Alterations of vacuolar protein sorting-associated protein 13 (VPS13) family members including VPS13A, VPS13B, and VPS13C lead to chorea acanthocytosis, Cohen syndrome, and parkinsonism, respectively. Show more
Alterations of vacuolar protein sorting-associated protein 13 (VPS13) family members including VPS13A, VPS13B, and VPS13C lead to chorea acanthocytosis, Cohen syndrome, and parkinsonism, respectively. Recently, VPS13D mutations were identified as a cause of VPS13D-related movement disorders, which show several phenotypes including chorea, dystonia, spastic ataxia, and spastic paraplegia. We applied whole-exome analysis for a patient with a complicated form of hereditary spastic paraplegia (HSP) and her unaffected parents. Then, we screened the candidate genes in 664 Japanese families with HSP in Japan. We first found a compound heterozygote VPS13D mutation and a heterozygote ABHD4 variation in a sporadic patient with spastic paraplegia. Then, we found three patients with VPS13D mutations in two Japanese HSP families. The three patients with homozygous mutations (p.Thr1118Met/p.Thr1118Met and p.Thr2945Ala/p.Thr2945Ala) in the VPS13D showed an adult onset pure form of HSP. Meanwhile, the patient with a compound heterozygous mutation (p.Ser405Arg/p.Arg3141Ter) in the VPS13D showed a childhood onset complicated form of HSP associated with cerebellar ataxia, cervical dystonia, cataracts, and chorioretinal dystrophy. In the present study, we found four patients in three Japanese families with novel VPS13D mutations, which may broaden the clinical and genetic findings for VPS13D-related disorders. Show less
Neural precursor cells proliferate in the ventricular zone while giving rise to neurons of deep layers first, then those of the superficial layers, and lastly, glial cells in the brain. Thus, it is es Show more
Neural precursor cells proliferate in the ventricular zone while giving rise to neurons of deep layers first, then those of the superficial layers, and lastly, glial cells in the brain. Thus, it is essential to maintain neural precursor cells until late stages of neural development for generation of a wide variety of cell types. Here, we found that the Hes-related basic helix-loop-helix (bHLH) genes Hesr1/Hey1 and Hesr2/Hey2 are expressed in the ventricular zone, which contains neural precursor cells. Misexpression of Hesr1 and Hesr2 by electroporation in mouse brain at embryonic day 13.5 transiently maintains neural precursor cells and thereby increases late-born neurons, which are located in the superficial layers. In contrast, misexpression of the genes at later stages inhibits neurogenesis and promotes generation of astroglial cells. In transient transfection assay with cultured cells, both Hesr1 and Hesr2 inhibit transcription induced by the neuronal bHLH genes Mash1 and Math3. These results indicate that Hesr1 and Hesr2 negatively regulate neuronal bHLH genes, promote maintenance of neural precursor cells, and increase late-born cell types in the developing brain. Show less