Determining the Application of Small Extracellular Vesicles (SEVs) as Biomarkers of Arsenic Induced Urothelial Injury and Carcinogenesis

Washuck, Nicole

06 December 2022

Arsenic is a toxic metalloid that continues to contaminate the water and food sources of millions of people globally. Among the numerous health effects of arsenic exposure are urothelial toxicity and cancer. In recent years, small extracellular vesicles (SEVs) have been shown to be vital in intracellular communication and have been used in clinical studies as biomarkers of disease. The overall goal of this thesis is to understand the mechanisms of cell communication during arsenic exposure and to develop minimally invasive biomarkers for the toxic responses. The specific objectives are to: a) determine if SEVs released from arsenic exposed urothelial cells are responsible for mediating urothelial toxicity; and b) assess the application of urinary SEVs as novel biomarkers of arsenic exposure in an exposed population. The hypothesis leading this research is that the biology and protein packaging profile of urothelial SEVs are altered following arsenic exposure because of the induction of cell stress signaling pathways. I also hypothesize that urinary SEV proteins can be used as biomarkers of arsenic exposure because they are positively correlated with urinary arsenic concentrations in an exposed population. SVHUC1 human urothelial cells were dosed with sodium meta arsenite (1, 2, and 5 uM) for 48 hours. T24 urothelial carcinoma cells were also grown in parallel to compare for carcinogenicity. A label-free quantitative proteomics approach was used to assess the differentially expressed proteins in the cell lysate and the SEVs extracted from the culture media to determine the mechanistic pathways involved and how well the protein profiles in SEVs correlate with those in the cell lysate. SEVs were isolated from the archived urine samples of participants (n=36) enrolled in the Yellow Knife Health Effects Monitoring Program (YKHEMP) and two potential biomarkers, transforming growth factor beta receptor 1 (TGFBR1) and ribonuclease inhibitor 1 (RNH1), were measured by an enzyme linked immunosorbent assay (ELISA). SEVs in all samples were successfully characterized based on their size (50-200 nm) and positive antibody array for eight protein markers indicating their endosomal biogenesis. The total number of SEVs was not shown to increase following arsenic exposure in the in vitro study. However, the cancerous T24 cells had nearly four times higher numbers of SEVS compared to the non-cancerous SVHUC1 cells. The changes in the protein profiles in SEVs released following arsenic dosage indicated activation of pathways important for cell survival, viability, and migration and inactivation of pathways related to cell death and necrosis which were also observed in the paired cell lysate samples. Comparison between paired SEV and cell lysate samples, however, indicated selective SEV packaging of proteins which may be for the purpose of intracellular communication. Comparative assessment of SEVs from T24 and arsenic exposed SVHUC1 cells showed similar activation of cancer related pathways including those responsible for malignant tumors and increased proliferation rates. From the in vitro study results, we identified 8 potential SEV biomarkers. Of which, TGFBR1 showed the most promising association, having been positively associated with both inorganic arsenic and cadmium concentrations in urine samples. This thesis showed that SEVs are important mediators of arsenic exposure in urothelial cells and highlighted the comparability of SEV and cell lysate analysis. Furthermore, TGFBR1 was identified as a promising biomarker of arsenic exposure for its positive association with increased arsenic both in vitro and in human biomonitoring analysis.

Biomarkers

Arsenic

Toxicology

Bladder Cancer

SEVs

Extracellular vesicles

Flavonoid Nobiletin Attenuates Cyclophosphamide-Induced Cystitis in Mice through Mechanisms That Involve Inhibition of IL-1β Induced Connexin 43 Upregulation and Gap Junction Communication in Urothelial Cells / フラボノイドノビレチンはシクロホスファミド膀胱炎マウスの尿路上皮において、IL-1β誘発性のコネキシン43発現上昇とギャップ結合機能の亢進を抑制する

Kono, Jin

23 March 2023

京都大学 / 新制・課程博士 / 博士(医学) / 甲第24493号 / 医博第4935号 / 新制||医||1063(附属図書館) / 京都大学大学院医学研究科医学専攻 / (主査)教授 浅野 雅秀, 教授 万代 昌紀, 教授 上杉 志成 / 学位規則第4条第1項該当 / Doctor of Medical Science / Kyoto University / DFAM

Nobiletin

Connexin43

Bladder inflammatory disease

Gap junction

490

Comparison of DNA adducts in mouse bladder and lung tissue from smoke-exposed and control mice

Eastlake, Adrienne C.

