Porphyrin Based 2D-MOF Structures as Dual-Kinetic Sorafenib Nanocarriers for Hepatoma Treatment.

The existing clinical protocols of hepatoma treatment require improvement of drug efficacy that can be achieved by harnessing nanomedicine. Porphyrin-based, paddle-wheel framework (PPF) structures were obtained and tested as dual-kinetic Sorafenib (SOR) nanocarriers against hepatoma. We experimentally proved that sloughing of PPF structures combined with gradual dissolving are effective mechanisms for releasing the drug from the nanocarrier. By controlling the PPF degradation and size of adsorbed SOR deposits, we were able to augment SOR anticancer effects, both in vitro and in vivo, due to the dual kinetic behavior of SOR@PPF. Obtained drug delivery systems with slow and fast release of SOR influenced effectively, although in a different way, the cancer cells proliferation (reflected with EC50 and ERK 1/2 phosphorylation level). The in vivo studies proved that fast-released SOR@PPF reduces the tumor size considerably, while the slow-released SOR@PPF much better prevents from lymph nodes involvement and distant metastases.

Ciprofloxacin and Levofloxacin as Potential Drugs in Genitourinary Cancer Treatment-The Effect of Dose-Response on 2D and 3D Cell Cultures.

INTRODUCTION: Introducing new drugs for clinical application is a very difficult, long, drawn-out, and costly process, which is why drug repositioning is increasingly gaining in importance. The aim of this study was to analyze the cytotoxic properties of ciprofloxacin and levofloxacin on bladder and prostate cell lines in vitro. METHODS: Bladder and prostate cancer cell lines together with their non-malignant counterparts were used in this study. In order to evaluate the cytotoxic effect of both drugs on tested cell lines, MTT assay, real-time cell growth analysis, apoptosis detection, cell cycle changes, molecular analysis, and 3D cultures were examined. RESULTS: Both fluoroquinolones exhibited a toxic effect on all of the tested cell lines. In the case of non-malignant cell lines, the cytotoxic effect was weaker, which was especially pronounced in the bladder cell line. A comparison of both fluoroquinolones showed the advantage of ciprofloxacin (lower doses of drug caused a stronger cytotoxic effect). Both fluoroquinolones led to an increase in late apoptotic cells and an inhibition of cell cycle mainly in the S phase. Molecular analysis showed changes in BAX, BCL2, TP53, and CDKN1 expression in tested cell lines following incubation with ciprofloxacin and levofloxacin. The downregulation of topoisomerase II genes (TOP2A and TOP2B) was noticed. Three-dimensional (3D) cell culture analysis confirmed the higher cytotoxic effect of tested fluoroquinolone against cancer cell lines. CONCLUSIONS: Our results suggest that both ciprofloxacin and levofloxacin may have great potential, especially in the supportive therapy of bladder cancer treatment. Taking into account the low costs of such therapy, fluoroquinolones seem to be ideal candidates for repositioning into bladder cancer therapeutics.

Biostimulative effect of laser on growth of mesenchymal stem/stromal cells in vitro.

INTRODUCTION: Human adipose tissue-derived mesenchymal stem/stromal cells (hAT-MSCs) are multipotent stromal cells with a high potential application in tissue engineering and regenerative medicine. Laser irradiation of the place where the cells were implanted can stimulate their proliferation, increase the secretion of growth factors and thus increase the therapeutic effect. AIM: To evaluate the influence of two lasers: Er:YAG and diode on the growth of hAT-MSCs in vitro. MATERIAL AND METHODS: hAT-MSCs were isolated from human subcutaneous adipose tissue. Immunophenotype of hAT-MSCs was confirmed by flow cytometry. Multipotency of hAT-MSCs was confirmed by differentiation into adipogenic, osteogenic and chondrogenic lineages. hAT-MSCs were irradiated with Er:YAG laser (wavelength 2940 nm, frequency 5, 10 Hz, doses: 0.1-1.2 J/cm2) for 2 s and 4 s and diode laser (wavelength 635 nm and doses: 1-8 J/cm2) for 5, 10, 20, 30 and 40 s. Cell viability was analysed 24 h after the exposure using MTT assay. RESULTS: Growth stimulation of hAT-MSCs after 5 Hz Er:YAG laser exposure, 0.1 J/cm2 dose for 4 s and 0.3 J/cm2 dose for 4 s was shown in comparison with the control group. Significant growth stimulation of hAT-MSCs after diode laser irradiation in doses of 1-4 J/cm2 was demonstrated compared to the control group. CONCLUSIONS: The presented results indicate that both lasers, Er:YAG and diode can be used to stimulate stem/stromal cell growth in vitro. The biostimulative effect of laser therapy on stromal cells may be used in the future in aesthetic dermatology in combined laser and cell therapy.

