by the impairment of its cell surface binding through interaction with small organic compounds that are able to alter the peptide conformation and minimize its cell penetration ability. In this regard, the performed cell viability and internalization studies showed a remarkable attenuation of LL-37 cytotoxicity toward colon and monocytic cells in the presence of the polysulfonated drug suramin. The mechanistic examinations of the molecular details indicated that this effect was coupled with the ability of suramin to alter LL-37 secondary structure via the formation of peptide-drug complexes. Moreover, a comparison with other therapeutic agents having common features unveiled the peculiar ability of suramin to optimize the binding to the peptide sequence. The newly discovered suramin action is hoped to inspire the elaboration of novel repurposing strategies aimed to reduce LL-37 cytotoxicity under pathological conditions.

100 Years of Suramin

Suramin is 100 years old and is still being used to treat the first stage of acute human sleeping sickness, caused by Trypanosoma brucei rhodesiense Suramin is a multifunctional molecule with a wide array of potential applications, from parasitic and viral diseases to cancer, snakebite, and autism. Suramin is also an enigmatic molecule: What are its targets? How does it get into cells in the first place? Here, we provide an overview of the many different candidate targets of suramin and discuss its modes of action and routes of cellular uptake. We reason that, once the polypharmacology of suramin is understood at the molecular level, new, more specific, and less toxic molecules can be identified for the numerous potential applications of suramin.

A Second WNT for Old Drugs: Drug Repositioning against WNT-Dependent Cancers

Aberrant WNT signaling underlies cancerous transformation and growth in many tissues, such as the colon, breast, liver, and others. Downregulation of the WNT pathway is a desired mode of development of targeted therapies against these cancers. Despite the urgent need, no WNT signaling-directed drugs currently exist, and only very few candidates have reached early phase clinical trials. Among different strategies to develop WNT-targeting anti-cancer therapies, repositioning of existing drugs previously approved for other diseases is a promising approach. Nonsteroidal anti-inflammatory drugs like aspirin, the anti-leprotic clofazimine, and the anti-trypanosomal suramin are among examples of drugs having recently revealed WNT-targeting activities. In total, 16 human-use drug compounds have been found to be working through the WNT pathway and show promise for their prospective repositioning against various cancers. Advances, hurdles, and prospects of developing these molecules as potential drugs against WNT-dependent cancers, as well as approaches for discovering new ones for repositioning, are the foci of the current review.

Peptidomimetic suppresses proliferation and invasion of gastric cancer cells by fibroblast growth factor 2 signaling cascade blockage

Fibroblast growth factor 2 (FGF2) is closely involved in a variety of tumors, including gastric cancer (GC). FGF2 inhibitors exert good antitumor activity, but no FGF2 inhibitor has been employed for clinical use. To obtain a low-toxicity, stable peptidomimetic (called P29) target to FGF2, the affinity between P29 and FGF2 was detected by surface plasmon resonance. The stability of P29 was measured by high performance liquid chromatography. MTT assay and transwell assay were used to access the proliferative and invasive ability of GC cells, respectively. Western blot assay and flow cytometric analysis were applied to study the mechanism of P29. P29 possessed high affinity with FGF2 and a longer half-life in vitro. P29 suppressed the FGF2-induced proliferation of GC cells. It also inhibited the phosphorylation of FRS2, ERK1/2, and AKT triggered by FGF2 in GC. In addition, P29 blocked GC cell transformation from the G1/G0 phase to the S phase and weakened the invasive capability of GC cells. In this paper, we present a novel FGF2 inhibitor that could exert improved anticancer effect in GC in vitro.

Classical and non-classical proangiogenic factors as a target of antiangiogenic therapy in tumor microenvironment

Angiogenesis is sustained by classical and non-classical proangiogenic factors (PFs) acting in tumor microenvironment and these factors are also potential targets of antiangiogenic therapies. All PFs induce the overexpression of several signaling pathways that lead to migration and proliferation of endothelial cells contributing to tumor angiogenesis and survival of cancer cells. In this review, we have analyzed each PF with its specific receptor/s and we have summarized the available antiangiogenic drugs (e.g. monoclonal antibodies) targeting these PFs, some of these agents have already been approved, others are currently in development for the treatment of several human malignancies.

