[Laparoscopic partial nephrectomy for renal leiomyoma: a case report].

A 60-year-old man visited our hospital with a complaint of right renal incidentaloma which was pointed out on abdominal ultrasonography for a medical check-up. Abdominal computed tomography showed a renal tumor in the right kidney, which was a slightly high-dense relative to the renal parenchyma and was enhanced in the arterial phase. The tumor had grown gradually from 1.4 to 1.7 cm in diameter. After the observation for 4 years, he underwent pure laparoscopic non-ischemic partial nephrectomy using a microwave tissue coagulator. Histological examination of the specimen revealed a leiomyoma of the kidney. This is the 5th case of successful laparoscopic partial nephrectomy for renal leiomyoma in Japan within the retrieved references.

Targeting granzyme B to tumor cells using a yoked human chorionic gonadotropin.

PURPOSE: Luteinizing hormone receptor (LHR) is found in abundance on human ovarian, breast, endometrial and prostate carcinomas but at only low levels on non-gonadal tissues. To selectively kill LHR-expressing tumors, granzyme B (GrB) was linked to a protein in which both chains of human chorionic gonadotropin were yoked together (YCG). METHODS: GrB-YCG was expressed and secreted from insect Sf9 cells. Its GrB enzymatic activity and binding affinity for hLHR were then characterized. The differential cytotoxicity of GrB-YCG versus GrB alone was tested in a panel of LHR-expressing tumor cells by SRB assay, and the mechanisms involved in the cell death were investigated by confocal fluorescence microscopy, flow cytometry, and western blot analysis. RESULTS: GrB-YCG was successfully expressed and secreted from Sf9 insect cells and purified from cell culture supernatants. The serine protease activity of GrB-YCG was equivalent to that of human recombinant GrB. An in vitro hormone binding assay revealed that the GrB-YCG molecule also retained the ability to bind to the LHR receptor with an affinity similar to that of native hCG. Upon cell binding, GrB-YCG was rapidly internalized into LHR-expressing human ovarian cancer cells and produced selective and potent tumor cell killing by inducing apoptosis through activation of caspase-3. CONCLUSIONS: These results validate LHR as a therapeutic target and indicate that delivery of the human pro-apoptotic enzyme GrB to tumor cells by yoked hCG has substantial selectivity and therapeutic potential for human tumors that express high levels of LHR such as ovarian carcinomas.

[A case of small cell carcinoma of the renal pelvis].

A 77-year-old man visited our hospital with a chief complaint of asymptomatic gross hematuria. He was diagnosed with right renal pelvic tumor (7 cm) involving right renal hilar and inter-aortocaval lymph node metastases by radiological evaluation, and cytologic examination of urine indicated small cell carcinoma. After neoadjuvant chemotherapy with gemcitabine and cisplatin, right nephroureterctomy with bladder cuff, and right renal hilar and inter-aortocaval lymph node dissection was performed. Histological examination of the specimen revealed a small cell carcinoma of the renal pelvis (ypT3N2). After the operation, adjuvant chemotherapy with etopside and carboplatin was administered in combination with radiation therapy. At 5 months after the operation, there has been no evidence of recurrence. To our knowledge, this is the 38th report of a small cell carcinoma originating from the kidney in the literature.

Recombinant CPE fused to tumor necrosis factor targets human ovarian cancer cells expressing the claudin-3 and claudin-4 receptors.

