A cryptic splicing mutation in the INF2 gene causing Charcot‐Marie‐Tooth disease with minimal glomerular dysfunction

Heterozygous mutations in the inverted formin‐2 ( INF2 ) gene provoke focal segmental glomerulosclerosis (FSGS) and intermediate Charcot‐Marie‐Tooth (CMT) disease with FSGS. Here, we report four patients from a three‐generation family with a new cryptic splicing INF2 mutation causing autosomal dominant intermediate CMT with minimal glomerular dysfunction. Three males and one female with a mean age of 51 years (26‐87) presented with a slowly progressive sensorimotor polyneuropathy, pes cavus, and kyphoscoliosis. Mean age at CMT disease onset was 11.5 years (3‐17), and electrophysiological studies showed demyelinating and axonal features consistent with intermediate CMT. Plasma albumin and creatinine were normal in all four cases, and urine protein was normal in one case and mildly raised in three patients (mean: 0.32 g/L [0.18‐0.44], N < 0.14). Genetic analysis found a c.271C > G (p. Arg91Gly) variation in INF2 exon 2, and in vitro splicing assays showed the deletion of the last 120 nucleotides of INF2 exon 2 leading to a 40 amino acids in‐frame deletion (p. Arg91_p. Gln130del). This report expands the genetic spectrum of INF2 ‐associated disorders and demonstrates that INF2 mutations may provoke isolated CMT with no clinically relevant kidney involvement. Consequently, INF2 mutation analysis should not be restricted to individuals with coincident neuropathy and renal disease.