Smurf2 Gene Expression in Urinary Tract Tumors

• Conditions: Bladder Neoplasm

• Registration Number: NCT05134623
• Lead Sponsor: Ziv Hospital

Brief Summary

Smurf2 and bladder cancer - research proposal summary The Smurf2 gene was recently identified as a tumor suppressor gene. It is an E3 ubiquitin ligase and carries a significant role in major cellular processes such as cell division, genomic stability, DNA repair as well as resistance to anti-tumoral drugs.

Recent studies showed that in several common tumors (prostate, breast, osteosarcoma etc.), a significant decrease in the expression or activity of Smurf2 can be noted, making the cells more susceptible to malignant transformation and the tumors more aggressive and highly resistant to various medications.

Bladder cancer is no. 4 cancer in men and 6 in women, and a major cause of cancer related death. Common risk factors are smoking and occupational exposure to aniline dyes or aromatic amines. Its' most common presentation is painless hematuria. Once the diagnosis of a bladder tumor is made, endoscopic resection of the tumors is performed. Superficial tumors of low malignancy may be treated by repeated resections, highly malignant tumors require additional therapy and aggressive tumors invading the bladder muscle layer require radical surgery and chemo-radiotherapy. Therefore, all patients are closely monitored by repeated cystoscopies (endoscopic inspection of the bladder), each 3 months, lifelong.

In an effort to minimize patients' discomfort, there is a constant search for a reliable biomarker in the urine of patients. A marker with good sensitivity and specificity will predict in a noninvasive fashion early recurrence or absence of bladder tumors, sparing the need for invasive cystoscopy. The presence of a biomarker may be used as prognostic factor or a measure of response to therapy.

The aim of this research is to characterize the presence of smurf2 in bladder tumors and determine whether it may be utilized as a reliable biomarker for bladder cancer.

Detailed Description

Smurf2 and bladder cancer - research proposal summary - detailed

The Smurf2 gene was recently identified as a tumor suppressor gene. It is an E3 ubiquitin ligase and carries a significant role in major cellular processes such as cell division, genomic stability, DNA repair as well as resistance to anti-tumoral drugs.

Recent studies showed that in several common tumors (prostate, breast, osteosarcoma etc.), a significant decrease in the expression or activity of Smurf2 can be noted, making the cells more susceptible to malignant transformation and the tumors more aggressive and highly resistant to various medications.

Bladder cancer is no. 4 cancer in men and 6 in women, and a major cause of cancer related death. Common risk factors are cigarrete smoking and occupational exposure to aniline dyes or aromatic amines. Its' most common presentation is painless hematuria. Once the diagnosis of a bladder tumor is made, endoscopic resection of the tumors is performed. Superficial tumors of low malignancy may be treated by repeated resections, highly malignant tumors require additional therapy and aggressive tumors invading the bladder muscle layer require radical surgery and chemo-radiotherapy. Therefore, all patients are closely monitored by repeated cystoscopies (endoscopic inspection of the bladder.

In an effort to minimize patients' discomfort, there is a constant search for a reliable biomarker in the urine of patients. A marker with good sensitivity and specificity will predict in a noninvasive fashion early recurrence or absence of bladder tumors, sparing the need for invasive cystoscopy. The presence of a biomarker may be used as prognostic factor or a measure of response to therapy.

The aim of this research is to characterize the presence of smurf2 in bladder tumors and determine whether it may be utilized as a reliable biomarker for bladder cancer.

In the study, the investigators will collect samples from bladder tumors of patient referred for transurethral resection of a known bladder tumor. The tissue will be processed routinely yet additional slides will be performed and used for immunohistochemical analysis. The investigators will characterize the expression of SMURF2 in the tissue, its abundance, the distribution between the nucleus and cytoplasm and possible differences between the tumors tissue and surrounding normal margins.

Further on, the investigators will collect urine samples from patients with these tumors and examine the urinary sediment using PCR and proteomic examination. The data will be used for further research using the SMURF2 product as a possible novel bio-marker for the presence of bladder tumors and for non-invasive detection and follow-up of patients on surveillance following surgical treatment.

Study Timeline

• Status Verified: 2021-11
• Study First Submitted: 2021-11-14
• Study First Submitted QC: 2021-11-14
• Study First Posted: 2021-11-26
• Study Start: 2021-12
• Last Update Submitted: 2021-12-01
• Last Update Posted: 2021-12-16
• Primary Completion: 2023-01
• Study Completion: 2023-12

Recruitment & Eligibility

• Status: UNKNOWN
• Sex: Male
• Target Recruitment: 50

Inclusion Criteria

• Identified bladder tumor
• Scheduled for transurethral resection
• Informed consent

Exclusion Criteria

• Previous bladder, prostate or pelvic irradiation
• Persistent urinary tract infection
• Intravesical therpy with BCG within 6 months prior to surgery.
• Intravesical chemotherapy within 6 months prior to surgery

Study & Design

• Study Type: OBSERVATIONAL
• Study Design: Not specified

Primary Outcome Measures

Name	Time	Method
Smurf2 and bladder cancer	6 months	The presence of SMURF2 in bladder tumor tissue compared to normal surrounding tissue

Secondary Outcome Measures

Name	Time	Method
Smurf2 and bladder cancer	6 months	Identification of the SMURF2 product in the urinary sediment using proteomics and PCR