The different expression of key markers on urothelial holoclonal, meroclonal, and paraclonal cells in in vitro culture.

Urothelial cell populations which differ in morphology and proliferation capacities can be isolated from the urinary bladder. The goal of this study was to analyze a clonal, proliferative, and self-renewing potential of porcine urothelial cells and to compare expression of selected adhesion and tight junction molecules, urothelial and stem cell markers for the urothelial clone types. Urothelial cells were isolated from 10 porcine urinary bladders. Three different clone types: holoclone-, meroclone-and paraclone-like colonies were identified based on their morphology. To characterize and compare the urothelial clones the immunofluorescent stains were performed. Expression of pancytokeratin (PanCK), Ki-67 and p63 was higher for holoclone- like cells compared to meroclone-and paraclone-like cells (P < 0.05). Meroclone-like cells expressed higher levels of p63 compared to paraclone- like cells (P < 0.05). The level of Ki-67 and PanCK for meroclone- and paraclone- like cells was comparable (P > 0.05). ß1 and ß4 integrins were not expressed. Expression of zonula occludens-1 (ZO-1) in cell-cell junctions for paraclone-, meroclone-and holoclone-like cells was 17.6 ± 0.6, 14.7 ± 0.5, and 16.1 ± 0.4, respectively. The results of actin filaments (F-actin) expression were 253,634 ± 6,920 for meroclone-like cells, 198,512 ± 7,977 for paraclone-like cells and 133,544 ± 3,169 for holoclone-like cells. Three urothelial cell types with differing features can be isolated from the bladder. Holoclone-like cells are the richest in stem cells and should be used in further studies for construction of neo-bladder or neo-conduit using tissue engineering methods.

Stem cells and differentiated cells differ in their sensitivity to urine in vitro.

Urinary tract regeneration using tissue engineering is one of the most challenging issues in the field of reconstructive urology. Cells seeded on scaffold are exposed to urine immediately after the implantation. The outcome of urinary bladder regeneration is depended on the ability of these cells to survive, proliferate, and regenerate. The aim of this study was to compare a sensitivity of three different cell lines to urine in vitro. Three different cell lines were isolated from porcine bladder (urothelial cells, UCs and smooth muscle cells, SMCs) and adipose tissue (adipose-derived stem cells, ADSCs). Cell viability (MTT assay), proliferation (real-time cell analysis using xCELLigence system) and apoptosis/necrosis (flow cytometry) were analyzed after exposition to urine. ADSCs were the most sensitive to urine compared to two other tested cell lines. Among the bladder cell lines the UCs were more resistant to urine than SMCs. Twenty four hour incubation of UCs, SMCs, and ADSCs with urine lead to ∼40%, ∼70%, and ∼90% reduction of their viability, respectively. The mechanism of urine mediated cytotoxicity differed depending on the tested cell type. Urothelial and SMCs seems to be more suitable for urinary bladder regeneration compared to mesenchymal stem cells, however, these cells have limited application especially in the case of urinary bladder cancer.

Influence of Mesenchymal Stem Cells Conditioned Media on Proliferation of Urinary Tract Cancer Cell Lines and Their Sensitivity to Ciprofloxacin.

