Bladder cancer microbiome and its association with chemoresponse
BackgroundThe microbiome is widely known to cause come types of cancer, modify cancer biology, and impact therapeutic efficacy. Despite the urinary microbiome being one of the most clinically significant microbiomes in human health, it is one of the least well-described.Methods and materialsTo begin...
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Frontiers Media S.A.
2025-07-01
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| Series: | Frontiers in Oncology |
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| Online Access: | https://www.frontiersin.org/articles/10.3389/fonc.2025.1506319/full |
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| author | Rashida Ginwala Laura Bukavina Laura Bukavina Mohit Sindhani Erika Nachman Erika Nachman Suraj Peri Jodie Franklin John Drevik Sarah Christianson Daniel M. Geynisman Alexander Kutikov Philip H. Abbosh Philip H. Abbosh |
| author_facet | Rashida Ginwala Laura Bukavina Laura Bukavina Mohit Sindhani Erika Nachman Erika Nachman Suraj Peri Jodie Franklin John Drevik Sarah Christianson Daniel M. Geynisman Alexander Kutikov Philip H. Abbosh Philip H. Abbosh |
| author_sort | Rashida Ginwala |
| collection | DOAJ |
| description | BackgroundThe microbiome is widely known to cause come types of cancer, modify cancer biology, and impact therapeutic efficacy. Despite the urinary microbiome being one of the most clinically significant microbiomes in human health, it is one of the least well-described.Methods and materialsTo begin to annotate the urinary microbiome present in bladder cancers, we analyzed human genome-filtered sequencing data from the Cancer Genome Atlas (TCGA) from 116 tumors (duplicates from 22 tumors), 22 adjacent normal bladder tissues, and 99 blood samples to classify reads originating from known microbiota. We also performed 16S rRNA sequencing on urine samples from 55 patients with urothelial carcinoma and 13 non-cancer patients. Additionally, we compared microbiome from matched urine samples and archival diagnostic tumor samples from 21 bladder cancer patients. For our animal experiments, starting at 8-12 weeks of age, male (n=33) and female (n=22) C57BL/6 mice were administered 0.05% N-butyl-N-(4-hydroxybutyl)-nitrosamine (BBN) in drinking water for 12 weeks then switched to regular water. Control mice drank regular water. Bladders were collected for 16S rRNA sequencing pre-exposure, after 6 and 12 weeks of exposure, and at the time of tumor identification (typically between 14-22 weeks from start of treatment using this model). Finally, because of our findings, we tested the effects of E.coli infection on gemcitabine toxicity in bladder cancer cell lines.ResultsTwenty-seven viral and bacterial species were found to be enriched in the tumor samples from TCGA cohort, including sex-specific enrichment of Lactobacillus and Prevotella in female bladder cancer patients which also are prevalent in the normal female genitourinary tract. We found key differences in urinary microbiota profiles that distinguish cancer patients from healthy control. We also found Granulicatella and Proteus were enriched in patients who did not respond to neoadjuvant chemotherapy while E. Faecalis was enriched in responders. Additionally, we found 32% overlap between microbiota of urine and archival diagnostic tumor samples. Because bladder cancer patients undergoing surgical procedures are exposed to a single dose of peri-procedure antibiotics, we took advantage of a ‘natural experiment’ to measure microbial changes in urology patients receiving a single dose of antibiotics for skin procedures, finding that there are very few changes that persist for 1 month. Additionally, we measured microbial changes during BBN-induced carcinogenesis in a mouse model and observed that changes are more likely related to BBN exposure itself rather than carcinogenesis as changes induced by BBN resolve after BBN withdrawal. Lastly, urine from bladder cancer patients harbored abundant Gammaproteobacteria, which in cell culture experiments, detoxified gemcitabine, a commonly used therapy in bladder cancer.ConclusionsIn summary, we identify many new relationships between the microbiome and bladder cancer that are clinically relevant and lay the groundwork important functional studies in the future. |
| format | Article |
| id | doaj-art-377cc5f5c33d4ef8929b775e68ff1850 |
| institution | Kabale University |
| issn | 2234-943X |
| language | English |
| publishDate | 2025-07-01 |
| publisher | Frontiers Media S.A. |
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| series | Frontiers in Oncology |
