0000000000174792

AUTHOR

Norihiko Morisawa

showing 2 related works from this author

Adaptive physiological water conservation explains hypertension and muscle catabolism in experimental chronic renal failure

2021

Abstract Aim We have reported earlier that a high salt intake triggered an aestivation‐like natriuretic‐ureotelic body water conservation response that lowered muscle mass and increased blood pressure. Here, we tested the hypothesis that a similar adaptive water conservation response occurs in experimental chronic renal failure. Methods In four subsequent experiments in Sprague Dawley rats, we used surgical 5/6 renal mass reduction (5/6 Nx) to induce chronic renal failure. We studied solute and water excretion in 24‐hour metabolic cage experiments, chronic blood pressure by radiotelemetry, chronic metabolic adjustment in liver and skeletal muscle by metabolomics and selected enzyme activity…

Male0301 basic medicinePhysiologyBody waterBlood Pressure030204 cardiovascular system & hematologyRats Sprague-Dawley0302 clinical medicineRegular Paperdouble‐barrier conceptmuscle mass losstransaminationKidneyglycine methylationMusclesurine concentrationglucose‐alanine‐shuttlepurine metabolismaestivationmedicine.anatomical_structuremedicine.drugbody watermedicine.medical_specialtykidneyskinhypertensionorganic osmolytesliverCardivascular PhysiologyNorepinephrine (medication)03 medical and health sciencesCopeptinhepato‐renalInternal medicinemedicineurea cycleAnimalsHumansbody sodiumSalt intakeMuscle SkeletalTransepidermal water lossConservation of Water Resourcesbusiness.industrySkeletal muscletransepidermal water lossWaterdehydrationRats030104 developmental biologyBlood pressureEndocrinologyCardiovascular and Metabolic DiseasesKidney Failure ChronicbusinessActa Physiologica (Oxford, England)
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Aestivation Motifs Explain Hypertension and Muscle Catabolism in Experimental Chronic Renal Failure

2020

Chronic renal failure leads to muscle mass loss and hypertension, which according to textbook teaching occur secondary to an inability of the kidneys to excrete solutes and water. We found instead that rats with experimental chronic renal failure constantly lost body water, because their kidneys could not sufficiently concentrate the urine. Physiological adaptation to body water loss, termed aestivation, is an evolutionary conserved survival strategy that relies on complex physiologic-metabolic adjustment across multiple organs to prevent otherwise lethal dehydration. We show that rats with chronic renal failure utilize these ancient water conservation motifs to successfully stabilize their…

medicine.medical_specialtyKidneyTransepidermal water lossbusiness.industryBody waterSkeletal muscleEndocrinologymedicine.anatomical_structureInternal medicineUrea cycleCirculatory systemmedicineAestivationmedicine.symptombusinessVasoconstrictionSSRN Electronic Journal
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