January 2012

No description available.

Environmental Health

DNA adducts

smoking

lung cancer

bladder cancer

Not Your Regular Run-of-the-Mill Bladder Cancer

Rehman, Haroon, Manthri, Sukesh, Oad, Sonia, Chakraborty, Kanishka

12 April 2019

Bladder cancer is the one of the most common malignancies of the genitourinary system and the overwhelming majority of those cases, approximately 90% in the United States(1), are of the urothelial/transitional cell histologic type. Small cell histologic type of bladder cancer is extremely rare with a mean frequency of 0.7% (1), and due to its rarity, there have not been any large phase III clinical trials in order to establish a definitive treatment regimen. We report here one such case of this rare type of bladder cancer and our approach towards treatment. A 69-year-old man had an incidental finding of microscopic hematuria during routine annual testing performed by his primary care physician. He was referred to a urologist for further evaluation, and in the interim, he began to experience symptoms of nocturia, dysuria and gross hematuria. Cystoscopy revealed a 5 cm sessile mass within the bladder and transurethral resection of the tumor was performed. Histopathological analysis of the tumor revealed muscle invasive poorly differentiated urothelial carcinoma with neuroendocrine features suggestive of small cell carcinoma. Follow-up systemic imaging only revealed multiple lesions in the liver, with the largest solitary liver lesion measuring 4.4 x 3.4 cm and no discrete lung lesions. Patient was started on palliative systemic chemotherapy with carboplatin and etoposide and follow-up imaging demonstrated excellent response after four cycles of treatment; however, follow-up imaging after the completion of 6 cycles of treatment demonstrated disease progression. Patient was referred for consideration of enrollment into any clinical trials; however, unfortunately no trials were found to be available. Patient was subsequently offered systemic treatment with single-agent immunotherapy with pembrolizumab. Due to development of left sided hydronephrosis, nephrostomy tube placement was performed and patient was also started on palliative radiation. Primary small cell carcinoma (SCC) of the bladder is an exceedingly rare malignancy and therefore, data is not readily available in order to guide treatment decisions. The most commonly administered regimen consists of etoposide with a platinum agent, and this regimen is extrapolated from the treatment of SCC of the lung. However, as for patients like ours, who had progression of disease in a short interval and are deemed primary treatment (platinum) refractory, the prognosis certainly becomes far more grim and the treatment choices even more limited. In sharing our treatment approach, we hope to be able to provide insight towards potential future treatment choices for this most-challenging diagnosis, primary small cell carcinoma of the bladder. (1) Blomjous CE, et. al. Small cell carcinoma of the urinary bladder. A clinicopathologic, morphometric, immunohistochemical, and ultrastructural study of 18 cases. Cancer. 1989 Sep 15; 64(6):1347-57.

Bladder

Cancer

Small-cell

Urogenital System

Tumors

Urogenital Diseases

Melanosis Vesicae found in Female with Urinary Retention, Case Report

Smith, Andrea C., BA, Huffaker, R. Keith, MD, MBA, Broadway-Robertson, Natalie, MD