Cancer Research UK Centre for Drug Development: translating 21st-century science into the cancer medicines of tomorrow

The Cancer Research UK Centre (CRUK) for Drug Development (CDD) can trace its origins back to the Cancer Research Campaign Phase I/II Committee (created in 1980) and to date has tested over 120 potential cancer medicines in early-phase clinical trials. Five drugs are now registered, providing benefit to thousands of patients with cancer as part of their routine standard of care. In recent years, the CDD has established several different business and operating models that provide it with access to the pipelines of pharmaceutical and biotechnology companies. This has enabled potential new treatments to be taken into clinical development that might have otherwise languished on companies' shelves and has increased the number of drug combinations being explored in early-phase clinical trials.

SELDI-TOF-MS proteomic profiling of serum, urine, and amniotic fluid in neural tube defects

Neural tube defects (NTDs) are common birth defects, whose specific biomarkers are needed. The purpose of this pilot study is to determine whether protein profiling in NTD-mothers differ from normal controls using SELDI-TOF-MS. ProteinChip Biomarker System was used to evaluate 82 maternal serum samples, 78 urine samples and 76 amniotic fluid samples. The validity of classification tree was then challenged with a blind test set including another 20 NTD-mothers and 18 controls in serum samples, and another 19 NTD-mothers and 17 controls in urine samples, and another 20 NTD-mothers and 17 controls in amniotic fluid samples. Eight proteins detected in serum samples were up-regulated and four proteins were down-regulated in the NTD group. Four proteins detected in urine samples were up-regulated and one protein was down-regulated in the NTD group. Six proteins detected in amniotic fluid samples were up-regulated and one protein was down-regulated in the NTD group. The classification tree for serum samples separated NTDs from healthy individuals, achieving a sensitivity of 91% and a specificity of 97% in the training set, and achieving a sensitivity of 90% and a specificity of 97% and a positive predictive value of 95% in the test set. The classification tree for urine samples separated NTDs from controls, achieving a sensitivity of 95% and a specificity of 94% in the training set, and achieving a sensitivity of 89% and a specificity of 82% and a positive predictive value of 85% in the test set. The classification tree for amniotic fluid samples separated NTDs from controls, achieving a sensitivity of 93% and a specificity of 89% in the training set, and achieving a sensitivity of 90% and a specificity of 88% and a positive predictive value of 90% in the test set. These suggest that SELDI-TOF-MS is an additional method for NTDs pregnancies detection.

Study of the reversal effect of NF449 on neuromuscular blockade induced by d-tubocurarine

AIMS

The aim of this study was to investigate the mechanism for the reversal effect of NF449 (a suramin analogue) on the neuromuscular block induced by d-tubocurarine (d-TC).

MAIN METHODS

Nerve-stimulated muscle contractions and end-plate potentials were performed in mouse phrenic nerve-diaphragm preparations. Acetylcholine (ACh)-induced muscle contractions were performed in the chick biventer cervicis preparations. Presynaptic nerve terminal waveform recordings were performed in mouse triangularis sterni preparations.

KEY FINDINGS

Amongst the suramin analogues in this study, only the NF449 and suramin were able to reverse the blockade effect produced by d-TC on nerve-stimulated muscle contractions. Each of these suramin analogues (NF007, NF023, NF279 and NF449) alone has no significant effect on the amplitude of nerve-stimulated muscle contractions. NF449 and suramin also showed the antagonising effects on the inhibition of end-plate potentials induced by d-TC. Furthermore, pre-treatment with NF449 can antagonise the inhibition of d-TC in ACh-induced contractions of chick biventer cervicis muscle. NF449 produced a greater rightward shift of the dose-response inhibition curve for d-TC than did suramin. Because other purinergic 2X (P2X) receptor antagonists, NF023 and NF279, do not have the reverse effects on the neuromuscular blockade of d-TC, the effect of NF449 seems irrelevant to inhibition of P2X receptors.