Using gene expression profiling, others and we have recently found that claudin-3 (CLDN3) and claudin-4 (CLDN4) are two of the most highly and consistently up-regulated genes in ovarian carcinomas. Because these tight junction proteins are the naturally occurring receptors for Clostridium perfringens enterotoxin (CPE), in this study, we used the COOH-terminal 30 amino acids of the CPE (CPE(290-319)), a fragment that is known to retain full binding affinity but have no cytolytic effect, to target tumor necrosis factor (TNF) to ovarian cancers. We constructed a pET32-based vector that expressed the fusion protein, designated here as CPE(290-319)-TNF, in which CPE(290-319) was fused to TNF at its NH(2)-terminal end. Western blotting confirmed presence of both CPE(290-319) and TNF in the fusion protein. The TNF component in CPE(290-319)-TNF was 5-fold less potent than free TNF as determined by a standard L-929 TNF bioassay. However, the CPE(290-319)-TNF was >6.7-fold more cytotoxic than free TNF to 2008 human ovarian cancer cells, which express both CLDN3 and CLDN4 receptors. shRNAi-mediated knockdown of either CLDN3 or CLDN4 expression in 2008 markedly attenuated the cytotoxic effects of CPE(290-319)-TNF. The fusion construct was efficiently delivered into target cells and located in both cytosol and vesicular compartments as assessed by immunofluorescent staining. We conclude that CPE(290-319) effectively targeted TNF to ovarian cancer cells and is an attractive targeting moiety for development of CPE-based toxins for therapy of ovarian carcinomas that overexpress CLDN3 and CLDN4.

Basic fibroblast growth factor causes urinary bladder overactivity through gap junction generation in the smooth muscle.

Overactive bladder is a highly prevalent clinical condition that is often caused by bladder outlet obstruction (BOO). Increased coupling of bladder smooth muscle cells (BSMC) via gap junctions has been hypothesized as a mechanism for myogenic bladder overactivity in BOO, although little is known about the regulatory system underlying such changes. Here, we report the involvement of basic fibroblast growth factor (bFGF) and connexin 43, a bladder gap junction protein, in bladder overactivity. BOO created by urethral constriction in rats resulted in elevated bFGF and connexin 43 levels in the bladder urothelium and muscle layer, respectively, and muscle strips from these bladders were more sensitive than those from sham-operated controls to a cholinergic agonist. In vitro bFGF treatment increased connexin 43 expression in cultured rat BSMC via the ERK 1/2 pathway. This finding was supported by another in vivo model, where bFGF released from gelatin hydrogels fixed on rat bladder walls caused connexin 43 upregulation and gap junction formation in the muscle layer. Bladder muscle strips in this model showed increased sensitivity to a cholinergic agonist that was blocked by inhibition of gap junction function with alpha-glycyrrhetinic acid. Cystometric analyses of this model showed typical features of detrusor overactivity such as significantly increased micturition frequency and decreased bladder capacity. These findings suggest that bFGF from the urothelium could induce bladder hypersensitivity to acetylcholine via gap junction generation in the smooth muscle, thereby contributing to the myogenic overactivity of obstructed bladders.

Fabrication of an optimal urethral graft using collagen-sponge tubes reinforced with Copoly(L-lactide/epsilon-caprolactone) fabric.

An ideal biomaterial for urethral reconstruction has not been developed. To create a urethral graft biomaterial with optimal biodegradability and biocompatibility, a copoly(L-lactide/epsilon-caprolactone) [P(LA/CL)] fabric tube was combined with a type I collagen sponge. The P(LA/CL) fibers were knitted into a vascular stent style (Type 1) or weaved into a mesh style (Type 2) to prepare P(LA/CL) tubes. The tubes were dipped in aqueous collagen solution and lyophilyzed to prepare the P(LA/CL)-collagen sponge graft. The grafts were applied to a 1.5-cm rabbit urethral defect (n = 14 for each condition), and tissue repair was evaluated using urethrographical, urethroscopical, and histological examination 1, 3, and 6 months after surgery. Although epithelialization was observed after 1 month in all Type 1 grafts, stenoses, fistulae, or stone formation was seen in 7 of the rabbits. In some cases, P(LA/CL) fibers prolapsed into the urethral lumen, causing stone formation. Only 3 rabbits survived for 6 months, and 2 of these had stenoses. For the Type 2 graft, all urethras were patent, without fistulae or stenoses, over the entire observation period. Histologically, urethral structure was disorganized for the Type 1 graft, whereas the urethral tissue on the Type 2 graft was slightly fibrotic but completely epithelialized and supported by a regenerated smooth muscle layer at 6 months. These findings suggest that creation of a scaffold suitable for urethral tissue regeneration will depend not only on the biomaterial composition, but also on the fabrication technique.