Mesenchymal stem cells (MSCs) are known to interact with cancer cells through direct cell-to-cell contact and secretion of paracrine factors, although their exact influence on tumor progression in vivo remains unclear. To better understand how fetal and adult stem cells affect tumors, we analyzed viability of human renal (786-0) and bladder (T24) carcinoma cell lines cultured in conditioned media harvested from amniotic fluid-derived stem cells (AFSCs) and adipose-derived stem cells (ASCs). Both media reduced metabolic activity of 786-0 cells, however, decreased viability of T24 cells was noted only after incubation with conditioned medium from ASCs. To test the hypothesis that MSCs-secreted factors might be involved in chemoresistance acquisition, we further analyzed influence of mesenchymal stem cell conditioned media (MSC-CM) on cancer cells sensitivity to ciprofloxacin, that is considered as potential candidate agent for urinary tract cancers treatment. Significantly increased resistance to tested drug indicates that MSCs may protect cancer cells from chemotherapy. J. Cell. Biochem. 118: 1361-1368, 2017. © 2016 Wiley Periodicals, Inc.

Vascularization Potential of Electrospun Poly(L-Lactide-co-Caprolactone) Scaffold: The Impact for Tissue Engineering.

BACKGROUND Electrospun nanofibers have widespread putative applications in the field of regenerative medicine and tissue engineering. When compared to naturally occurring collagen matrices, electrospun nanofiber scaffolds have two distinct advantages: they do not induce a foreign body reaction and they are not at risk for biological contamination. However, the exact substrate, structure, and production methods have yet to be defined. MATERIAL AND METHODS In the current study, tubular-shaped poly(L-lactide-co-caprolactone) (PLCL) constructs produced using electrospinning technology were evaluated for their potential application in the field of tissue regeneration in two separate anatomic locations: the skin and the abdomen. The constructs were designed to have an internal diameter of 3 mm and thickness of 200 µm. Using a rodent model, 20 PLCL tubular constructs were surgically implanted in the abdominal cavity and subcutaneously. The constructs were then evaluated histologically using electron microscopy at 6 weeks post-implantation. RESULTS Histological evaluation and analysis using scanning electron microscopy showed that pure scaffolds by themselves were able to induce angiogenesis after implantation in the rat model. Vascularization was observed in both tested groups; however, better results were obtained after intraperitoneal implantation. Formation of more and larger vessels that migrated inside the scaffold was observed after implantation into the peritoneum. In this group no evidence of inflammation and better integration of scaffold with host tissue were noticed. Subcutaneous implantation resulted in more fibrotic reaction, and differences in cell morphology were also observed between the two tested groups. CONCLUSIONS This study provides a standardized evaluation of a PLCL conduit structure in two different anatomic locations, demonstrating the excellent ability of the structure to achieve vascularization. Functional, histological, and mechanical data clearly indicate prospective clinical utilization of PLCL in critical size defect regeneration.

The use of stem cells in aesthetic dermatology and plastic surgery procedures. A compact review of experimental and clinical applications.

The aim of this paper was to collect currently available data related to the use of stem cells in aesthetic dermatology and plastic surgery based on a systemic review of experimental and clinical applications. We found that the use of stem cells is very promising but the current state of art is still not effective. This situation is connected with not fully known mechanisms of cell interactions, possible risks and side effects. We think that there is a big need to create and conduct different studies which could resolve problems of stem cells use for implementation into aesthetic dermatology and plastic surgery.

Isolation, expansion and characterization of porcine urinary bladder smooth muscle cells for tissue engineering.

BACKGROUND: A key requirements for therapy utilizing the tissue engineering methodologies is use of techniques which have the capability to yield a high number of cells, from small tissue biopsy in a relatively short time. Up to date there was no optimal methods of isolation and expansion of urinary bladder smooth muscle cells (UB-SMCs). The aim of this study was to compare isolation and expansion techniques of UB-SMCs to select the most repeatable and efficient one. METHOD: Five protocols of porcine UB- SMCs isolation including enzymatic and explant techniques and three expansion techniques were compared. Isolation effectiveness was evaluated using trypan blue assay. Cell phenotype was confirmed by immunofluorescence staining. Proliferation rate was analyzed using MTT and X- Celligence system. Cellular senescence was assessed measuring ß-galactosidase activity. RESULTS: Enzymatic methods using collagenase with dispase (method I) or collagenase only (method III) allowed to isolate much larger number of cells than the methods using trypsin with collagenase (method II) and collagenase after digestion with trypsin (method IV). The success rate of establishment of primary culture was the highest when the isolated cells were cultured in the Smooth muscle Growth Medium-2 (SmGM-2). Expression of the smooth muscle markers- alpha smooth muscle actin and smoothelin was the highest for cells isolated by enzymatic method I and cultured in SmGM-2. There was no significant signs of cell senescence until the 8th passage. CONCLUSION: The most efficient method of establishment of porcine UB-SMCs culture is enzymatic digestion of urinary bladder tissue with collagenase and dispase and culture of isolated cells in SmGM-2. This method was up to 10 times more efficient than other methods used for isolation and culture of UB-SMCs. This is an easy and consistent method for obtaining high numbers of urinary bladder smooth muscle cells.

