Hotaka Matsui

Caspase-3 dependent nitrergic neuronal apoptosis following cavernous nerve injury is mediated via RhoA and ROCK activation in major pelvic ganglion

Axonal injury due to prostatectomy leads to Wallerian degeneration of the cavernous nerve (CN) and erectile dysfunction (ED). Return of potency is dependent on axonal regeneration and reinnervation of the penis. Following CN injury (CNI), RhoA and Rho-associated protein kinase (ROCK) increase in penile endothelial and smooth muscle cells. Previous studies indicate that nerve regeneration is hampered by activation of RhoA/ROCK pathway. We evaluated the role of RhoA/ROCK pathway in CN regulation following CNI using a validated rat model. CNI upregulated gene and protein expression of RhoA/ROCK and caspase-3 mediated apoptosis in the major pelvic ganglion (MPG). ROCK inhibitor (ROCK-I) prevented upregulation of RhoA/ROCK pathway as well as activation of caspase-3 in the MPG. Following CNI, there was decrease in the dimer to monomer ratio of neuronal nitric oxide synthase (nNOS) protein and lowered NOS activity in the MPG, which were prevented by ROCK-I. CNI lowered intracavernous pressure and impaired non-adrenergic non-cholinergic-mediated relaxation in the penis, consistent with ED. ROCK-I maintained the intracavernous pressure and non-adrenergic non-cholinergic-mediated relaxation in the penis following CNI. These results suggest that activation of RhoA/ROCK pathway mediates caspase-3 dependent apoptosis of nitrergic neurons in the MPG following CNI and that ROCK-I can prevent post-prostatectomy ED.

Ex Vivo Model of Human Penile Transplantation and Rejection: Implications for Erectile Tissue Physiology

BACKGROUND Penile transplantation is a potential treatment option for severe penile tissue loss. Models of human penile rejection are lacking. OBJECTIVE Evaluate effects of rejection and immunosuppression on cavernous tissue using a novel ex vivo mixed lymphocyte reaction (MLR) model. DESIGN, SETTING, AND PARTICIPANTS Cavernous tissue and peripheral blood mononuclear cells (PBMCs) from 10 patients undergoing penile prosthesis operations and PBMCs from a healthy volunteer were obtained. Ex vivo MLRs were prepared by culturing cavernous tissue for 48h in media alone, in media with autologous PBMCs, or in media with allogenic PBMCs to simulate control, autotransplant, and allogenic transplant conditions with or without 1μM cyclosporine A (CsA) or 20nM tacrolimus (FK506) treatment. OUTCOME MEASUREMENTS AND STATISTICAL ANALYSIS Rejection was characterized by PBMC flow cytometry and gene expression transplant array. Cavernous tissues were evaluated by histomorphology and myography to assess contraction and relaxation. Data were analyzed using two-way analysis of variance and unpaired Student t test. RESULTS AND LIMITATIONS Flow cytometry and tissue array demonstrated allogenic PBMC activation consistent with rejection. Rejection impaired cavernous tissue physiology and was associated with cellular infiltration and apoptosis. CsA prevented rejection but did not improve tissue relaxation. CsA treatment impaired relaxation in tissues cultured without PBMCs compared with media and FK506. Study limitations included the use of penile tissue with erectile dysfunction and lack of cross-matching data. CONCLUSIONS This model could be used to investigate the effects of penile rejection and immunosuppression. Additional studies are needed to optimize immunosuppression to prevent rejection and maximize corporal tissue physiology. PATIENT SUMMARY This report describes a novel ex vivo model of human penile transplantation rejection. Tissue rejection impaired erectile tissue physiology. This report suggests that cyclosporin A might hinder corporal physiology and that other immunosuppressant agents, such as FK506, might be better suited to penile transplantation.

Intravesical BCG Induces CD4+ T-cell expansion in an immune competent model of bladder cancer

Intravesical bacillus Calmette–Guéerin (BCG) instillations are standard of care for early stage bladder cancer. BCG was found to recruit T cells to the bladder, but their phenotype was unchanged, implying that combining T cell–activating agents with BCG might improve clinical activity. Intravesical bacillus Calmette–Guérin (BCG) immunotherapy is the standard of care in treating non–muscle-invasive bladder cancer, yet its mechanism of action remains elusive. Both innate and adaptive immune responses have been implicated in BCG activity. Although prior research has indirectly demonstrated the importance of T cells and shown a rise in CD4+ T cells in bladder tissue after BCG, T-cell subpopulations have not been fully characterized. We investigated the relationship between effector and regulatory T cells in an immune competent, clinically relevant rodent model of bladder cancer. Our data demonstrate that cancer progression in the N-methyl-N-nitrosourea (MNU) rat model of bladder cancer was characterized by a decline in the CD8/FoxP3 ratio, consistent with decreased adaptive immunity. In contrast, treatment with intravesical BCG led to a large, transient rise in the CD4+ T-cell population in the urothelium and was both more effective and immunogenic compared with intravesical chemotherapy. Whole-transcriptome expression profiling of posttreatment intravesical CD4+ and CD8+ T cells revealed minimal differences in gene expression after BCG treatment. Together, our results suggest that although BCG induces T-cell recruitment to the bladder, the T-cell phenotype does not markedly change, implying that combining T-cell–activating agents with BCG might improve clinical activity. Cancer Immunol Res; 5(7); 594–603. ©2017 AACR.

