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Journal Abstract Search

146 related items for PubMed ID: 38779755

  • 1. Impaired distal renal potassium handling in streptozotocin-induced diabetic mice.
    Wu P, Li ST, Shu TT, Mao ZH, Fu WJ, Yang YY, Pan SK, Liu DW, Liu ZS, Gao ZX.
    Am J Physiol Renal Physiol; 2024 Jul 01; 327(1):F158-F170. PubMed ID: 38779755
    [Abstract] [Full Text] [Related]

  • 2. Deletion of renal Nedd4-2 abolishes the effect of high sodium intake (HS) on Kir4.1, ENaC, and NCC and causes hypokalemia during high HS.
    Zhang DD, Duan XP, Xiao Y, Wu P, Gao ZX, Wang WH, Lin DH.
    Am J Physiol Renal Physiol; 2021 May 01; 320(5):F883-F896. PubMed ID: 33818128
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  • 4. Potassium intake modulates the thiazide-sensitive sodium-chloride cotransporter (NCC) activity via the Kir4.1 potassium channel.
    Wang MX, Cuevas CA, Su XT, Wu P, Gao ZX, Lin DH, McCormick JA, Yang CL, Wang WH, Ellison DH.
    Kidney Int; 2018 Apr 01; 93(4):893-902. PubMed ID: 29310825
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  • 5. ENaC and ROMK activity are inhibited in the DCT2/CNT of TgWnk4PHAII mice.
    Zhang C, Wang L, Su XT, Zhang J, Lin DH, Wang WH.
    Am J Physiol Renal Physiol; 2017 Apr 01; 312(4):F682-F688. PubMed ID: 28365586
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  • 6. Na(+) dependence of K(+) -induced natriuresis, kaliuresis and Na(+) /Cl(-) cotransporter dephosphorylation.
    Jensen IS, Larsen CK, Leipziger J, Sørensen MV.
    Acta Physiol (Oxf); 2016 Sep 01; 218(1):49-61. PubMed ID: 27172453
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  • 8. MST3 Involvement in Na+ and K+ Homeostasis with Increasing Dietary Potassium Intake.
    Chan CH, Wu SN, Bao BY, Li HW, Lu TL.
    Int J Mol Sci; 2021 Jan 20; 22(3):. PubMed ID: 33498219
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  • 10. [Regulation of kidney on potassium balance and its clinical significance].
    Xie QH, Hao CM.
    Sheng Li Xue Bao; 2023 Apr 25; 75(2):216-230. PubMed ID: 37089096
    [Abstract] [Full Text] [Related]

  • 11. Kir4.1 deletion prevents salt-sensitive hypertension in early streptozotocin-induced diabetic mice via Na + -Cl - cotransporter in the distal convoluted tubule.
    Gao ZX, Wei QC, Shu TT, Li ST, Zhou R, Li MY, Mao ZH, Liu DW, Liu ZS, Wu P.
    J Hypertens; 2023 Jun 01; 41(6):958-970. PubMed ID: 37016934
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  • 12. Altered renal expression of Na(+) transporters and ROMK in protein-deprived rats.
    Ruete MC, Carrizo LC, Bocanegra MV, Vallés PG.
    Nephron Physiol; 2009 Jun 01; 111(3):p17-29. PubMed ID: 19202345
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  • 14. Deletion of Kir5.1 Impairs Renal Ability to Excrete Potassium during Increased Dietary Potassium Intake.
    Wu P, Gao ZX, Zhang DD, Su XT, Wang WH, Lin DH.
    J Am Soc Nephrol; 2019 Aug 01; 30(8):1425-1438. PubMed ID: 31239388
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  • 17. NBCe1-A is required for the renal ammonia and K+ response to hypokalemia.
    Lee HW, Harris AN, Romero MF, Welling PA, Wingo CS, Verlander JW, Weiner ID.
    Am J Physiol Renal Physiol; 2020 Feb 01; 318(2):F402-F421. PubMed ID: 31841393
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  • 18. Defective natriuresis contributes to hyperkalemia in db/db mice during potassium supplementation.
    Shu TT, Gao ZX, Mao ZH, Yang YY, Fu WJ, Pan SK, Zhao QQ, Liu DW, Liu ZS, Wu P.
    J Hypertens; 2024 Sep 01; 42(9):1632-1640. PubMed ID: 38780161
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  • 19. Responses of distal nephron Na+ transporters to acute volume depletion and hyperkalemia.
    Frindt G, Yang L, Uchida S, Weinstein AM, Palmer LG.
    Am J Physiol Renal Physiol; 2017 Jul 01; 313(1):F62-F73. PubMed ID: 28356292
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  • 20. Role of WNK4 and kidney-specific WNK1 in mediating the effect of high dietary K+ intake on ROMK channel in the distal convoluted tubule.
    Wu P, Gao ZX, Su XT, Ellison DH, Hadchouel J, Teulon J, Wang WH.
    Am J Physiol Renal Physiol; 2018 Aug 01; 315(2):F223-F230. PubMed ID: 29667910
    [Abstract] [Full Text] [Related]

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