Basic fibroblast growth factor modulates proliferation and collagen expression in urinary bladder smooth muscle cells.

Bladder hypertrophy is a general consequence of bladder outlet obstruction (BOO) and a typical phenomenon observed in clinical urologic diseases such as benign prostatic hyperplasia and neurogenic bladder. It is characterized by smooth muscle hyperplasia, altered extracellular matrix composition, and increased contractile function. Various growth factors are likely involved in hypertrophic pathophysiology, but their functions remain unknown. In this report, the role of basic fibroblast growth factor (bFGF) was investigated using a rat bladder smooth muscle cell (BSMC) culture system and an original animal model, in which bFGF was released from a gelatin hydrogel directly onto rat bladders. bFGF treatment promoted BSMC proliferation both in vitro and in vivo. In vitro, bFGF downregulated the expression of type I collagen, but upregulated type III collagen. ERK1/2, but not p38MAPK, was activated by bFGF, whereas inhibition of ERK1/2 by PD98059 reversed bFGF-induced BSMC proliferation, type I collagen downregulation, and type III collagen upregulation. In the in vivo release model, bFGF upregulated type III collagen and increased the contractile force of treated bladders. In parallel with these findings, hypertrophied rat bladders created by urethral constriction showed increased urothelial bFGF expression, BSMC proliferation, and increased type III collagen expression compared with sham-operated rats. These data suggest that bFGF from the urothelium could act as a paracrine signal that stimulates the proliferation and matrix production of BSMC, thereby contributing to the hypertrophic remodeling of the smooth muscle layer.

Efficient gene transfer by pullulan-spermine occurs through both clathrin- and raft/caveolae-dependent mechanisms.

The feasibility and mechanism of gene delivery by pullulan-spermine, a recently developed cationic polysaccharide, were investigated. Pullulan-spermine-mediated transfection of plasmid DNA resulted in greatly reduced cytotoxicity and a 10-fold increase in the level of gene expression when compared to Lipofectamine 2000, a commercially available cationic lipid. Additionally, after transfection of p53-expressing plasmid DNA by pullulan-spermine but not Lipofectamine 2000, the in vitro proliferation of T24 cells was significantly reduced. Pullulan-spermine-mediated gene expression was inhibited by both chlorpromazine of clathrin-mediated endocytosis inhibitor and methyl-beta-cyclodextrin and filipin of raft/caveolae inhibitors. We conclude that pullulan-spermine is a promising carrier for gene transfection, and that cellular uptake of pullulan-spermine-plasmid DNA complexes is mediated by clathrin- and raft/caveolae-dependent endocytotic pathways.

Induction of smooth muscle cell-like phenotype in marrow-derived cells among regenerating urinary bladder smooth muscle cells.

Tissue regeneration on acellular matrix grafts has great potential for therapeutic organ reconstruction. However, hollow organs such as the bladder require smooth muscle cell regeneration, the mechanisms of which are not well defined. We investigated the mechanisms by which bone marrow cells participate in smooth muscle formation during urinary bladder regeneration, using in vivo and in vitro model systems. In vivo bone marrow cells expressing green fluorescent protein were transplanted into lethally irradiated rats. Eight weeks following transplantation, bladder domes of the rats were replaced with bladder acellular matrix grafts. Two weeks after operation transplanted marrow cells repopulated the graft, as evidenced by detection of fluorescent staining. By 12 weeks they reconstituted the smooth muscle layer, with native smooth muscle cells (SMC) infiltrating the graft. In vitro, the differential effects of distinct growth factor environments created by either bladder urothelial cells or bladder SMC on phenotypic changes of marrow cells were examined. First, supernatants of cultured bladder cells were used as conditioned media for marrow cells. Second, these conditions were reconstituted with exogenous growth factors. In each case, a growth factor milieu characteristic of SMC induced an SMC-like phenotype in marrow cells, whereas that of urothelial cells failed. These findings suggest that marrow cells differentiate into smooth muscle on acellular matrix grafts in response to the environment created by SMC.