SIGNIFICANCE

These data suggest that NF449 was able to compete with the binding of d-TC on the nicotinic ACh receptors, and the effect of NF449 was more potent than suramin in reducing the inhibition of d-TC. The structure of NF449 may provide useful information for designing potent antidotes against neuromuscular toxins.

Bladder tissue pharmacokinetics of intravesical mitomycin C and suramin in dogs

Suramin, at non-cytotoxic doses, reverses chemoresistance and enhances the activity of mitomycin C (MMC) in mice bearing human bladder xenograft tumors. The present study evaluated the pharmacokinetics of the intravesical suramin and MMC, alone or in combination, in dogs. Animals received either high dose suramin (20 mg/ml), low dose suramin (6 mg/ml), MMC (2 mg/ml), or combination of low dose suramin and MMC, instilled for 2 h. The dosing volume was 20 ml. All groups showed dilution of drug levels over time due to continued urine production. For single agent suramin, the results showed (a) 5% to 10% penetration into bladder tissues, (b) minimal and clinically insignificant systemic absorption (i.e., undetectable at low dose or a peak concentration that was 6,000× lower than urine concentrations), and (c) disproportionally higher drug penetration and concentrations in bladder tissues at the higher dose. Results for single agent MMC are consistent with our earlier observations. The co-administration of MMC did not alter the plasma, urine, or tissue pharmacokinetics of suramin. Adding suramin did not alter plasma or tissue pharmacokinetics of MMC, but lowered the MMC concentrations in urine by about 20%. This may be in part due to accelerated MMC degradation by co-incubation of suramin or due to variations in urine production rate (because animals were allowed for water during treatment). Suramin readily penetrates the urothelium and into deeper bladder tissues, indicating its potential utility in intravesical therapy.

Emerging intravesical therapies for management of nonmuscle invasive bladder cancer

Transitional cell carcinoma (TCC) is the second most common urologic malignancy, and 70% of patients present with superficial or nonmuscle invasive bladder cancer (NMIBC). Intravesical bacillus Calmette-Guerin (BCG) is the most effective agent for preventing disease recurrence, and the only therapy able to inhibit disease progression. However, recurrence rates as high as 30% and significant local and systemic toxicity have led to increased interest in alternative intravesical therapies. In patients refractory or intolerant to BCG, BCG-interferon α2b, gemcitabine, and anthracyclines (doxorubicin, epirubicin, valrubicin) have demonstrated durable clinical responses. Phase I trials investigating alternative cytotoxic agents, such as apaziquone, taxanes (docetaxel, paclitaxel), and suramin are reporting promising data. Novel immunomodulating agents have demonstrated promise as efficacious alternatives in patients refractory to BCG. Optimization of existing chemotherapeutic regimens using hyperthermia, photodynamic therapy, magnetically-targeted carriers, and liposomes remains an area of active investigation. Despite enthusiasm for new intravesical agents, radical cystectomy remains the treatment of choice for patients with NMIBC who have failed intravesical therapy and selected patients with naïve T1 tumors and aggressive features. This report provides a comprehensive review of contemporary intravesical therapy for NMIBC and refractory NMIBC, with an emphasis on emerging agents and novel treatment modalities.

Investigational therapies for non-muscle invasive bladder cancer

IMPORTANCE OF THE FIELD

Bacillus Calmette-Guérin (BCG) is currently the most effective adjuvant intravesical agent at preventing disease recurrence and the only therapy shown to inhibit disease progression in non-muscle invasive bladder cancer (NMIBC). However, recurrence rates as high as 30% and significant local/systemic toxicity have resulted in an increased interest in the use of alternative intravesical agents.

AREAS COVERED IN THE REVIEW

Our aim is to discuss recent clinical trial evidence utilizing novel intravesical agents for treatment of NMIBC. A systematic literature review was performed via the National Center for Biotechnology Information databases to identify pertinent studies from 2000-2009.