Optimization of porcine urothelial cell cultures: Best practices, recommendations, and threats.

Many experimental approaches have been conducted in order to isolate urothelial cells from bladder tissue biopsies, but each method described has utilized different protocols and sources of bladder tissue. In this study, we compared the different methods of urothelial cell isolation available in literature together with standardized methods in order to obtain more unified results. Five methods for primary porcine urothelial culture establishment were compared: tissue explants and four enzymatic methods utilizing collagenase II, dispase II, combination of dispase II and trypsin, and trypsin alone. The average number of isolated cells, cell morphology, success of established culture, average number of cells from the first passage, expression of p63 and pancytokeratin and the characterization of urothelial cell growth, and aging were analyzed during the in vitro culture. The method utilizing dispase II was the most efficient and reproducible method for the isolation and culture of porcine urothelial cells when compared to the other tested methods. Urothelial cells obtained by this method grew considerably well and the cultures were established with high efficiency, which enabled us in obtaining a large quantity of cells with normal morphology. Contamination with fibroblasts in this method was the lowest. The utilization of a proper method for urothelial cell isolation is a critical step in the urinary tract regeneration when using tissue engineering techniques. In summary, this study demonstrated that by utilizing the described method with dispase II, a suitable number of cells was achieved, proving the method useful for tissue regeneration.

Cell therapy in Duchenne muscular dystrophy treatment: clinical trials overview.

Duchenne muscular dystrophy (DMD), the most common and most severe form of all muscular dystrophies, leads to progressive muscle fiber necrosis, fibroblast proliferation, and growth of fibrous tissue and fat. The most common cause of death in DMD patients is cardiac and respiratory failure. Current pharmacological and other treatment methods do not lead to full recovery. For this reason, new alternatives for skeletal muscle regeneration are being investigated. Transplantation of myoblasts from healthy donors is one studied approach to muscle treatment in DMD patients. However, the results of intramuscular injection of in vitro cultured myoblasts are still not satisfactory. The use of autologous stem cells is also proposed. Despite many ongoing studies, this therapy is still in preliminary testing and requires more experiments.

Is regenerative medicine a new hope for kidney replacement?

The availability of kidney and other organs from matching donors is not enough for many patients on demand for organ transplant. Unfortunately, this situation is not better despite the many of new interesting projects of promoting family, cross or domino transplants. These inexorable global statistics forced medical researchers to find a new potential therapeutic option that would guarantee safety and efficacy for the treatment of ESRD comparable to kidney transplantation. The aim of our review is to summarize the scientific literature that relating to the modern as well as innovative experimental methods and possibilities of kidney regeneration and, in addition, to find whether the regenerative medicine field will be a new hope for curing the patient with renal disease complications. The most important achievements in the field of regenerative medicine of kidney, which were mentioned and described here, are currently cumulated in 4 areas of interest: stem cell-based therapies, neo-kidneys with specially designed scaffolds or cell-seeded matrices, bioartificial kidneys and innovative nanotechnologically bioengineered solutions. Nowadays, we can add some remarks that the regenerative medicine is still insufficient to completely replace current therapy methods used in patients with chronic kidney disease especially with the end-stage renal disease where in many cases kidney transplantation is the only one chance. But we think that development of regenerative medicine especially in the last 20 years brings us more and more closer to solve many of today's problems at the frontier of nephrology and transplantology.