[A multi-center prospective study for antibiotic prophylaxis to prevent perioperative infections in urologic surgery].

In order to assess the ability of our protocol for antibiotic prophylaxis to prevent perioperative infections in urologic surgery, 1,353 operations of open and laparoscopic urologic surgery conducted in 21 hospitals between September 2002 and August 2003 were subjected to analyses. We classified surgical procedures into four categories by invasiveness and contamination levels: Category A; clean less invasive surgery, Category B; clean invasive or clean-contaminated surgery, Category C; surgery with urinary tract diversion using the intestine. Prophylactic antibiotics were administrated intravenously according to our protocol, such as Category A; first or second generation cephems or penicillins on the operative day only, Category B; first and second generation cephems or penicillins for 3 days, and Category C; first, second or third generation cephems or penicillins for 4 days. The wound conditions and general conditions were evaluated in terms of the surgical site infection (SSI) as well as remote infection (RI) up to postoperative day (POD) 30. The SSI rate highest (23.3%) for surgery with intestinal urinary diversion, followed by 10.0% for surgery for lower urinary tract, 8.9% for nephroureterctomy, and 6.0% for radical prostatectomy. The SSI rates in clean surgery including open and laparoscopic nephrectomy/adrenalectomy were 0.7 and 1.4%, respectively. In SSIs, gram-positive cocci such as methicillin-resistant Staphylococcus aureus (58.8%) or Enterobacter faecalis (26.5%) were the most common pathogen. Similarly, the RI rate was the highest (35.2%) for surgery using intestinal urinary diversion, followed by 16.7% for surgery for lower urinary tract, 11.4% for nephroureterctomy, and 7.6% for radical prostatectomy, while RI rates for clean surgery were less than 5%. RIs most frequently reported were urinary tract infections (2.6%) where Pseudomonas aeruginosa (20.3%) and Enterobacter faecalis (15.3%) were the major causative microorganisms. Parameters such as age, obesity, nutritional status (low proteinemia), diabetes mellitus, lung disease, duration of operation, and blood loss volume were recognized as risk factors for SSI or RI in several operative procedures. Postoperative body temperatures, peripheral white blood counts, C reactive protein (CRP) levels in POD 3 were much higher than those in POD 2 in cases suffering from perioperative infections, especially suggesting that CRP could be a predictable marker for perioperative infections.

Collagenous matrices as release carriers of exogenous growth factors.

We have investigated the use of natural and synthetic collagenous matrices as carriers of exogenous growth factors. A bladder acellular matrix (BAM) was processed from rat bladder and compared with sponge matrix of porcine type 1 collagen. The lyophilized matrices were rehydrated by the aqueous solutions of basic fibroblast growth factor (bFGF), hepatocyte growth factor (HGF), platelet derived growth factor-BB (PDGF-BB), vascular endothelial growth factor (VEGF), insulin like growth factor-1 (IGF-1) and heparin binding epidermal growth factor-like growth factor (HB-EGF), to obtain the matrix incorporating each growth factor. The rehydration method enabled the growth factor protein to distribute into the matrix homogeneously. In vivo release test in the mouse subcutis revealed that, the property of BAM for growth factor release was similar to that of collagen sponge. Among the growth factors examined, bFGF release was the most sustained, followed by HGF and PDGF-BB. bFGF released from the two matrices showed similar in vivo angiogenic activity at the mouse subcutis in a dose-dependent manner. These findings demonstrate that the collagenous matrices function as release carriers of growth factors. This feature is promising to create a scaffold, which has a nature to control the tissue regeneration actively.