USC study finds link between PFAS, kidney function and gut health (Nov 2024) The potential mediating role of the gut microbiome and metabolites in the association between PFAS and kidney function in young adults: A proof-of-concept study Other 

Michael Harrop

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https://keck.usc.edu/news/usc-study-finds-link-between-pfas-kidney-function-and-gut-health/
https://www.sciencedirect.com/science/article/abs/pii/S0048969724066750

In the first study of its kind, researchers from the Keck School of Medicine found that problems with gut bacteria and related metabolites can help explain the link between “forever chemicals” and kidney damage.

PFAS are manufactured chemicals used in a wide range of products, including everything from furniture to food packaging. They are often called “forever chemicals” because once they accumulate in the environment or the human body, they take a very long time to break down.

The group of chemicals is known to increase risk for a range of health problems, including cardiovascular disease, cancer and chronic kidney disease, but the biological mechanisms behind that risk are poorly understood.

“Nearly everyone has PFAS in their blood, and these chemicals are associated with a number of negative health effects. But we don’t have any known interventions to reduce PFAS in the body, so we can’t actually provide recommendations to help,”

Highlights​

  • In a longitudinal analysis, higher PFAS burden was associated with reduced kidney function.
  • The gut microbiome and metabolites mediated the relationship between PFAS and kidney function.
  • High-dimensional mediation identified reduced anti-inflammatory bacteria and metabolites.

Abstract​

Background​

Chronic kidney disease (CKD) affects over 10 % of the global population and can lead to kidney failure and death. Exposure to per- and polyfluoroalkyl substances (PFAS) is associated with increased risk of CKD, yet studies examining the mechanisms linking PFAS and kidney function are lacking. In this exploratory study, we examined longitudinal associations of PFAS exposure with kidney function, and tested if associations were mediated by altered gut bacterial taxa or plasma metabolites using a multi-omics mediation analysis.

Methods​

Seventy-eight young adults from the Children's Health Study were included in this longitudinal cohort study. At baseline, seven plasma PFAS and untargeted plasma metabolomics were measured using liquid chromatography/mass-spectrometry. Baseline gut bacterial abundance was characterized using 16S rRNA sequencing and examined at the genus level. At follow-up, serum creatinine and cystatin-C concentrations were quantified to estimate glomerular filtration rate (eGFR). High-dimensional multi-omics analyses were conducted to assess the association between baseline PFAS exposure with follow-up eGFR, mediated by gut microbiome and circulating metabolite levels.

Results​

PFAS burden score, a variable developed to estimate exposure to chemical mixtures, was associated with kidney function. Each standard deviation increase in baseline PFAS burden score was associated with a 2.4 % lower eGFR at follow-up (95 % CI:[0.1 %,4.8 %]). Following high-dimensional mediation analyses with the microbiome and circulating metabolites, a joint component (characterized by reduced Lachnospiraceae and 17b-estradiol and increased succinate, retinoate and dodecanoic acid) and a metabolite component (characterized by increased hypotaurine and decreased D-pinitol and ureidopropionate) mediated 38 % and 50 % of the effect between PFAS burden score and eGFR, respectively.

Conclusion​

Our proof-of-concept analysis provides the first evidence that reduced short-chain fatty acid-producing bacteria and anti-inflammatory metabolites may link PFAS exposure with impaired kidney function. This study raises the possibility of future targeted interventions that can alter gut microbiome or circulating metabolite profiles to prevent PFAS induced kidney damage.
 
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