Renal proteome in mice with different susceptibilities to fluorosis

A/J and 129P3/J mouse strains have different susceptibilities to dental fluorosis due to their genetic backgrounds. They also differ with respect to several features of fluoride (F) metabolism and metabolic handling of water. This study was done to determine whether differences in F metabolism could...

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Bibliographic Details
Published in:PloS one 2013-01, Vol.8 (1), p.e53261-e53261
Main Authors: Carvalho, Juliane Guimarães, Leite, Aline de Lima, Peres-Buzalaf, Camila, Salvato, Fernanda, Labate, Carlos Alberto, Everett, Eric T, Whitford, Gary Milton, Buzalaf, Marília Afonso Rabelo
Format: Article
Language:English
Subjects:
Animals
Aquaporins
Biology
Dental fluorosis
Dental schools
Dentistry
Disease susceptibility
Drinking water
Fluorides
Fluorides - metabolism
Fluorosis
Fluorosis, Dental - genetics
Fluorosis, Dental - metabolism
Gene Expression Regulation
Kidney - metabolism
Kidneys
Male
Medicine
Metabolism
Mice
Molecular modelling
Phosphatase
Phosphorylation
Proteins
Proteome - genetics
Proteome - metabolism
Proteomics
Reabsorption
Risk factors
Rodents
Spots
Tandem Mass Spectrometry
Urine
Weaning
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Summary:A/J and 129P3/J mouse strains have different susceptibilities to dental fluorosis due to their genetic backgrounds. They also differ with respect to several features of fluoride (F) metabolism and metabolic handling of water. This study was done to determine whether differences in F metabolism could be explained by diversities in the profile of protein expression in kidneys. Weanling, male A/J mice (susceptible to dental fluorosis, n = 18) and 129P3/J mice (resistant, n = 18) were housed in pairs and assigned to three groups given low-F food and drinking water containing 0, 10 or 50 ppm [F] for 7 weeks. Renal proteome profiles were examined using 2D-PAGE and LC-MS/MS. Quantitative intensity analysis detected between A/J and 129P3/J strains 122, 126 and 134 spots differentially expressed in the groups receiving 0, 10 and 50 ppmF, respectively. From these, 25, 30 and 32, respectively, were successfully identified. Most of the proteins were related to metabolic and cellular processes, followed by response to stimuli, development and regulation of cellular processes. In F-treated groups, PDZK-1, a protein involved in the regulation of renal tubular reabsorption capacity was down-modulated in the kidney of 129P3/J mice. A/J and 129P3/J mice exhibited 11 and 3 exclusive proteins, respectively, regardless of F exposure. In conclusion, proteomic analysis was able to identify proteins potentially involved in metabolic handling of F and water that are differentially expressed or even not expressed in the strains evaluated. This can contribute to understanding the molecular mechanisms underlying genetic susceptibility to dental fluorosis, by indicating key-proteins that should be better addressed in future studies.
ISSN:1932-6203
1932-6203
DOI:10.1371/journal.pone.0053261