Immune checkpoint inhibitors: a new frontier in bladder cancer

Abstract Immunotherapy is rapidly changing the field of urologic oncology. In this review, we discuss the role of the immune system in general and place a particular emphasis on the biology of the immune checkpoint and its role in cancer. Bladder cancer, as one of the most immunogenic neoplasms, is an exciting target for immune checkpoint inhibition. Early preclinical data and human trial experience suggest that this new drug class may shape bladder cancer therapy for years to come.

Radiation-induced erectile dysfunction: Recent advances and future directions

Prostate cancer is one of the most prevalent cancers and the second leading cause of cancer-related deaths in men in the United States. A large number of patients undergo radiation therapy (RT) as a standard care of treatment; however, RT causes erectile dysfunction (radiation-induced erectile dysfunction; RiED) because of late side effects after RT that significantly affects quality of life of prostate cancer patients. Within 5 years of RT, approximately 50% of patients could develop RiED. Based on the past and current research findings and number of publications from our group, the precise mechanism of RiED is under exploration in detail. Recent investigations have shown prostate RT induces significant morphologic arterial damage with aberrant alterations in internal pudendal arterial tone. Prostatic RT also reduces motor function in the cavernous nerve which may attribute to axonal degeneration may contributing to RiED. Furthermore, the advances in radiogenomics such as radiation induced somatic mutation identification, copy number variation and genome-wide association studies has significantly facilitated identification of biomarkers that could be used to monitoring radiation-induced late toxicity and damage to the nerves; thus, genomic- and proteomic-based biomarkers could greatly improve treatment and minimize arterial tissue and nerve damage. Further, advanced technologies such as proton beam therapy that precisely target tumor and significantly reduce off-target damage to vital organs and healthy tissues. In this review, we summarize recent advances in RiED research and novel treatment modalities for RiED. We also discuss the possible molecular mechanism involved in the development of RiED in prostate cancer patients. Further, we discuss various readily available methods as well as novel strategies such as stem cell therapies, shockwave therapy, nerve grafting with tissue engineering, and nutritional supplementations might be used to mitigate or cure sexual dysfunction following radiation treatment.

Preclinical Evaluation of Intravesical Cisplatin Nanoparticles for Non-Muscle-Invasive Bladder Cancer

Purpose: Prior clinical trials evaluating cisplatin for non–muscle-invasive bladder cancer (NMIBC) were stopped due to local and systemic toxicity. Currently, there is still a need for improved intravesical therapies, and nanoparticle-based CDDP may be efficacious without the toxicity of free cisplatin observed in the past. Experimental Design: Cisplatin nanoparticles (CDDP NPs) were developed using biocompatible poly(l-aspartic acid sodium salt; PAA), both with and without low and high grafting density of methoxy-polyethylene glycol (PEG). In vitro cytotoxicity studies confirmed activity of CDDP NPs and CDDP solution against a papillary bladder cancer cell line. Local toxicity was assessed by three weekly intravesical administrations of CDDP formulations. CDDP NPs and CDDP solution were evaluated for bladder absorption in murine models 1 and 4 hours after intravesical administration. In vivo efficacy was evaluated in an immunocompetent carcinogen model of NMIBC. Results: CDDP NPs showed decreased local toxicity, as assessed by bladder weight, compared with CDDP solution. Furthermore, >2 μg/mL of platinum was observed in mouse serum after intravesical administration of CDDP solution, whereas serum platinum was below the limit of quantification after intravesical administration of CDDP NPs. CDDP NPs provided significantly increased (P < 0.05) drug levels in murine bladders compared with CDDP solution for at least 4 hours after intravesical administration. In vivo, CDDP NPs reduced cancer cell proliferation compared with untreated controls, and was the only treatment group without evidence of invasive carcinoma. Conclusions: Cisplatin-loaded PAA NPs have the potential to improve intravesical treatment of NMIBC while reducing local and systemic side effects. Clin Cancer Res; 23(21); 6592–601. ©2017 AACR.

