Multi-omics reveal mechanisms underlying chronic kidney disease of unknown etiology (CKDu) pathogenesis using zebrafish

Chronic kidney disease of unknown etiology (CKDu) is an endemic disease in the dry zone of farming communities, Sri Lanka. The drinking water in a CKDu prevalent area contains a high concentration of F−, hardness and other environmental pollutants, including heavy metals and microcystin, which are c...

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Published in:Environmental pollution (1987) 2023-11, Vol.337, p.122524-122524, Article 122524
Main Authors: Wei, Xing-Yi, Jia, Pan-Pan, Hu, Huan, Liu, Li, Li, Tian-Yun, Li, Yong-Zhi, Pei, De-Sheng
Format: Article
Language:English
Subjects:
acute kidney injury
adults
biochemical pathways
Biomarker
Chronic kidney disease (CKD)
Comamonas
Danio rerio
digestive system
endemic diseases
etiology
kidneys
metabolism
Metabolism pathway
metabolites
metabolome
microbiome
microcystins
Multi-omics
multiomics
necroptosis
pathogenesis
Plesiomonas
pollution
Sri Lanka
therapeutics
transcriptome
urea
uric acid
Zebrafish
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Summary:Chronic kidney disease of unknown etiology (CKDu) is an endemic disease in the dry zone of farming communities, Sri Lanka. The drinking water in a CKDu prevalent area contains a high concentration of F−, hardness and other environmental pollutants, including heavy metals and microcystin, which are considered possible etiology of CKDu in these areas. Here, multi-omics data with host transcriptome, metabolome and gut microbiomes were obtained using simulated local drinking water of Sri Lanka after their exposure to adult zebrafish. Based on an integrated multi-omics analysis in the context of host physiology in the kidney injury samples with different pathologic grades, two common pathways necroptosis and purine metabolism were identified as potentially important pathways that affect kidney injury. The key metabolite acetyl adenylate in the purine metabolism pathway was significantly positively correlated with Comamonas (rho = 0.72) and significantly negatively correlated with Plesiomonas (rho = −0.58). This crucial metabolite and two key gut bacteria genera may not only be potential markers but also potential therapeutic targets in the uric acid metabolic pathway, which is an important factor in the pathogenesis of acute kidney injury (AKI) in general, as well as of chronic kidney disease (CKD). Based on this, we revealed the urea metabolism pathway of kidney injury in zebrafish and provided a new avenue for the treatment of CKDu in Sri Lanka. [Display omitted] •Simulated drinking water of Sri Lanka impairs zebrafish kidneys.•Necroptosis and purine metabolism are important pathways leading to kidney injury.•Acetyl adenylate, Comamonas sp. and Plesiomonas sp. are kidney injury biomarkers.•The urea metabolism pathway of kidney injury in zebrafish is plotted and verified.
ISSN:0269-7491
1873-6424
DOI:10.1016/j.envpol.2023.122524