Possible Diagnostic Protein Markers in Schistosoma Related Bladder Diseases.

Not yet recruiting

• Conditions: Schistosoma Haematobium
• Interventions: Diagnostic Test: Immunohistochemistry staining,; Diagnostic Test: microscopic examination of urine

• Registration Number: NCT05941884
• Lead Sponsor: Assiut University

Brief Summary

Schistosomiasis is the second most common parasitic infection affecting humans, endemic in the Middle East, especially Egypt (1), and in 42 African countries (2).

There are 5 main species infecting humans: S. mansoni, S. haematobium, S. japonicum, S. intercalatum, and S. mekongi. S. haematobium is responsible for chronic urogenital infections that may cause serious complications (3). Urinary schistosomiasis is mostly borne in rural and agricultural communities, according to WHO (4)

Detailed Description

Bleeding, anemia and chronic renal failure are common presentation. Bladder cancer is associated with schistosomiasis, However the mechanism by which it occurs is still controversial. Chronic interaction with the host immune system as well as association with other carcinogenic agents can lead to the neoplastic transformation (3). The International Agency for Research on Cancer classifies the infection with S. haematobium as a group 1 carcinogen, a definitive cause of cancer (5).

Bladder cancer (BC) is the sixth most prevalent cancer in both genders worldwide. Amongst Egyptian males, bladder cancer is the most common malignancy accounting for 16% with more than 7,900 deaths per year. The main risk factor was urinary schistosomiasis which is more frequent in Upper Egypt (1).

Urothelial carcinoma represents the most common histologic type of BC, accounting for 90% of all cases. Squamous cell carcinoma may develop following bilharziasis infection, in addition other types includes adenocarcinoma and small cell carcinoma were reported (6). The WHO classification includes urothelial papilla, papillary urothelial neoplasm of low malignant potential (PUNLMP), low-grade urothelial carcinoma (LGPUC) and high- grade UC (HGPUC) (7).

Urine cytology is the only established noninvasive adjunct to cystoscopy. Being in close contact with tumor cells and adjacent inflamed urothelium. Thus, immune mediators in urine may serve as biomarkers (8). Urine biomarkers of schistosomal bladder cancer can be used as diagnostic markers in patients, and prognostic indicators of disease survival, and as early detectors of recurrent disease in the monitored patient (9).

Heat shock proteins (HSPs) are synthesized by cells in response to various stress conditions, including carcinogenesis. These molecules have been studied in several malignancies, they may be useful markers for patients with schistosomiasis-associated bladder cancer and may be used for predicting disease progression. (10). HSPs are upregulated when cells are exposed to elevated temperature. In neoplasia, the expression of HSPs is implicated in the regulation of apoptosis and tumor-cell growth, helps tumor to evade immune surveillance. As it has been reported to abort Th1 effector immunity and enhance Th2 down- regulatory immune responses. Thus, downregulate antitumor effector T cells (8). Urine proteome profile provide deeper insights into urogenital schistosomiasis, it's carcinogenesis and highlight potential biomarkers for diagnosis and/or prognosis (11).

Immunohistochemistry (IHC) is currently the most widely used pathological technique for accurate diagnosis of urinary bladder neoplasms. Moreover, identification and validation of the prognostic IHC signature have been reported in various cancer types and proved to be a promising complement in therapeutic planning and patient management (12). As oxidative stress and immune defense systems responsible for microbicide activity are the most representative clusters in urogenital schistosomiasis patients. Proteins involved in immunity, negative regulation of endopeptidase activity, and inflammation were more prevalent in UGS patients with bladder cancer (11).

NF-ƙB was first identified in active B cells by its binding affinity to immunoglobulin enhancer. NF-ƙB serves as dominant modulator of immuno-inflammatory responses. (13). It plays a critical role in normal physiology and bladder cancer progression. NF-ƙB orchestrates protein interactions (PTEN, survivin, VEGF), regulation (CYLD, USP13) and gene expression (Trp 53) resulting in bladder cancer progression, recurrence, and resistance to therapy. Bladder cancer patients have constitutively active NF-ƙB triggered by pro-inflammatory cytokines, chemokines, and hypoxia, augmenting carcinogenesis and progression (14).

Further, Protein kinase C α (PKC) is one of the serine/threonine kinases that regulates a variety of cellular biological process, such as apoptosis. It has been firmly established that PKCs are closely related to process of tumorigenesis, including the initiation and progression of bladder cancer (15). In addition, activated PKC α is involved in bladder cancer cell proliferation, survival, invasion, migration, and anticancer drug resistance (16).

In literature, the evaluation of schistosomal infestation is not precise as it depends on the histopathologic findings, which proved to be less accurate. Most of them focused on the prognostic role of biomarkers rather than their role in diagnosis and pathogenesis.

Our aim in this study is to identify the potential causal relationship between schistosomal infection and levels of NF-kappa-B and Protein kinase C α signaling and bladder cancer development and highlights their role in bladder cancer pathogenesis

Study Timeline

• Study First Submitted: 2023-06-19
• Status Verified: 2023-07
• Study First Submitted QC: 2023-07-04
• Last Update Submitted: 2023-07-04
• Study First Posted: 2023-07-12
• Last Update Posted: 2023-07-12
• Study Start: 2023-10-01
• Primary Completion: 2025-06-30
• Study Completion: 2027-10-30

Recruitment & Eligibility

• Status: NOT_YET_RECRUITING
• Sex: All
• Target Recruitment: 120

Inclusion Criteria

• Male and female patients of different age groups known to suffer from cystitis and bladder cancer regardless results from schistosomal infection or any other causes.

Exclusion Criteria

• patients with concomitant other tumours.
• patients with other urinary tract infection.

Study & Design

• Study Type: OBSERVATIONAL
• Study Design: Not specified

Arm && Interventions

Group	Intervention	Description
non Schistosomal bladder cancer.	Immunohistochemistry staining,	from patient undergone diagnostic cystoscopy and sampling and confirmed pathologically as non Schistosomal bladder cancer.
Schistosomal bladder cancer.	Immunohistochemistry staining,	from patient undergone diagnostic cystoscopy and sampling and confirmed pathologically as Schistosomal bladder cancer.
Healthy personnel.	microscopic examination of urine	as control group
Schistosomal bladder cancer.	microscopic examination of urine	from patient undergone diagnostic cystoscopy and sampling and confirmed pathologically as Schistosomal bladder cancer.
Schistosomal cystitis patients.	Immunohistochemistry staining,	from patient undergone diagnostic cystoscopy and sampling and confirmed pathologically as Schistosomal cystitis
Schistosoma haematobium cystitis.	microscopic examination of urine	patient has symptoms suggestive of Schistosoma haematobium infection like terminal hematuria and burning micturition
healthy bladder tissue from tissue biopsy patient with benign prostatic hyperplasia.	Immunohistochemistry staining,	as control group

Primary Outcome Measures

Name	Time	Method
NF-kappa-B and Protein kinase Cα	2 years	Association and changes of NF-kappa-B and Protein kinase Cα as diagnostic markers in chronic schistosomaiasis with or without bladder cancer
heat shock protein	1 year	Changes of heat shock protein HSP 70 as urinary biomarkers for Schistosomal bladder diseases.

Trial Locations

Locations (1)

Assiut University Hospital; 🇪🇬 Assiut, Egypt