Filling effects, persistence, and safety of dermal fillers formulated with stem cells in an animal model.

BACKGROUND: Research is scarce regarding the effectiveness of dermal fillers containing autologous stem cells. OBJECTIVES: The authors sought to determine the local and systemic effects of adipose-derived stem cells (ADSCs) as a component of dermal fillers in an animal model. METHODS: Wistar rats were injected with 1 of the following dermal fillers: ADSCs combined with hyaluronic acid (ADSC-HA), ADSCs combined with fish collagen (ADSC-COL), HA alone (CONTROL-HA), or COL alone (CONTROL-COL). Fillers were injected into the glabella, dorsum, and chest of each animal. The ADSCs were labeled with PKH26 to assess cell migration. Filling effects (FEs) were measured immediately after injection and at 1.5 months and 3 months after injection. Skin specimens were stained with hematoxylin and eosin to assess localization and persistence of ADSCs. RESULTS: Mean FEs in animals implanted with ADSCs were greater and persisted longer than those of controls. No inflammatory responses were observed in any group. Three months after injection, PKH26-positive cells comprised nearly 70% of cells at the injection site in animals treated with ADSC-HA. PKH26 fluorescence also was detected in the spleen but not in the brain, kidney, or lung. CONCLUSIONS: Stem cells have the potential to improve the aesthetic effects and longevity of dermal fillers.

Carboplatin and sodium butyrate, separate--yes, but combined--never.

With the object of improving the effectiveness of a malignant melanoma's treatment and a patients' quality of life, there is a serious need to identify new anticancer compounds, for example, among naturally derived compounds such as sodium butyrate. The aim of this study was to assess the combined impact of carboplatin (C) and sodium butyrate on the B16 melanoma viability by in vitro. B16 cell line was exposed to various concentrations of carboplatin (0.001-10 micromol/L) and sodium butyrate (1 to 100 mmol/L) for 24 h. LC10, LC50 and LC90 values were calculated. The influence of carboplatin and sodium butyrate on the cell cycle and apoptosis was assessed. Additionally, magnetic stem cell sorting was performed, positive melanoma CD133 cells were isolated and the effects of carboplatin and sodium butyrate on cell viability with heterogeneous population of melanoma cells (CD133+/CD133-) was compared. For carboplatin LC50 and LC90 were 1.2 micromol/L and 4.58 pmol/L, respectively. For sodium butyrate LC50 and LC90 were 65.73 mmol/L and 275.06 mmol/L. The value for LC10 could not be determined. Sodium butyrate at the highest concentration (100.0 mmol/L) resulted in only 57.36% mortality of cells. A synergistic effect of both compounds was observed in low concentrations of sodium butyrate and carboplatin. That synergism disappeared at concentrations corresponding to LC50. At the concentration corresponding to LC50 C and high concentration of sodium butyrate, a decrease of cell numbers in phase G2/M was observed (r = -0.97). Cells were arrested in phase G1/G0 and S. The presented results exclude the possibility of the combined application of sodium butyrate and carboplatin in cancer therapy.

Effect of four fluoroquinolones on the viability of bladder cancer cells in 2D and 3D cultures.