WHAT THE READER WILL GAIN

A durable response has been demonstrated with alternative agents in patients refractory to or intolerant of BCG. This review compares the merits and shortcomings of these emerging agents, focusing on clinical trial safety and efficacy results.

TAKE HOME MESSAGE

Despite recent enthusiasm for novel agents, radical cystectomy remains the treatment of choice for patients with NMIBC who have failed intravesical therapy. However, evidence is accumulating that novel agents provide an efficacious alternative in patients refractory or intolerable to BCG or unfit for cystectomy. Further randomized prospective data are required to demonstrate a recurrence- and progression-free benefit compared with BCG.

The mechanisms of somatostatin induced enhanced chemosensitivity of gallbladder cancer cell line to doxorubicin: cell cycle modulation plus target enzyme up-regulation

BACKGROUND

Gallbladder carcinoma is known to be an aggressive malignancy and nonsensitive to routine chemotherapy. Its prognosis is quite poor. We have illustrated that somatostatin (SST) can enhance chemosensitivity of gallbladder cancer to Doxorubicin (DOX) in our precious studies. Here, we explored the possible mechanisms by which SST used to enhance the cytotoxicity of DOX on gallbladder carcinoma cell line.

METHODS

Human gallbladder cancer cells line (GBC-SD cell line) were divided into four groups: control group, SST group, DOX group, SST+DOX co-treated-group. Cell cycle was detected by flow cytometry (FCM). Cell apoptosis index was detected by using Annexin V/Propidium Iodide Binding on FCM. The expressions of certain key cell cycle-related factors, including retinoblastoma protein (Rb) and E2F-1 protein were investigated by western blotting. ICBP90 protein, which could be a new downstream effector of E2F-1, was also detected by western blotting. The expression of Topo IIα protein, target enzyme of DOX, was assessed in synchronized GBC-SD cells by western blotting.

RESULTS

After 24h treatment with SST alone, cell cycle was arrested at S phase in GBC-SD cells line, followed by indistinctive increment of apoptosis index. After 24h treatment with SST and DOX, apoptosis index significantly increased than that of DOX alone (P<0.05). Compared with control group, the expressions of Rb and E2F-1 protein were significantly up-regulated at 24h after treatment with SST. Similarly, the expressions of ICBP90 and Topo IIα protein were also enhanced at 24h after treatment with SST.

CONCLUSION

These results suggested that SST could induce cell cycle block in S phase in GBC-SD cells line, the most sensitive phase of the cell cycle for DOX, through up-regulating Rb, E2F-1 and ICBP90 protein expression. Furthermore, ICBP90 induced the enhanced expression of Topo IIα protein which is the target enzyme of DOX and enhanced its cytotoxic effect on GBC-SD cells. We concluded that the mechanisms of SST enhanced chemosensitivity of GBC-SD cell line to DOX might be cell cycle arrest plus up-regulated target enzyme.

New therapies for non-muscle-invasive bladder cancer

The treatment of non-muscle-invasive bladder cancer (NMIBC) remains a challenge owing to its increased tendency to recur and the possibility of progression to potentially dangerous muscle-invasive disease. Treatment outcomes by current therapeutic modalities are still not optimal. In recent years, there have been a number of substantive advances in the therapeutic options for the management of NMIBC. New chemotherapeutic drugs have been introduced, along with efforts made to improve the efficacy of existing agents and enhance delivery of agents to the bladder. There is also a growing trend toward combination of agents and multimodal therapy. Also of considerable interest are the investigation of newer approaches such as gene therapy, chemoenhancement and newer forms of immunotherapy. Here, we review the recent pre-clinical and clinical developments in the treatment of NMIBC, described in the broad categories of immunotherapy, chemotherapeutic agents, improved or device-assisted agent delivery and gene therapy.