| spelling | doaj-art-377cc5f5c33d4ef8929b775e68ff18502025-08-20T03:28:17ZengFrontiers Media S.A.Frontiers in Oncology2234-943X2025-07-011510.3389/fonc.2025.15063191506319Bladder cancer microbiome and its association with chemoresponseRashida Ginwala0Laura Bukavina1Laura Bukavina2Mohit Sindhani3Erika Nachman4Erika Nachman5Suraj Peri6Jodie Franklin7John Drevik8Sarah Christianson9Daniel M. Geynisman10Alexander Kutikov11Philip H. Abbosh12Philip H. Abbosh13Fox Chase Cancer Center, Philadelphia, PA, United StatesFox Chase Cancer Center, Philadelphia, PA, United StatesDepartment of Urology, Cleveland Clinic Foundation, Cleveland, OH, United StatesIndia Institute of Technology, Delhi, IndiaFox Chase Cancer Center, Philadelphia, PA, United StatesDepartment of Molecular Virology and Microbiology, Baylor College of Medicine, Houston, TX, United StatesFox Chase Cancer Center, Philadelphia, PA, United StatesSynthesis and Sequencing Facility, Johns Hopkins University School of Medicine, Baltimore, MD, United StatesAlbert Einstein Medical Center, Philadelphia, PA, United StatesAlbert Einstein Medical Center, Philadelphia, PA, United StatesFox Chase Cancer Center, Philadelphia, PA, United StatesFox Chase Cancer Center, Philadelphia, PA, United StatesFox Chase Cancer Center, Philadelphia, PA, United StatesAlbert Einstein Medical Center, Philadelphia, PA, United StatesBackgroundThe microbiome is widely known to cause come types of cancer, modify cancer biology, and impact therapeutic efficacy. Despite the urinary microbiome being one of the most clinically significant microbiomes in human health, it is one of the least well-described.Methods and materialsTo begin to annotate the urinary microbiome present in bladder cancers, we analyzed human genome-filtered sequencing data from the Cancer Genome Atlas (TCGA) from 116 tumors (duplicates from 22 tumors), 22 adjacent normal bladder tissues, and 99 blood samples to classify reads originating from known microbiota. We also performed 16S rRNA sequencing on urine samples from 55 patients with urothelial carcinoma and 13 non-cancer patients. Additionally, we compared microbiome from matched urine samples and archival diagnostic tumor samples from 21 bladder cancer patients. For our animal experiments, starting at 8-12 weeks of age, male (n=33) and female (n=22) C57BL/6 mice were administered 0.05% N-butyl-N-(4-hydroxybutyl)-nitrosamine (BBN) in drinking water for 12 weeks then switched to regular water. Control mice drank regular water. Bladders were collected for 16S rRNA sequencing pre-exposure, after 6 and 12 weeks of exposure, and at the time of tumor identification (typically between 14-22 weeks from start of treatment using this model). Finally, because of our findings, we tested the effects of E.coli infection on gemcitabine toxicity in bladder cancer cell lines.ResultsTwenty-seven viral and bacterial species were found to be enriched in the tumor samples from TCGA cohort, including sex-specific enrichment of Lactobacillus and Prevotella in female bladder cancer patients which also are prevalent in the normal female genitourinary tract. We found key differences in urinary microbiota profiles that distinguish cancer patients from healthy control. We also found Granulicatella and Proteus were enriched in patients who did not respond to neoadjuvant chemotherapy while E. Faecalis was enriched in responders. Additionally, we found 32% overlap between microbiota of urine and archival diagnostic tumor samples. Because bladder cancer patients undergoing surgical procedures are exposed to a single dose of peri-procedure antibiotics, we took advantage of a ‘natural experiment’ to measure microbial changes in urology patients receiving a single dose of antibiotics for skin procedures, finding that there are very few changes that persist for 1 month. Additionally, we measured microbial changes during BBN-induced carcinogenesis in a mouse model and observed that changes are more likely related to BBN exposure itself rather than carcinogenesis as changes induced by BBN resolve after BBN withdrawal. Lastly, urine from bladder cancer patients harbored abundant Gammaproteobacteria, which in cell culture experiments, detoxified gemcitabine, a commonly used therapy in bladder cancer.ConclusionsIn summary, we identify many new relationships between the microbiome and bladder cancer that are clinically relevant and lay the groundwork important functional studies in the future.https://www.frontiersin.org/articles/10.3389/fonc.2025.1506319/fullbladder cancerurothelial carcinomaBBNmicrobiomemicrobiotagemcitabine |
| spellingShingle | Rashida Ginwala Laura Bukavina Laura Bukavina Mohit Sindhani Erika Nachman Erika Nachman Suraj Peri Jodie Franklin John Drevik Sarah Christianson Daniel M. Geynisman Alexander Kutikov Philip H. Abbosh Philip H. Abbosh Bladder cancer microbiome and its association with chemoresponse Frontiers in Oncology bladder cancer urothelial carcinoma BBN microbiome microbiota gemcitabine |
| title | Bladder cancer microbiome and its association with chemoresponse |
| title_full | Bladder cancer microbiome and its association with chemoresponse |
| title_fullStr | Bladder cancer microbiome and its association with chemoresponse |
| title_full_unstemmed | Bladder cancer microbiome and its association with chemoresponse |
| title_short | Bladder cancer microbiome and its association with chemoresponse |
| title_sort | bladder cancer microbiome and its association with chemoresponse |
| topic | bladder cancer urothelial carcinoma BBN microbiome microbiota gemcitabine |
| url | https://www.frontiersin.org/articles/10.3389/fonc.2025.1506319/full |
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