Introduction: The anticancer properties of fluoroquinolones and the high concentrations they achieve in urine may help in bladder cancer therapy. This study aimed to analyze the properties of 4 fluoroquinolones as potential candidates for supportive treatment of bladder cancer. Methods: Comparative analyses were performed on the cytotoxic effects of norfloxacin, enrofloxacin, moxifloxacin, and ofloxacin on normal and cancer urothelial cell lines. In 2D culture, the cytotoxic properties of fluoroquinolones were evaluated using MTT assay, real-time cell growth analysis, fluorescence and light microscopy, flow cytometry, and molecular analysis. In 3D culture, the properties of fluoroquinolones were tested using luminescence assays and confocal microscopy. Results and Discussion: All tested fluoroquinolones in 2D culture decreased the viability of both tested cell lines in a dose- and timedependent manner. Lower concentrations did not influence cell morphology and cytoskeletal organization. In higher concentrations, destruction of the actin cytoskeleton and shrinkage of the nucleus was visible. Flow cytometry analysis showed cell cycle inhibition of bladder cancer cell lines in the G2/M phase. This influence was minimal in the case of normal urothelium cells. In both tested cell lines, increases in the number of late apoptotic cells were observed. Molecular analysis showed variable expression of studied genes depending on the drug and concentration. In 3D culture, tested drugs were effective only in the highest tested concentrations which was accompanied by caspase 3/7 activation and cytoskeleton degradation. This effect was hardly visible in non-cancer cell lines. According to the data, norfloxacin and enrofloxacin had the most promising properties. These two fluoroquinolones exhibited the highest cytotoxic properties against both tested cell lines. In the case of norfloxacin, almost all calculated LC values for bladder cancer cell lines were achievable in the urine. Enrofloxacin and norfloxacin can be used to support chemotherapy in bladder cancer patients.

Does aging of mesenchymal stem cells limit their potential application in clinical practice?

Mesenchymal stem cells (MSCs) are in the center of attention of many investigators due to easy isolation from many tissues. MSC capability to differentiate into many cell types makes them a starting point of many new therapies, especially in tissue engineering. However, understanding the process of MSC aging is crucial for selecting donors for cellular therapies, which is necessary for successful treatment. Cell changes can be divided into three major groups. Changes which affect their proliferate rate, differentiation capability and genome stability lead to decrease of their usefulness in new therapies. There are many tools that can be used to describe and measure some features of aging in MSCs but the essence of this process is still unclear. The aim of this review is to take a deep look into the influence of donor age and in vitro aging on MSC properties.

[Modern biomaterials as hemostatic dressings in kidney nephron sparing surgery (NSS)--murine model. A preliminary report]. / Nowoczesne biomaterialy jako opatrunki hemostatyczne w chirurgii oszczedzajacej miazsz nerki--model zwierzecy. Doniesienie wstepne.

INTRODUCTION: Kidney cancer is now days, one of the main problems in oncological urology. More frequent cases detection of this type of cancer and the implementation of modern methods of treatment, involves the public and good diagnostic radiological imaging methods. Approximately 40% of renal tumors are detected clinically as a changes in T1N0M0 stage. This means that in these patients, surgery can be performed using the method of nephron sparing surgery (NSS), far from consisting the implementation of radical nephrectomy. Unfortunately, despite the saving nature of this type of treatment, NSS methods are associated with local recurrence of tumor formation. Another problem is intra operative bleeding, that's why in order to stop this negative process surgeons currently use hemostatic dressings. Potentially and clinically significant solution could be a combination of this two main problematics points of concern, through the use of modern biomaterials coated on oncostatic substances as a haemostatic dressings, to the prevention of tumor recurrence. AIM OF THE WORK: The aim of this work, was to present preliminary report of the use of advanced biomaterials, as haemostatic dressings in an experimental technique of nephron sparing surgery on an murine model. MATERIAL AND METHODS: In the experiment we use two types of biomaterials and the standard haemostatic dressing used in the nephron sparing surgery (NSS) as a control. We use a polycaprolactone biomaterial obtained by electrospinning. As a second type of biomaterial, we use a homogeneous material with a structure similar to wool, also obtained from medical polycaprolactone by electrospinning. As an murine (in vivo) model in the study, we use 10 C57BL/J mice (with the local ethical committee permission). 8 mice were used in the present study, 2 mice were constituted as a separate control for obtaining the bleeding data. Kidney melanoma cells were implanted under the C57B1/J B16 mouse kidney fibrous capsule, one week before NSS. After 3 weeks the animals were sacrificed for comparison of hemostatic dressings function. RESULTS: Used biomaterials fulfilled their role as a hameostatic dresings. The material (Type I) was convenient and good for suturing. Haemostatic action times were as follows: (Type I) - 30 seconds. (Type III) - 50 seconds. In the control group were also observed, a proper hemostatic function after 30 seconds. In sectional observation was also found in 3 kidneys section preparation samples, a local tumor recurrence and metastasis to the other tissues of the abdomen. CONCLUSION: The tested biomaterials fulfill their hemostatic effect on kidney after NSS, without any significant difference acording to a standard hemostatic dressing used clinically. This data may be a potential factor for use in further studies to determine their continued relevance in the prevention of local tumor recurrence after nephron sparing surgery.

