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Short-term exposure to high relative humidity increases blood urea and influences colonic urea-nitrogen metabolism by altering the gut microbiota

Hongmei Yin, Yadong Zhong, Hui Wang, Jielun Hu, Shengkun Xia, Yuandong Xiao, Shaoping Nie, Mingyong Xie

2021Journal of Advanced Research43 citationsDOIOpen Access PDF

Abstract

Introduction: Colonic urea-nitrogen metabolites have been implicated in the pathogenesis of certain diseases which can be affected by environmental factors. Objectives: We aimed to explore the influence of ambient humidity on colonic urea-nitrogen metabolism. Methods: = 10/group) exposed to high relative humidity (RH, 90 ± 2%) were analyzed during the 14-day exposure. Results: -ATPase. Moreover, abnormal erythrocyte morphologies appeared after 3 days of exposure. The colonic BUN and ammonia levels increased significantly after the 12-h and 24-h exposure, respectively. The colonic level of amino acids, partly synthesized by gut microbiota using ammonia as the nitrogen source, was significantly higher on the 7th day. Furthermore, the level of fecal short-chain fatty acids was significantly higher after 3-day exposure and the level of branched-chain fatty acids increased on the 14th day. Overall, gut microbiota composition was continuously altered during exposure, facilitating the preferential proliferation of urea-nitrogen metabolism bacteria. Conclusion: Our findings suggest that short-term high RH exposure influences colonic urea-nitrogen metabolism by increasing the influx of colonic urea and altering gut microbiota, which might further impact the host health outcomes.

Topics & Concepts

UreaMetabolismGut floraChemistryAmmoniaBlood urea nitrogenNitrogenFecesBiochemistryInternal medicineBiologyMicrobiologyCreatinineMedicineOrganic chemistryGut microbiota and healthClinical Nutrition and GastroenterologyClimate Change and Health Impacts