Reduced guanidinoacetate in plasma of patients with autosomal dominant Fanconi syndrome due to heterozygous P341L GATM variant and study of organoids towards treatment
Ignacio Portales‐Castillo,
Rhea Singal,
Anastasia Ambrose,
Jong Hee Song,
Minsoo Son,
Young Ah. Goo,
Wen Zhou,
Avram Z. Traum,
Ariella Coler‐Reilly,
Benjamin D. Humphreys,
Roberto Civitelli,
Harald Jüppner,
Andrew L. Lundquist,
Peter Seres,
Andrew S. Allegretti,
Saadet Mercimek‐Andrews
Affiliations
Ignacio Portales‐Castillo
Department of Medicine, Division of Nephrology Washington University in St. Louis St. Louis Missouri USA
Rhea Singal
Bone and Mineral Division Washington University in St. Louis St. Louis Missouri USA
Anastasia Ambrose
Department of Medical Genetics Faculty of Medicine and Dentistry University of Alberta Edmonton Alberta Canada
Jong Hee Song
Mass Spectrometry Technology Access Center at the McDonnell Genome Institute Washington University School of Medicine St. Louis Missouri USA
Minsoo Son
Mass Spectrometry Technology Access Center at the McDonnell Genome Institute Washington University School of Medicine St. Louis Missouri USA
Young Ah. Goo
Mass Spectrometry Technology Access Center at the McDonnell Genome Institute Washington University School of Medicine St. Louis Missouri USA
Wen Zhou
Endocrine Unit Massachusetts General Hospital, and Harvard Medical School Boston Massachusetts USA
Avram Z. Traum
Division of Nephrology Boston Children's Hospital, Harvard Medical School Boston Massachusetts USA
Ariella Coler‐Reilly
Bone and Mineral Division Washington University in St. Louis St. Louis Missouri USA
Benjamin D. Humphreys
Department of Medicine, Division of Nephrology Washington University in St. Louis St. Louis Missouri USA
Roberto Civitelli
Bone and Mineral Division Washington University in St. Louis St. Louis Missouri USA
Harald Jüppner
Endocrine Unit Massachusetts General Hospital, and Harvard Medical School Boston Massachusetts USA
Andrew L. Lundquist
Division of Nephrology Massachusetts General Hospital, Harvard Medical School Boston Massachusetts USA
Peter Seres
Department of Radiology and Diagnostic Imaging, Faculty of Medicine and Dentistry University of Alberta Edmonton Alberta Canada
Andrew S. Allegretti
Division of Nephrology Massachusetts General Hospital, Harvard Medical School Boston Massachusetts USA
Saadet Mercimek‐Andrews
Department of Medical Genetics Faculty of Medicine and Dentistry University of Alberta Edmonton Alberta Canada
Abstract Autosomal dominant Fanconi syndrome due to a GATM variant (GATM‐FS), causes accumulation of misfolded arginine‐glycine amidinotransferase (AGAT) in proximal renal tubules leading to cellular injury. GATM‐FS presents during childhood and progresses to end‐stage kidney disease (ESKD) in adults. We study creatine metabolism in two individuals of unrelated families with a known GATM variant and the effect of creatine supplementation in kidney organoids. Plasma and urine metabolites were measured by mass spectrometry. Brain creatine was assessed by magnetic resonance spectroscopy (MRS). Guanidinoacetate (GAA) synthesis by the AGAT mutant was measured in patient‐derived immortalized lymphocytes using stable isotopes of arginine and glycine. The effect of creatine on GATM expression was assessed in human kidney cells and organoids. Several family members from two unrelated families were diagnosed with Fanconi syndrome and had the c.1022C>T (p. P341L) variant in GATM. Two affected individuals in both families had moderately reduced plasma GAA levels. In comparison to wild‐type cells, GAA synthesis by patient‐derived GATMP341L+/− lymphoblastoid cell lines (LCL) was reduced, but not absent as in GATM cells from a patient with creatine deficiency syndrome. In vitro studies on human kidney organoids revealed reduced AGAT expression after treatment with creatine. Finally, we showed in one patient that creatine supplementation (5 g daily) substantially increased plasma creatine levels. We report low plasma and urine GAA in patients with autosomal dominant GATM‐FS and show that creatine downregulates AGAT in human kidney cells.
