TY - JOUR
T1 - Exome sequencing in Jewish and Arab patients with rhabdomyolysis reveals single-gene etiology in 43% of cases
AU - Vivante, Asaf
AU - Ityel, Hadas
AU - Pode-Shakked, Ben
AU - Chen, Jing
AU - Shril, Shirlee
AU - van der Ven, Amelie T.
AU - Mann, Nina
AU - Schmidt, Johanna Magdalena
AU - Segel, Reeval
AU - Aran, Adi
AU - Zeharia, Avraham
AU - Staretz-Chacham, Orna
AU - Bar-Yosef, Omer
AU - Raas-Rothschild, Annick
AU - Landau, Yuval E.
AU - Lifton, Richard P.
AU - Anikster, Yair
AU - Hildebrandt, Friedhelm
N1 - Publisher Copyright:
© 2017, IPNA.
PY - 2017/12/1
Y1 - 2017/12/1
N2 - Background: Rhabdomyolysis is a clinical emergency that may cause acute kidney injury (AKI). It can be acquired or due to monogenic mutations. Around 60 different rare monogenic forms of rhabdomyolysis have been reported to date. In the clinical setting, identifying the underlying molecular diagnosis is challenging due to nonspecific presentation, the high number of causative genes, and current lack of data on the prevalence of monogenic forms. Methods: We employed whole exome sequencing (WES) to reveal the percentage of rhabdomyolysis cases explained by single-gene (monogenic) mutations in one of 58 candidate genes. We investigated a cohort of 21 unrelated families with rhabdomyolysis, in whom no underlying etiology had been previously established. Results: Using WES, we identified causative mutations in candidate genes in nine of the 21 families (43%). We detected disease-causing mutations in eight of 58 candidate genes, grouped into the following categories: (1) disorders of fatty acid metabolism (CPT2), (2) disorders of glycogen metabolism (PFKM and PGAM2), (3) disorders of abnormal skeletal muscle relaxation and contraction (CACNA1S, MYH3, RYR1 and SCN4A), and (4) disorders of purine metabolism (AHCY). Conclusions: Our findings demonstrate a very high detection rate for monogenic etiologies using WES and reveal broad genetic heterogeneity for rhabdomyolysis. These results highlight the importance of molecular genetic diagnostics for establishing an etiologic diagnosis. Because these patients are at risk for recurrent episodes of rhabdomyolysis and subsequent risk for AKI, WES allows adequate prophylaxis and treatment for these patients and their family members and enables a personalized medicine approach.
AB - Background: Rhabdomyolysis is a clinical emergency that may cause acute kidney injury (AKI). It can be acquired or due to monogenic mutations. Around 60 different rare monogenic forms of rhabdomyolysis have been reported to date. In the clinical setting, identifying the underlying molecular diagnosis is challenging due to nonspecific presentation, the high number of causative genes, and current lack of data on the prevalence of monogenic forms. Methods: We employed whole exome sequencing (WES) to reveal the percentage of rhabdomyolysis cases explained by single-gene (monogenic) mutations in one of 58 candidate genes. We investigated a cohort of 21 unrelated families with rhabdomyolysis, in whom no underlying etiology had been previously established. Results: Using WES, we identified causative mutations in candidate genes in nine of the 21 families (43%). We detected disease-causing mutations in eight of 58 candidate genes, grouped into the following categories: (1) disorders of fatty acid metabolism (CPT2), (2) disorders of glycogen metabolism (PFKM and PGAM2), (3) disorders of abnormal skeletal muscle relaxation and contraction (CACNA1S, MYH3, RYR1 and SCN4A), and (4) disorders of purine metabolism (AHCY). Conclusions: Our findings demonstrate a very high detection rate for monogenic etiologies using WES and reveal broad genetic heterogeneity for rhabdomyolysis. These results highlight the importance of molecular genetic diagnostics for establishing an etiologic diagnosis. Because these patients are at risk for recurrent episodes of rhabdomyolysis and subsequent risk for AKI, WES allows adequate prophylaxis and treatment for these patients and their family members and enables a personalized medicine approach.
KW - Acute kidney injury
KW - Monogenic diseases
KW - Rhabdomyolysis
KW - Whole exome sequencing
UR - http://www.scopus.com/inward/record.url?scp=85026804039&partnerID=8YFLogxK
U2 - 10.1007/s00467-017-3755-8
DO - 10.1007/s00467-017-3755-8
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C2 - 28779239
AN - SCOPUS:85026804039
SN - 0931-041X
VL - 32
SP - 2273
EP - 2282
JO - Pediatric Nephrology
JF - Pediatric Nephrology
IS - 12
ER -