25 April 2023

Melanosis vesicae (or bladder melanosis) is a rare, benign condition referring to the presence of dark pigmented melanin deposits usually within the bladder mucosa. The clinical presentation can be mistaken for primary or metastatic melanoma of the bladder, and thus a histologic assessment is useful for ruling out a malignant diagnosis. All documented cases of melanosis vesicae have presented with urinary symptoms, including hematuria, symptoms of cystitis, incontinence and obstruction. This is a case report presenting a 57-year-old female with complaints of incomplete bladder emptying who met criteria for urinary retention. She underwent in-office cystoscopy and was found to have suspected melanosis vesicae. The diagnosis was later confirmed on pathology following a bladder biopsy. The next phase in care for this patient is planned sacral neuromodulation for treatment of urinary retention. Previous case reports of bladder melanosis have suggested an association with melanin deposition and inflammatory mechanisms and have not demonstrated malignant transformation during follow up. This is, to our knowledge, the first report of documented bladder melanosis in conjunction with urinary retention. Further studies are required to understand the etiology, clinical significance, and clinical correlation of melanosis vesicae with urinary dysfunction.

melanosis vesicae

urinary retention

bladder melanosis

Urogenital System

Urogenital Diseases

Neuropilins in bladder physiology

King, Natalie

06 July 2023

According to the CDC, the prevalence of diabetes has increased from 3.3% in 2004 to over 10.1% by 2019 (Prevalence of Diagnosed Diabetes). The United States Department of Agriculture (USDA) recommends that total fat intake should be between 20 - 35% of the total calories an individual consumes in a day and yet the Center for Disease Control and Prevention (CDC) reports that on average, total fat consumption makes up 35.8% of a person’s diet (Dietary guidelines, 2020 & CDC, 2021 respectively). According to Parrish, “dietary fat does not have an immediate effect on blood sugar levels, but consuming a meal high in fat can slow digestion and make it more difficult for insulin to work” (Parrish, 2015). Chronic diabetes can result in hypocontractility of the bladder. Contractility of the bladder is controlled by a multitude of receptors, ligands, and kinases. One receptor our group feels contributes is neuropilin 2. Our group has reported expression of neuropilin 2 in the smooth muscle of the bladder and has shown that expression induces cytoskeleton relaxation. Thus, it is thought that if neuropilin 2 expression is reduced, that potentially that hypocontractility of the bladder can be attenuated. In an in vivo model of diabetes using mice on a high fat diet for 5 months, we observed minimal changes in bladder histology, and variable Nrp2 expression. In silico analysis of data from in vivo and in vitro models of diabetes identified Nrp2 transcriptional induction compared to controls and a connection with multiple differentially expressed genes in the Nrp2 signaling pathway linked with biological processes related to a diabetic pathological state. An in vitro model of diabetes which subjected rat bladder contractile cells to high glucose identified significant cytoskeletal changes, increases in Nrp2 expression, and decreased contractility. Knock-down of Nrp2 using siRNA resulted in increased contractility of smooth muscle cells on collagen gels. These data suggest that Nrp2 signaling is altered under diabetic conditions and could be targeted to attenuate diabetes induced bladder hypocontractility. / 2025-07-06T00:00:00Z

Molecular biology

Bladder

Diabetes

Neuropilin

Neuropilin-2

Smooth muscle

Electrical Stimulation of Afferent Neural Pathways for Suppression of Urethral Reflexes

Mariano, Timothy Yu

January 2009

No description available.

Biomedical Research

Rehabilitation

URETHRAL

bladder

Voiding

Sacral

REFLEXES

Dermatome

STIMULATION

Characterization of the MLR19 transgenic mouse line and the role of myocardin in the bladder

Wright, Kevin David

13 August 2009

No description available.

Biology

Genetics

Zoology

transgenic

urinary bladder

myocardin

megabladder

The effects of age on muscarinic and alpha adrenergic receptor systems of the rat urinary bladder /

Ordway, Gregory Allen

January 1985

No description available.