Endocavitary Prophylaxis of Superficial Urothelial Bladder Tumours: New Compounds

Bladder urothelial carcinoma is the fourth most frequent cancer among European men, accounting for about 7% of the total cancers. Transurethral resection (TUR) is usually indicated as the standard treatment for non-muscle invasive bladder cancer (NMIBC). However, TUR is unable to guarantee a complete eradication of Ta, T1 tumors with a recurrence rate ranging from 50 to 70%, and a progression rate to muscle invasive disease ranging from 10 to 15%.

Methods

The European Association of Urology guidelines recommend adjuvant intravesical chemotherapy after definitive diagnosis of intermediate/high risk NMIBC to reduce both recurrence and progression of the disease. To provide a comprehensive review of intravesical treatment options for NMIBC, we performed a search of the PubMed database for articles between 1980 and 2009 that reported on intravesical agents for treating this disease.

Results

A critical analysis of the findings resulting from large multicenter trials, phase I, II, III studies for pertinent novel agents and from review articles was carried out. We focused on the following issues: 1) the role of the treatment with Bacillus Calmette-Guérin (BCG) and the need of maintaining the drug schedule (with or without interferon-alpha); 2) the correct timing of adjuvant immuno- and chemotherapy; 3) the use of the novel chemotherapeutic agents; 4) the use of the novel technique of chemotherapeutic agents administration, with a particular interest on electromotive administration of mitomycin.

Urothelial expression of neuropilins and VEGF receptors in control and interstitial cystitis patients

Interstitial cystitis (IC) is a chronic and painful bladder syndrome of unknown cause with no reliable biological marker or effective therapy. Vascular endothelial growth factor (VEGF), which plays a key role in bladder inflammation, is closely associated with the vascular alterations observed in patients with IC. However, our recent findings of VEGF receptors (VEGF-Rs) and VEGF coreceptors on nonendothelial cells in human and mouse urothelium suggest that additional VEGF targets and functions are possible in IC bladders. We report here that VEGF-Rs and coreceptors (neuropilins; NRP) are strongly expressed in both the human bladder urothelium and in the human bladder cancer cell line (J82) and that the expression of NRP2 and VEGF-R1 is significantly downregulated in IC compared with control subjects. In addition, treatment of J82 cells with bacillus Calmette-Guérin (BCG), a novel treatment strategy for IC, upregulates the messages for NRPs and VEGF-Rs. Furthermore, intravesical instillation of an internalizable VEGF fluorescent tracer (scVEGF/Cy5.5) into mouse urinary bladders results in a marked ligand accumulation in the urothelium and bladder parenchyma, indicating that urothelial VEGF-Rs are functionally active and capable of ligand interaction and internalization. Our results suggest that the VEGF pathway is altered in IC, that urinary VEGF may gain access to the bladder wall via these receptors, and that BCG treatment may replenish the missing VEGF-Rs/NRP receptors. Together, these results suggest that levels of NRPs, VEGF-Rs, and VEGF are new putative markers for the diagnosis of IC and that modulating these receptors can be exploited as therapeutic strategies.

Targeting vasculature in urologic tumors: mechanistic and therapeutic significance

Recent advances toward understanding the molecular mechanisms regulating cancer initiation and progression provide new insights into the therapeutic value of targeting tumor vascularity by interfering with angiogenic signaling pathways. The functional contribution of key angiogenic factors toward increased vascularity characterizing metastatic tumors and their therapeutic exploitation is considered in three major urologic malignancies, renal, bladder, and prostate cancer. With the realization that the success of the therapeutic efficacy of the various anti-angiogenic approaches for the treatment of urologic tumors has yet to be proven clinically, the challenge remains to select critical angiogenesis pathways that can be targeted for an individual tumor. Here we discuss the major mechanisms that support formation of vasculature in renal, bladder, and prostate tumors and the current results of targeting of specific molecules/regulators for therapeutic intervention against metastastic disease.

