2023
SLC26A1 is a major determinant of sulfate homeostasis in humans
Pfau A, López-Cayuqueo K, Scherer N, Wuttke M, Wernstedt A, Fassrainer D, Smith D, van de Kamp J, Ziegeler K, Eckardt K, Luft F, Aronson P, Köttgen A, Jentsch T, Knauf F. SLC26A1 is a major determinant of sulfate homeostasis in humans. Journal Of Clinical Investigation 2023, 133: e161849. PMID: 36719378, PMCID: PMC9888379, DOI: 10.1172/jci161849.Peer-Reviewed Original ResearchConceptsSulfate homeostasisIntervertebral disc disordersWhole-exome sequencingMajor determinantBack painPatient presentingMusculoskeletal healthDisc disordersPlasma sulfateSulfate reabsorptionFunctional expression assaysCartilage healthHomozygous mutationPotential targetPopulation studiesNumerous physiological processesRecent evidenceExome analysisHomeostasisHyposulfatemiaExpression assaysPivotal roleClinical geneticsAdditional variantsHumans
2007
Specificity and Regulation of Renal Sulfate Transporters
Markovich D, Aronson PS. Specificity and Regulation of Renal Sulfate Transporters. Annual Review Of Physiology 2007, 69: 361-375. PMID: 17002596, DOI: 10.1146/annurev.physiol.69.040705.141319.Peer-Reviewed Reviews, Practice Guidelines, Standards, and Consensus StatementsConceptsProximal tubulesSulfate reabsorptionProximal tubular cellsRenal expressionApical membraneKnockout mouse studiesTubular cellsNet reabsorptionNaCl reabsorptionMouse studiesMajor roleReabsorptionSulfate homeostasisCFEXKidneyFamily membersPhysiological roleCurrent dataNormal cellular functionBasolateral membraneTubulesSLC26 family members