Health Sciences

Bladder

Neuropharmacology

Muscarinic receptors

Adrenaline

Rats

TO PEE OR NOT TO PEE: A CHARACTERIZATION OF CANINE BLADDER PHYSIOLOGY FOLLOWING LONG-TERM LOWER SPINAL ROOT TRANSECTION AND SURGICAL REINNERVATION

Salvadeo, Danielle Marie

January 2019

Bladder incontinence in patients who suffer from sacral spinal cord injury can wreak havoc on one's quality of life. A 2012 survey suggests that patients who sustain spinal cord injury prioritize the recovery of bladder function over other faculties. With about 12,000 new spinal cord injury cases reported in the United States each year, finding ways to combat the disabilities that result from lower spinal cord dysfunction should be of utmost importance to the scientific research community. Prior to studying the effects of surgical reinnervation on the bladder after long-term decentralization, it was critical to understand the effects that decentralization had on the integrity of both smooth muscle and intramural nerves of the bladder, the function of which could determine the success of surgical reinnervation. Chapter 2 describes in vivo stimulation, ex vivo smooth muscle contractility studies, and immunohistochemical techniques that were used to assess the condition of the functional components of the bladder. Collective results showed that although pelvic plexus-induced stimulation decreased when decentralization included the bilateral transection of the L7 dorsal root, smooth muscle cells and intramural nerves maintained their function after long-term bladder decentralization. Thus, preservation of at least some nerve activity may allow for successful surgical reinnervation after long-term injury. Following confirmation of smooth muscle and intramural nerve viability after decentralization, we sought to determine if nerve transfer after long-term decentralization restores bladder function in canines. In Chapter 3, we detail both decentralization and surgical reinnervation procedures used in our model. Briefly, decentralization of the bladder included bilateral transection of hypogastric nerves, as well as all spinal roots caudal to L7, with a subset of animals undergoing additional transection of the dorsal root of L7. One year after decentralization, animals that showed consistent loss of sensory and motor function underwent surgical reinnervation, which included the bilateral transfer of part of the obturator nerve to the anterior vesical branch of the pelvic nerve and the semimembranosus branch of the sciatic nerve to the pudendal nerve. Behavioral observations, in vivo stimulation of transferred nerves, and retrograde tracing studies were used to explore the efficacy of reinnervation on both sensory and motor components of bladder function. Ultimately, results showed that the new neuronal pathways created by nerve transfer can restore bladder sensation and possibly motor function in lower motor neuron-lesioned canines. Beyond the effects of surgical reinnervation on bladder function, we were interested in taking a closer look at the mechanisms that dictate function after decentralization and reinnervation (Chapter 3). Based on our previous work that found that transfer of somatic nerves resulted in bladder smooth muscle expression of a nicotinic receptor subunit thought to be expressed primarily in striated muscles, we were interested in assessing changes in the profile of nicotinic receptors responsible for bladder function. Ex vivo smooth muscle contractility studies showed that response to nicotinic receptor agonists were not altered after decentralization or reinnervation. Furthermore, the α1 nicotinic receptor subunit was expressed in bladder smooth muscle across all surgical groups. Future studies are necessary to better elicit the physiological relevance of these nicotinic receptors in the bladder. Additionally, due to the complexity of surgical reinnervation, it was important to understand all contributions to bladder innervation (Chapter 4). We previously identified that cells in the ventral horns of spinal cord levels rostral to the sacral cord can directly innervate the bladder via retrograde tracing. Because these direct inputs were not in proximity of the spinal root transections made during decentralization, we wanted to know how decentralization and reinnervation impacted their effects on the bladder when stimulated. L2-mediated detrusor contractions were significantly decreased by transection of the hypogastric nerves, suggesting that many of the nerves originating from the L2 cord are sympathetic in nature; however, treatment with phentolamine did not completely eliminate the increase in pressure in response to L2 stimulation. Therefore, the remaining inputs likely act upon the bladder through a yet undefined pathway. The quantity of positively labelled cells did not change in sections of the L2 ventral horn across all surgical groups, suggesting no change in the contribution of direct inputs to bladder innervation. Finally, anatomical feasibility of the obturator and semimembranosus branch of the sciatic nerve transfers has been assessed in an unembalmed cadaver, the results of which have not yet been published. Overall, this research gives us reason to believe that surgical reinnervation is a viable option for patients who develop lower neurogenic bladder after injury to the sacral cord, cauda equina, or peripheral nerves mediating bladder function. / Biomedical Sciences

Neurosciences

Surgery

Medicine

Neurogenic Bladder

Nicotinic Receptor

Reinnervation