Intravesical treatments of bladder cancer: review

For bladder cancer, intravesical chemo/immunotherapy is widely used as adjuvant therapies after surgical transurethal resection, while systemic therapy is typically reserved for higher stage, muscle-invading, or metastatic diseases. The goal of intravesical therapy is to eradicate existing or residual tumors through direct cytoablation or immunostimulation. The unique properties of the urinary bladder render it a fertile ground for evaluating additional novel experimental approaches to regional therapy, including iontophoresis/electrophoresis, local hyperthermia, co-administration of permeation enhancers, bioadhesive carriers, magnetic-targeted particles and gene therapy. Furthermore, due to its unique anatomical properties, the drug concentration-time profiles in various layers of bladder tissues during and after intravesical therapy can be described by mathematical models comprised of drug disposition and transport kinetic parameters. The drug delivery data, in turn, can be combined with the effective drug exposure to infer treatment efficacy and thereby assists the selection of optimal regimens. To our knowledge, intravesical therapy of bladder cancer represents the first example where computational pharmacological approach was used to design, and successfully predicted the outcome of, a randomized phase III trial (using mitomycin C). This review summarizes the pharmacological principles and the current status of intravesical therapy, and the application of computation to optimize the drug delivery to target sites and the treatment efficacy.

Application of meso scale technology for the measurement of phosphoproteins in human tumor xenografts

In this age of molecularly targeted drug discovery, robust techniques are required to measure pharmacodynamic (PD) responses in tumors so that drug exposures can be associated with their effects on molecular biomarkers and efficacy. Our aim was to develop a rapid screen to monitor PD responses within xenografted human tumors as an important step towards a clinically applicable technology. Currently there are various methods available to measure PD end points, including immunohistochemistry, enzyme-linked immunosorbent assay (ELISA), reverse transcription-polymerase chain reaction, gene expression profiling, and western blotting. These may require relatively large samples of tumor, surrogate tissue, or peripheral blood lymphocytes with subsequent analyses taking several days. The phosphoinositide 3-kinase (PI3-kinase) pathway is frequently deregulated in cancer and is also important in diabetes and autoimmune conditions. In this paper, optimization of the Meso Scale Discovery (MSD) (Gaithersburg, MD) platform to quantify changes in phospho-AKT and phospho-glycogen synthase kinase-3beta in response to a PI3-kinase inhibitor, LY294002, is described, initially in vitro and then within xenografted solid tumors. This method is highly practical with high throughput since large number of samples can be run simultaneously in 96-well format. The assays are robust (coefficient of variation for phospho-AKT 13.4%) and offer significant advantages (in terms of speed and quantitation) over western blots. This optimized procedure can be used for both in vitro and in vivo analysis, unlike an established fixed-cell ELISA with a time-resolved fluorescent end point.

Microenvironmental transformations by VEGF- and EGF-receptor inhibition and potential implications for responsiveness to radiotherapy

The microregional distribution and dynamics of tumor cell hypoxia and proliferation are important determinants of tumor aggressiveness and resistance to treatment. Modulation of these elements by biological targeted drugs such as EGFR- and VEGFR-inhibitors may improve the effect of radiotherapy significantly. These combinations are being evaluated in clinical trials and evidence of their effectiveness is accumulating. However, the mechanistic basis of this cooperative effect and the role and behavior of the microregional tumor phenotype under EGF- and VEGF-blockage is poorly understood. Unfolding of these interactions and effects further downstream is necessary to exploit these biological modifiers most profitably to unravel questions such as: (1) can microregional phenotypes be modulated by EGFR- or VEGFR-blockage and how do downstream effects in the signaling pathways relate to these changes? (2) How do the microregional changes induced by EGFR- and VEGF-blockage affect the responsiveness of tumors to ionizing radiation? Answering these questions will improve our understanding of tumor growth related phenotypic transformations at the microregional level and how these can be influenced by modulation of the EGF- and VEGF-signaling pathways. This knowledge can be used to identify and improve therapeutic combinations with the novel biological modifiers and test a variety of biological-based treatment approaches.

Improving Efficacy of Intravesical Chemotherapy

OBJECTIVE

This paper reviews the most relevant findings published recently on intravesical chemotherapy for superficial bladder tumours and provides recommendations based on documented research.