Early-stage Type 2 Diabetes Mellitus Impairs Erectile Function and Neurite Outgrowth From the Major Pelvic Ganglion and Downregulates the Gene Expression of Neurotrophic Factors

OBJECTIVE To assess neurite sprouting and gene expression of neurotrophic factors, nerve markers, and apoptosis in the major pelvic ganglia (MPGs) of rats with type 2 diabetes mellitus (T2DM) as it relates to erectile function. MATERIALS AND METHODS Male rats were fed high-fat diet for 2 weeks followed by 2 low-dose injections of streptozotocin (20 mg/kg). In 3 groups (controls, 3-week, or 5-week T2DM), erectile function was measured by ratios of intracavernosal pressure to mean arterial pressure after cavernous nerve stimulation. MPGs were harvested, and gene expressions of neurotrophic factor 3, nerve growth factor, glial cell line-derived neurotrophic factor, brain-derived neurotrophic factor, caspase-1, -3, -9, beta tubulin type III, and neuronal nitric oxide synthase were quantified by quantitative polymerase chain reaction. Additional MPGs were harvested and cultured in Matrigel. Neurite outgrowth from the MPG was evaluated at 48 hours after culture. RESULTS Erectile function was significantly decreased in all rats with T2DM. Gene expressions of neurotrophic factor 3, nerve growth factor, glial cell line-derived neurotrophic factor, and brain-derived neurotrophic factor were slightly lower at 3 weeks and significantly lower at 5 weeks after T2DM induction. Gene expression of apoptotic markers caspase-1, -3, -9, and neuronal markers beta tubulin type III and neuronal nitric oxide synthase remained unchanged. Rats with T2DM had shorter neurite length and less neurite sprouting than did the control MPG. CONCLUSION Early-stage T2DM downregulates neurotrophic factors, induces erectile dysfunction, and impairs MPG neurite outgrowth, suggesting that erectile dysfunction may be prevented by supplementing neurotrophic factors at early-stage T2DM.

Subacute Hemolysis in Sickle Cell Mice Causes Priapism Secondary to NO Imbalance and PDE5 Dysregulation

INTRODUCTION Recent research suggests that priapism in sickle cell disease (SCD) is due to dysregulation of penile erection homeostasis including alteration of nitric oxide synthase (NOS) and phosphodiesterase type 5 (PDE5) activities by excessive levels of reactive oxygen species (ROS) released during hemolysis. It is unknown if subacute exposure to hemolysis is sufficient or if chronic reconditioning of erectile tissues is required for perturbation of homeostatic pathways and whether PDE5 inhibitor (PDE5I) treatment can restore erectile homeostasis in the subacute setting. AIMS The aim of this study was to investigate the effects of subacute hemolysis (3-month exposure) on priapism and NO pathway regulation. METHODS Mice underwent bone marrow transplantation with either SCD (BM-SS) or wild-type (WT) bone marrow. BM-SS mice were treated with sildenafil 100 mg/kg/day. We measured intracavernous pressure (ICP) measurements with or without cavernous nerve stimulation following bone marrow transplantation to assess for priapism. MAIN OUTCOME MEASURES ICP and frequency of erections were assessed. Penile tissues were analyzed for NOS, protein kinase G (PKG), PDE5, and ROS activities. RESULTS BM-SS mice demonstrated a priapism phenotype. PDE5I treatment reduced the frequency of erections in BM-SS mice (1.7 ± 1.1 vs. 5.5 ± 2.8 erections per hour, P < 0.05). Penile tissues from BM-SS mice demonstrated decreased NOS, PKG, PDE5 and elevated ROS activities compared with that of control mice. PDE5I treatment increased NOS (11.6 ± 1.3% vs. 7.8 ± 2.3%, P < 0.05) and PDE5 (76.3 ± 9.8% vs. 52.3 ± 11.1%, P < 0.05) activities and decreased ROS activity (137.8 ± 12.1% vs. 199.1 ± 11.3%, P < 0.05) compared with non-PDE5I treated BM-SS mice. PKG activity was increased beyond control levels with PDE5I treatment (158.4 ± 10.3%, P < 0.05). CONCLUSION Short-term hemolysis is sufficient to establish a priapism phenotype and results in loss of erectile function. PDE5I treatment ameliorates priapism, in part, because of restored NO balance with decreased ROS generation and increased PDE5 activity.

Mini Review: Pathophysiology of Erectile Dysfunction

Erectile dysfunction (ED) is a major health problem as the population ages. Basic science research for the last two decades has expanded the knowledge on ED and identified several key molecular changes associated with the pathogenesis of ED, including nitric oxide (NO) / cyclic guanosine monophosphate (cGMP) / protein kinase G (PKG) pathway, RhoA/Rho-associated protein kinase (ROCK) signaling pathway, reactive oxygen species (ROS), renin-angiotensin system (RAS) and tumor necrosis factor-alpha (TNF-α). The causes of ED are classified into aging, vasculogenic, neurogenic, endocrinological, drug-induced and psychogenic. ED is often associated with systemic diseases, such as diabetes and cardiovascular diseases. In this review, we will review the molecular mechanisms of ED and known mechanisms behind ED associated with systemic diseases.

Biomanufacturing Seamless Tubular and Hollow Collagen Scaffolds with Unique Design Features and Biomechanical Properties

A versatile process to develop designer collagen scaffolds for hollow and tubular tissue engineering applications is presented. This process creates seamless and biomechanically tunable scaffolds ranging from ureter-like microsized tubings to structures with highly customized lumens that resemble intestinal villi, fluid bladders, and alveolar sacs that together with stem cells can potentially be used in preclinical and clinical settings.