Gut microbiome and prostate cancer

The gut microbiome is linked to several diseases such as Alzheimer's disease, rheumatoid arthritis, and colon cancer. The gut microbiome is also associated with the modulation of immune function, resulting in a different response to immune checkpoint therapy. The gut microbiome differs accordin...

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Published in	International journal of urology Vol. 29; no. 8; pp. 793 - 798
Main Authors	Fujita, Kazutoshi, Matsushita, Makoto, Banno, Eri, De Velasco, Marco A, Hatano, Koji, Nonomura, Norio, Uemura, Hirotsugu
Format	Journal Article
Language	English
Published	Hoboken Wiley Subscription Services, Inc 01.08.2022
Subjects	Alzheimer's disease Castration Colon cancer Dysbacteriosis Fatty acids gut Gut microbiota High fat diet Immune checkpoint Immune response Intestinal microflora Lifestyles microbiome Microbiomes Microbiota Neurodegenerative diseases Phospholipids Probiotics Prostate cancer Rheumatoid arthritis Testosterone
Online Access	Get full text
ISSN	0919-8172 1442-2042 1442-2042
DOI	10.1111/iju.14894

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Abstract	The gut microbiome is linked to several diseases such as Alzheimer's disease, rheumatoid arthritis, and colon cancer. The gut microbiome is also associated with the modulation of immune function, resulting in a different response to immune checkpoint therapy. The gut microbiome differs according to lifestyle, diet, sex, race, genetic background, and country. Lifestyle, especially diet, plays an important role in the development and progression of prostate cancer. Recent studies have revealed a connection between the gut microbiome and prostate cancer. A high‐fat diet causes gut dysbiosis and gut bacterial metabolites, such as short‐chain fatty acids and phospholipids that enter systemic circulation result in promoting prostate cancer growth. Additionally, the gut microbiota can serve as a source of testosterone, which affects prostate cancer progression. Men with castration‐resistant prostate cancer have an increased abundance of gut bacteria with androgenic functions. Men with high‐risk prostate cancer share a specific gut microbial profile and profiling gut microbiota could be a potentially effective tool to screen men with high‐risk prostate cancer. Lifestyle modifications can improve the gut microbiome. Furthermore, altering the gut microbiome using prebiotic or probiotic interventions may prevent or delay prostate cancer development. Further study into the “Gut–Prostate Axis” would help in the discovery of new strategies for the prevention, screening, and treatment of prostate cancer.
AbstractList	The gut microbiome is linked to several diseases such as Alzheimer's disease, rheumatoid arthritis, and colon cancer. The gut microbiome is also associated with the modulation of immune function, resulting in a different response to immune checkpoint therapy. The gut microbiome differs according to lifestyle, diet, sex, race, genetic background, and country. Lifestyle, especially diet, plays an important role in the development and progression of prostate cancer. Recent studies have revealed a connection between the gut microbiome and prostate cancer. A high-fat diet causes gut dysbiosis and gut bacterial metabolites, such as short-chain fatty acids and phospholipids that enter systemic circulation result in promoting prostate cancer growth. Additionally, the gut microbiota can serve as a source of testosterone, which affects prostate cancer progression. Men with castration-resistant prostate cancer have an increased abundance of gut bacteria with androgenic functions. Men with high-risk prostate cancer share a specific gut microbial profile and profiling gut microbiota could be a potentially effective tool to screen men with high-risk prostate cancer. Lifestyle modifications can improve the gut microbiome. Furthermore, altering the gut microbiome using prebiotic or probiotic interventions may prevent or delay prostate cancer development. Further study into the "Gut-Prostate Axis" would help in the discovery of new strategies for the prevention, screening, and treatment of prostate cancer.The gut microbiome is linked to several diseases such as Alzheimer's disease, rheumatoid arthritis, and colon cancer. The gut microbiome is also associated with the modulation of immune function, resulting in a different response to immune checkpoint therapy. The gut microbiome differs according to lifestyle, diet, sex, race, genetic background, and country. Lifestyle, especially diet, plays an important role in the development and progression of prostate cancer. Recent studies have revealed a connection between the gut microbiome and prostate cancer. A high-fat diet causes gut dysbiosis and gut bacterial metabolites, such as short-chain fatty acids and phospholipids that enter systemic circulation result in promoting prostate cancer growth. Additionally, the gut microbiota can serve as a source of testosterone, which affects prostate cancer progression. Men with castration-resistant prostate cancer have an increased abundance of gut bacteria with androgenic functions. Men with high-risk prostate cancer share a specific gut microbial profile and profiling gut microbiota could be a potentially effective tool to screen men with high-risk prostate cancer. Lifestyle modifications can improve the gut microbiome. Furthermore, altering the gut microbiome using prebiotic or probiotic interventions may prevent or delay prostate cancer development. Further study into the "Gut-Prostate Axis" would help in the discovery of new strategies for the prevention, screening, and treatment of prostate cancer. The gut microbiome is linked to several diseases such as Alzheimer's disease, rheumatoid arthritis, and colon cancer. The gut microbiome is also associated with the modulation of immune function, resulting in a different response to immune checkpoint therapy. The gut microbiome differs according to lifestyle, diet, sex, race, genetic background, and country. Lifestyle, especially diet, plays an important role in the development and progression of prostate cancer. Recent studies have revealed a connection between the gut microbiome and prostate cancer. A high‐fat diet causes gut dysbiosis and gut bacterial metabolites, such as short‐chain fatty acids and phospholipids that enter systemic circulation result in promoting prostate cancer growth. Additionally, the gut microbiota can serve as a source of testosterone, which affects prostate cancer progression. Men with castration‐resistant prostate cancer have an increased abundance of gut bacteria with androgenic functions. Men with high‐risk prostate cancer share a specific gut microbial profile and profiling gut microbiota could be a potentially effective tool to screen men with high‐risk prostate cancer. Lifestyle modifications can improve the gut microbiome. Furthermore, altering the gut microbiome using prebiotic or probiotic interventions may prevent or delay prostate cancer development. Further study into the “Gut–Prostate Axis” would help in the discovery of new strategies for the prevention, screening, and treatment of prostate cancer.
Author	Matsushita, Makoto De Velasco, Marco A Fujita, Kazutoshi Banno, Eri Hatano, Koji Nonomura, Norio Uemura, Hirotsugu
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Snippet	The gut microbiome is linked to several diseases such as Alzheimer's disease, rheumatoid arthritis, and colon cancer. The gut microbiome is also associated...
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SubjectTerms	Alzheimer's disease Castration Colon cancer Dysbacteriosis Fatty acids gut Gut microbiota High fat diet Immune checkpoint Immune response Intestinal microflora Lifestyles microbiome Microbiomes Microbiota Neurodegenerative diseases Phospholipids Probiotics Prostate cancer Rheumatoid arthritis Testosterone
Title	Gut microbiome and prostate cancer
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