METHODS

The evidence was categorised according to the North of England Evidence Based Guideline Development Project. Levels of evidence were based on the source of the information, meta-analyses, systematic reviews, well-designed randomised or nonrandomised controlled clinical trials, and uncontrolled studies or consensus. Three levels of recommendations were assigned to the evidence obtained.

RESULTS

Despite intravesical chemotherapy being used prophylactically after endoscopic resection of superficial bladder tumours, the recurrence rate is still 36-44%. Researchers have focused on improving the effectiveness of intravesical chemotherapy, each adopting a different strategy. Some have aimed to identify the optimum timing for instillations and others to improve the pharmacokinetics of agents by avoiding their dilution, increasing their stability, or improving the absorption of the drug by bladder mucosa. Some researchers are looking into new, single chemotherapeutic agents or combinations for intravesical use and others into avoiding chemoresistance with resistance-reverting agents (modulating agents) or by using in vitro chemosensitivity tests to identify the most sensitive drug.

CONCLUSION

Progress has been made in optimising intravesical chemotherapy for timing of instillations and pharmacokinetic interventions. Simple and inexpensive approaches may have a widespread, practical acceptance by urologists, but it is more difficult to extend new techniques requiring more complex and sometimes expensive instrumentation to the urologic community. Further research into finding more effective cytotoxic drugs, combinations, or modulating agents should be encouraged.

Current status and perspective of antiangiogenic therapy for cancer: urinary cancer

Angiogenesis is considered a prerequisite for solid tumor growth. Antiangiogenic therapy reduces tumor size and extends host survival in a number of preclinical animal models. However, in humans antiangiogenic therapy is a poor promoter of tumor regression and has shown minimal effect on patient survival. In urinary cancers, such as renal cell cancer, prostate cancer, and bladder cancer, advanced refractory disease is a good candidate for antiangiogenic therapy because of its resistance to ordinary chemotherapy, radiotherapy, and hormonal therapy. Unique characteristics of molecular mechanisms underlie the induction of angiogenesis in urinary cancers. In this review, we summarize these unique mechanisms and review the results of clinical trials of antiangiogenic therapy for these cancers, discussing prospects and problems relating to antiangiogenic therapy.

Identification of serum biomarkers in human cytomegalovirus infected hepatitis infants by SELDI-TOF-MS

AIM: To identify the serum protein biomarkers in infants with hepatitis syndrome resulted from congenital human cytomegalovirus (hCMV) infected using Surface enhanced laser desorption/ionization-time of flight mass spectrometry (SELDI-TOF-MS).

METHODS: Serum samples were collected from 20 hCMV infected hepatitis infants and 25 controls. Of the 25 infants, 5 were infected with hCMV but without hepatitis, 10 with hepatitis but no hCMV infection, and 10 were healthy infants. The proteomic expression in the serum was detected by WCX2 chips and SELDI-TOF-MS.

RESULTS: Fifteen protein peaks were distinctly di-fferent among the four groups in the mass range of Mr 2 000-20 000. Of the 15 peaks, four at Mr 4 349.8, Mr 5 808.7, Mr 7 935.6 and Mr 8 885.9 were significantly di-fferent between the congenital hCMV infected hepatitis infants and the controls. Five peaks were distinctly up-regulated in the infants with hCMV infection (Mr 3 266.8, Mr 5 638.5, Mr 5 909.1, Mr 7 771.4 and Mr 15 835.6) as compared with those in the infants without hCMV infec-tion. In comparison with other infants, two proteins at Mr 4 600.1 and Mr 5 704.3, respectively, were up-regulated in the infants with hMCV infection but no hepatitis. Four protein peaks were markedly different (Mr 7 567.0, Mr 13 744.8, Mr 15 100.7 and Mr 15 915.0) between the infants with hepatitis and other controls.

CONCLUSION: Some specific serum protein such as au-gmenter of liver regeneration, prealbu min, and hap-toglobin were closely related to liver function. Cytokines such as beta-defensin 31, 8, and macrophage-derived chemokine, and etc were involved in the hMCV infection and the pathogenesis hMCV-induced hepatitis in infants.