Oral dysbiosis initiates periodontal disease in experimental kidney disease
Oral dysbiosis initiates periodontal disease in experimental kidney disease
Background and hypothesis: It is presently unclear why there is a high prevalence of periodontal disease in individuals living with chronic kidney disease. Whilst some have argued that periodontal disease causes chronic kidney disease, we hypothesized that alterations in saliva and the oral microenvironment in organisms with kidney disease may initiate periodontal disease by causing dysbiosis of the oral microbiota. Methods: Experimental kidney disease was created using adenine feeding and subtotal nephrectomy in rats, and by adenine feeding in mice. Loss of periodontal bone height was assessed using a dissecting microscope supported by micro-CT, light, confocal and electron microscopy, and immunohistochemistry. Salivary biochemistry was assessed using NMR spectroscopy. The oral microbiome was evaluated using culture-based and molecular methods, and the transmissibility of dysbiosis was assessed using co-caging and microbial transfer experiments into previously germ-free recipient mice. Results: We demonstrate that experimental kidney disease causes a reproducible reduction of alveolar bone height, without gingival inflammation or overt hyperparathyroidism but with evidence of failure of bone formation at the periodontal crest. We show that kidney disease alters the biochemical composition of saliva and induces progressive dysbiosis of the oral microbiota, with microbial samples from animals with kidney disease displaying reduced overall bacterial growth, increased alpha diversity, reduced abundance of key components of the healthy oral microbiota such as Streptococcus and Rothia, and an increase in minor taxa including those from gram-negative phyla Proteobacteria and Bacteroidetes. Co-housing diseased rats with healthy ones ameliorates the periodontal disease phenotype, whilst transfer of oral microbiota from mice with kidney disease causes periodontal disease in germ-free animals with normal kidney function. Conclusions: We advocate that periodontal disease should be regarded as a complication of kidney disease, initiated by oral dysbiosis through mechanisms independent of overt inflammation or hyperparathyroidism.
dysbiosis, experimental kidney disease, microbiome, oral microbial transfer, periodontal disease
1187-1202
Randall, David
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Alsam, Asil
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Kieswich, Julius
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Joseph, Susan
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Aduse-Opoku, Joseph
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Swann, Jonathan
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Boyde, Alan
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Davis, Graham
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Mills, David
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Mccafferty, Kieran
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Curtis, Michael
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Yaqoob, Muhammed M.
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22 January 2025
Randall, David
71953a1b-fa0c-4ce7-86ab-f0f5a114c9da
Alsam, Asil
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Kieswich, Julius
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Joseph, Susan
df8196a0-256e-4b08-bcb0-bb6bf92eb50c
Aduse-Opoku, Joseph
7779d262-47b8-4ff3-b6a5-9d0c8850e1c6
Swann, Jonathan
7c11a66b-f4b8-4dbf-aa17-ad8b0561b85c
Boyde, Alan
34d2beb3-9ae3-4f82-887a-aa1a86757c6d
Davis, Graham
251cb2a4-a103-4572-ba2f-b7ee0b4dd8be
Mills, David
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Mccafferty, Kieran
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Curtis, Michael
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Yaqoob, Muhammed M.
7ae301db-7bea-4a36-8512-4e9758bd2a3b
Randall, David, Alsam, Asil, Kieswich, Julius, Joseph, Susan, Aduse-Opoku, Joseph, Swann, Jonathan, Boyde, Alan, Davis, Graham, Mills, David, Mccafferty, Kieran, Curtis, Michael and Yaqoob, Muhammed M.
(2025)
Oral dysbiosis initiates periodontal disease in experimental kidney disease.
Nephrology Dialysis Transplantation, 40 (6), .
(doi:10.1093/ndt/gfae266).
Abstract
Background and hypothesis: It is presently unclear why there is a high prevalence of periodontal disease in individuals living with chronic kidney disease. Whilst some have argued that periodontal disease causes chronic kidney disease, we hypothesized that alterations in saliva and the oral microenvironment in organisms with kidney disease may initiate periodontal disease by causing dysbiosis of the oral microbiota. Methods: Experimental kidney disease was created using adenine feeding and subtotal nephrectomy in rats, and by adenine feeding in mice. Loss of periodontal bone height was assessed using a dissecting microscope supported by micro-CT, light, confocal and electron microscopy, and immunohistochemistry. Salivary biochemistry was assessed using NMR spectroscopy. The oral microbiome was evaluated using culture-based and molecular methods, and the transmissibility of dysbiosis was assessed using co-caging and microbial transfer experiments into previously germ-free recipient mice. Results: We demonstrate that experimental kidney disease causes a reproducible reduction of alveolar bone height, without gingival inflammation or overt hyperparathyroidism but with evidence of failure of bone formation at the periodontal crest. We show that kidney disease alters the biochemical composition of saliva and induces progressive dysbiosis of the oral microbiota, with microbial samples from animals with kidney disease displaying reduced overall bacterial growth, increased alpha diversity, reduced abundance of key components of the healthy oral microbiota such as Streptococcus and Rothia, and an increase in minor taxa including those from gram-negative phyla Proteobacteria and Bacteroidetes. Co-housing diseased rats with healthy ones ameliorates the periodontal disease phenotype, whilst transfer of oral microbiota from mice with kidney disease causes periodontal disease in germ-free animals with normal kidney function. Conclusions: We advocate that periodontal disease should be regarded as a complication of kidney disease, initiated by oral dysbiosis through mechanisms independent of overt inflammation or hyperparathyroidism.
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gfae266
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e-pub ahead of print date: 20 November 2024
Published date: 22 January 2025
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© 2024 The Author(s).
Keywords:
dysbiosis, experimental kidney disease, microbiome, oral microbial transfer, periodontal disease
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Local EPrints ID: 503131
URI: http://eprints.soton.ac.uk/id/eprint/503131
ISSN: 0931-0509
PURE UUID: a35118ff-ac90-4895-9397-15ffbd35bce5
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Date deposited: 22 Jul 2025 16:44
Last modified: 22 Aug 2025 02:28
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Contributors
Author:
David Randall
Author:
Asil Alsam
Author:
Julius Kieswich
Author:
Susan Joseph
Author:
Joseph Aduse-Opoku
Author:
Alan Boyde
Author:
Graham Davis
Author:
David Mills
Author:
Kieran Mccafferty
Author:
Michael Curtis
Author:
Muhammed M. Yaqoob
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