👤 Hisako Yanagi

Neuromuscular scoliosis is associated with cerebral palsy caused by metabolic diseases. Patients with scoliosis require meticulous consideration in abdominal surgery, as scoliosis can reduce the abdominal cavity volume, compress abdominal organs, and cause abdominal complications. Special attention should be paid to the graft position, especially in the setting of liver transplantation (LT). We herein describe a pediatric case of LT for carbamoyl phosphate synthetase I (CPS1) deficiency with severe scoliosis. A 13-year-old girl with CPS1 deficiency was transferred to our department as a candidate for liver transplantation. She underwent living donor liver transplantation with a left lobe from her mother. Following LT, portal vein (PV) complications occurred due to the kinking anastomosis, requiring several rounds of graft repositioning, PV reconstruction, thrombectomy, and finally stent placement due to severe scoliosis. Technical efforts were made to ensure PV blood flow with stent placement via the umbilical vein. Three months after LT, she was discharged from our hospital with sufficient PV flow. This report suggests the need for a careful surgical approach in patients with skeletal abnormalities, such as the management of complications arising from anatomical abnormalities and selection of the appropriate graft size. Preoperative assessment and surgical planning of both donors and recipients according to patient characteristics should be carefully conducted. Show less

Mitochondrial pathophysiology is implicated in the development of Alzheimer's disease (AD). An integrative database of gene dysregulation suggests that the mitochondrial ubiquitin ligase MITOL/MARCH5, a fine-tuner of mitochondrial dynamics and functions, is downregulated in patients with AD. Here, we report that the perturbation of mitochondrial dynamics by MITOL deletion triggers mitochondrial impairments and exacerbates cognitive decline in a mouse model with AD-related Aβ pathology. Notably, MITOL deletion in the brain enhanced the seeding effect of Aβ fibrils, but not the spontaneous formation of Aβ fibrils and plaques, leading to excessive secondary generation of toxic and dispersible Aβ oligomers. Consistent with this, MITOL-deficient mice with Aβ etiology exhibited worsening cognitive decline depending on Aβ oligomers rather than Aβ plaques themselves. Our findings suggest that alteration in mitochondrial morphology might be a key factor in AD due to directing the production of Aβ form, oligomers or plaques, responsible for disease development. Show less

Age-related macular degeneration (AMD) is a major cause of blindness in the elderly. Previous sequencing studies of AMD susceptibility genes have revealed the association of rare coding variants in CFH, CFI, C3 and C9 in European population; however, the impact of rare or low-frequency coding variants on AMD susceptibility in other populations is largely unknown. To identify the role of low-frequency coding variants on exudative AMD susceptibility in a Japanese population, we analysed the association of coding variants of 34 AMD candidate genes in the two-stage design by a multiplex PCR-based target sequencing method. We used a total of 2,886 (1st: 827, 2nd: 2,059) exudative AMD cases including typical AMD, polypoidal choroidal vasculopathy, and retinal angiomatous proliferation and 9,337 (1st: 3,247 2nd: 6,090) controls. Gene-based analysis found a significant association of low-frequency variants (minor allele frequency (MAF) < 0.05) in CETP, C2 and CFB. The association of CETP remained after conditioned with all known genome-wide association study (GWAS) associated variants. In addition, when we included only disruptive variants, enrichment of rare variants (MAF < 0.01) was also observed after conditioned with all GWAS associated variants (P = 1.03 × 10−6, odds ratio (OR) = 2.48). Haplotype and conditional analysis of the C2-CFB-SKIV2L locus showed a low-frequency variant (R74H) in CFB would be individually associated with AMD susceptibility independent of the GWAS associated SNP. These findings highlight the importance of target sequencing to reveal the impact of rare or low-frequency coding variants on disease susceptibility in different ethnic populations. Show less

Preparing targeted cells for medical applications from human induced pluripotent stem cells (hiPSCs) using growth factors, compounds, or gene transfer has been challenging. Here, we report that human induced hepatic lineage-oriented stem cells (hiHSCs) were generated and expanded as a new type of hiPSC under non-typical coculture with feeder cells in a chemically defined hiPSC medium at a very high density. Self-renewing hiHSCs expressed markers of both human embryonic stem cells (hESCs) and hepatocytes. Those cells were highly expandable, markedly enhancing gene expression of serum hepatic proteins and cytochrome P450 enzymes with the omission of FGF-2 from an undefined hiPSC medium. The hepatic specification of hiHSCs was not attributable to the genetic and epigenetic backgrounds of the starting cells, as they were established from distinct donors and different types of cells. Approximately 90% of hiHSCs autonomously differentiated to hepatocyte-like cells, even in a defined minimum medium without any of the exogenous growth factors necessary for hepatic specification. After 12 days of this culture, the differentiated cells significantly enhanced gene expression of serum hepatic proteins (ALB, SERPINA1, TTR, TF, FABP1, FGG, AGT, RBP4, and AHSG), conjugating enzymes (UGT2B4, UGT2B7, UGT2B10, GSTA2, and GSTA5), transporters (SULT2A1, SLC13A5, and SLCO2B1), and urea cycle-related enzymes (ARG1 and CPS1). In addition, the hepatocyte-like cells performed key functions of urea synthesis, albumin secretion, glycogen storage, indocyanine green uptake, and low-density lipoprotein uptake. The autonomous hepatic specification of hiHSCs was due to their culture conditions (coculture with feeder cells in a defined hiPSC medium at a very high density) in self-renewal rather than in differentiation. These results suggest the feasibility of preparing large quantities of hepatocytes as a convenient and inexpensive hiPSC differentiation. Our study also suggests the necessity of optimizing culture conditions to generate other specific lineage-oriented hiPSCs, allowing for a very simple differentiation. Show less

The purpose of this study was to assess the influence of single nucleotide polymorphism 3 (SNP3) of the apolipoprotein A-V ( APOA5) gene on the serum triglyceride (TG) level in Japanese schoolchildren. To determine the frequency of the genotype, we analyzed 552 schoolchildren. The frequencies of the T/T, T/C and C/C genotypes of the APOA5 gene were 225 (40.8%), 263 (47.6%) and 64 (11.6%), respectively. The serum TG level was significantly different among the genotypic groups after adjustments for age, gender and obesity index (T/T 71.6+/-34.8 mg/dl, T/C 80.7+/-36.1 mg/dl, C/C 94.4+/-69.4 mg/dl, P<0.0001). The odds ratio (95% confidence interval) for hypertriglyceridemia of the C allele was 2.4 (1.0-6.2). Our data suggested that the T/C promoter region polymorphism of the APOA5 gene appears to be a genetic risk factor for hypertriglyceridemia in Japanese children. Show less