Portales-Castillo Ignacio, Singal Rhea, Ambrose Anastasia, Song Jong Hee, Son Minsoo, Goo Young Ah, Zhou Wen, Traum Avram Z, Coler-Reilly Ariella, Humphreys Benjamin D, Civitelli Roberto, Jüppner Harald, Lundquist Andrew L, Seres Peter, Allegretti Andrew S, Mercimek-Andrews Saadet
Department of Medicine, Division of Nephrology Washington University in St. Louis St. Louis Missouri USA.
Bone and Mineral Division Washington University in St. Louis St. Louis Missouri USA.
JIMD Rep. 2024 Aug 19;65(5):341-353. doi: 10.1002/jmd2.12442. eCollection 2024 Sep.
Autosomal dominant Fanconi syndrome due to a 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 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 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 . Two affected individuals in both families had moderately reduced plasma GAA levels. In comparison to wild-type cells, GAA synthesis by patient-derived lymphoblastoid cell lines (LCL) was reduced, but not absent as in 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.
由一种变异(GATM-FS)导致的常染色体显性范科尼综合征,会使错误折叠的精氨酸-甘氨酸脒基转移酶(AGAT)在近端肾小管中蓄积,从而导致细胞损伤。GATM-FS在儿童期发病,成年后会进展为终末期肾病(ESKD)。我们研究了两个无关家族中已知存在该变异的个体的肌酸代谢情况,以及肌酸补充剂对肾类器官的影响。通过质谱法测量血浆和尿液中的代谢物。通过磁共振波谱(MRS)评估脑肌酸。使用精氨酸和甘氨酸的稳定同位素,在患者来源的永生化淋巴细胞中测量AGAT突变体的胍基乙酸(GAA)合成。在人肾细胞和类器官中评估肌酸对表达的影响。两个无关家族的几名家庭成员被诊断患有范科尼综合征,并且在中存在c.1022C>T(p.P341L)变异。两个家族中的两名受影响个体的血浆GAA水平中度降低。与野生型细胞相比,患者来源的淋巴母细胞系(LCL)的GAA合成减少,但不像肌酸缺乏综合征患者的细胞那样完全缺失。对人肾类器官的体外研究表明,用肌酸处理后AGAT表达降低。最后,我们在一名患者中发现,补充肌酸(每日5克)可显著提高血浆肌酸水平。我们报告了常染色体显性GATM-FS患者的血浆和尿液GAA水平较低,并表明肌酸可下调人肾细胞中的AGAT。