Quinolones as a Potential Drug in Genitourinary Cancer Treatment-A Literature Review.

Quinolones, broad-spectrum antibiotics, are frequently prescribed by urologists for many urological disorders. The mechanism of their bactericidal activity is based on the inhibition of topoisomerase II or IV complex with DNA, which consequently leads to cell death. It has been observed that these antibiotics also act against the analogous enzymes present in eukaryotic cells. Due to their higher accumulation in urine and prostate tissue than in serum, these drugs seem to be ideal candidates for application in genitourinary cancer treatment. In this study, an extensive literature review has been performed to collect information about concentrations achievable in urine and prostate tissue together with information about anticancer properties of 15 quinolones. Special attention was paid to the application of cytotoxic properties of quinolones for bladder and prostate cancer cell lines. Data available in the literature showed promising properties of quinolones, especially in the case of urinary bladder cancer treatment. In the case of prostate cancer, due to low concentrations of quinolones achievable in prostate tissue, combination therapy with other chemotherapeutics or another method of drug administration is necessary.

Urinary bladder augmentation with acellular biologic scaffold-A preclinical study in a large animal model.

Current strategies in urinary bladder augmentation include use of gastrointestinal segments, however, the technique is associated with inevitable complications. An acellular biologic scaffold seems to be a promising option for urinary bladder augmentation. The aim of this study was to evaluate the utility of bladder acellular matrix (BAM) for reconstruction of clinically significant large urinary bladder wall defects in a long-term porcine model. Urinary bladders were harvested from 10 pig donors. Biological scaffolds were prepared by chemically removing all cellular components from urinary bladder tissue. A total of 10 female pigs underwent hemicystectomy and subsequent bladder reconstruction with BAM. The follow-up study was 6 months. Reconstructed bladders were subjected to radiological, macroscopic, histological, immunohistochemical, and molecular evaluations. Six out of ten animals survived the 6-month follow-up period. Four pigs died during observation due to mechanical failure of the scaffold, anastomotic dehiscence between the scaffold and native bladder tissue, or occluded catheter. Tissue engineered bladder function was normal without any signs of postvoid residual urine in the bladder or upper urinary tracts. Macroscopically, graft shrinkage was observed. Urothelium completely covered the luminal surface of the graft. Smooth muscle regeneration was observed mainly in the peripheral graft region and gradually decreased toward the center of the graft. Expression of urothelial, smooth muscle, blood vessel, and nerve markers were lower in the reconstructed bladder wall compared to the native bladder. BAM seems to be a promising biomaterial for reconstruction of large urinary bladder wall defects. Further research on cell-seeded BAM to enhance urinary bladder regeneration is required.

The influence of ciprofloxacin on viability of A549, HepG2, A375.S2, B16 and C6 cell lines in vitro.

Ciprofloxacin is a chemotherapeutic agent mainly used in the treatment of the pulmonary and urinary tract infections but is also known for its anticancer properties. The aim of these study was to check the anticancer effect of ciprofloxacin on selected five cell lines. Human non-small cell lung cancer line A549, human hepatocellular carcinoma line HepG2, human and mouse melanoma lines (A375.S2 and B16) and rat glioblastoma line C6 were used for evaluation of cytotoxic properties of ciprofloxacin (in concentration range: 10-1000 microg/mL). Viability was established using trypan blue assay and MTT. Ciprofloxacin induced morphological changes and decreased viability of A549 cells in a concentration and time dependent manner. In case of A375.S2 and B16 cell lines, cytotoxicyty of ciprofloxacin was observed but we were not able to eradicate all cells from A375.S2 and B16 cultures. HepG2 line was sensitive to ciprofloxacin, but this effect was independent from concentration and incubation time. The C6 cells were insensitive to ciprofloxacin. Our results showed that ciprofloxacin can be potentially used for the experimental adjunctive therapy of lung cancer.