A chorea-acanthocytosis patient with novel mutations in the VPS13A gene without acanthocyte.

Chorea-acanthocytosis (ChAc) is a rare clinical genetic disorder of the nervous system, which is characterized by choreiform movement disorder, cognitive decline, and psychiatric disorders. ChAc is mostly diagnosed based on its typical clinical manifestations and the increased number of acanthocytes in peripheral blood smears. Here, we report a patient, who has the characteristic clinical manifestations of ChAc with limb choreiform movements, involuntary lip and tongue bites, seizures, and emotional instability. However, her blood smear was negative for acanthocytes with scanning electron microscopy. We later identified two novel pathogenic mutations in the patient's vacuolar protein sorting homolog 13 A (VPS13A) on chromosome 9q21 by targeted gene sequencing, and she was definitively diagnosed with "ChAc." After treatment with carbamazepine, haloperidol, the patient's symptoms gradually improved. We consider that an acanthocyte negative blood smear cannot rule out ChAC diagnosis, and genetic testing is the "gold standard" for the diagnosis. Through a review of previous research, it is rare for a patient to have a clear diagnosis of ChAc by genetic testing, but whose blood smear is negative for acanthocytes with electron microscopy. In addition, in this report, we discovered two novel pathogenic mutations, which have not been reported previously, and extended the genetic characteristics of ChAc.

A patient carrying a heterozygous p.Asn267Ser TARDBP missense mutation diagnosed as ALS and only involving lower motor neurons.

Amyotrophic lateral sclerosis (ALS) is a rare neurodegenerative disease involving upper motor neurons (UMN) and lower motor neurons (LMN), which can be caused by mutations of pathogenic genes such as superoxide dismutase 1 (SOD1), sarcoma fusion (FUS), and TAR-DNA binding protein (TARBDP/TDP-43). Among these pathogenic genes, TARBDP mutation accounts for approximately 1% of sporadic ALS (sALS). The clinical phenotype of ALS is heterogeneous owing to different mutant genes and sites. Here, we report a case of sALS from China, the pathogenic site (c.800A > G) of TARDBP in this patient was identified by whole-exome sequencing. But his clinical symptoms involve only the LMN, presented with progressive limb weakness, and dyspnea, without obvious limb muscle atrophy. We considered this patient as a possible LMN-dominant ALS variant and this report further explores the genotype-phenotype correlations of ALS10. Furthermore, interestingly, the pathogenic site in this person was previously reported in a Parkinson's disease (PD) patient and frontotemporal dementia (FTD) patient. Our findings illustrate the clinical heterogeneity and the types of diseases which carry p.Asn267Ser TDP-43 mutation were broadened furtherly. Meanwhile, considering that the range of neurodegenerative diseases associated with this mutant site may be expanding, the mechanism of different neurodegenerative changes mediated by the same pathogenic site still needs to be further studied.