👤 Yukiko Muramatsu

The global distribution of lipoprotein(a) [Lp(a)] levels varies due to racial and ethnic differences. However, the clinical relevance of Lp(a) levels in Japanese patients has not been fully explored. We investigated the association of Lp(a) levels, the Suita score, and the presence of high-risk plaque (HRP) as well as that of ≥ 50% stenosis, quantitative plaque volume, and the value of coronary artery calcium score in coronary computed tomographic angiography (CCTA), among 272 Japanese patients (mean age: 65 years) in whom serum Lp(a) levels were measured due to suspected coronary artery disease. HRP was defined as positive remodeling and/or low attenuation. Plaque volume was quantified as the percent plaque volume. HRP was identified in 33 (12.1%) patients. The prevalence of HRP, ≥ 50% stenosis, and percent plaque volume progressively increased with higher Lp (a) levels and Suita scores. In multivariate analyses, Lp(a) and the Suita score independently predicted HRP when assessed as continuous (p = 0.02, p＜0.001, respectively) or categorical variables (p = 0.005, p = 0.007, respectively). Patients in the highest tertile of Lp(a) and classified as high- or intermediate-risk by the Suita score had the highest HRP risk, whereas those in the lower 2 tertiles and low-risk group had the lowest. Incorporating Lp(a) into the Suita score improved the prediction of HRP beyond the Suita score alone (p = 0.005). The combinatorial value of assessing Lp(a) levels and Suita score may provide useful insight regarding Japanese patients undergoing CCTA for the prediction of HRP. Show less

Expression of intragenic exon rearrangements (IERs) has reportedly been detected in both normal and cancer cells. However, there have been few reports of occurrence of these rearrangements specific to neoplasms including malignant lymphoma. In this study, we detected IERs of ten genes (NBPF8, SOBP, AUTS2, RAB21, SPATA13, ABCC4, WDR7, PHLPP1, NFATC1 and MAGED1) in non-Hodgkin B cell lymphoma (B-NHL) cell line KPUM-UH1 using a high-resolution single nucleotide polymorphism array and reverse transcription polymerase chain reaction using reversely directed divergent primers within exons involved in genomic intragenic gains followed by sequencing analysis. Among them, the IERs involved in SOBP (6q21) exon 2 and 3 and AUTS2 (7q11.22) exon 2-4 were the molecular lesions specific to tumors and were frequently detected in B-NHL samples. These IERs constitute novel genetic alterations of B-NHL, which might be associated with tumorigenesis and be useful as genetic biological markers. Show less

Neuronal ceroid lipofuscinoses (NCLs; CLN) are mainly autosomal recessive neurodegenerative disorders characterized by the accumulation of autofluorescent lipopigments in neuronal and other cells. Symptoms include visual disabilities, motor decline, and epilepsy. Causative genes are CLN1, CLN2, CLN3, CLN5, CLN6, CLN7, CLN8, CLN10, CLN11, CLN12, CLN13, and CLN14. We present the fourth Japanese case with a CLN6 mutation. At 3 years of age, our patient became clumsy and fell down easily. He developed focal seizures with impaired consciousness and was started on carbamazepine. He showed ataxic walking and dysarthria with increased deep tendon reflexes. Interictal electroencephalogram revealed slow waves in the left temporal and occipital areas. Brain magnetic resonance imaging showed cerebellar atrophy and ventriculomegaly. In optical coherence tomography (OCT), the inner layer of the retina was thick and highly reflective. Exome sequencing revealed a known homozygous mutation, C.794₉₇₆del, p. (Ser265del) in CLN6. A total of 130 cases of NCL with CLN6 mutations have been reported globally, of which only four were from Japan including the current patient. The deletion of serine at position 265 has been reported in six cases. Ser265 is located in a region of short repeated sequences that is susceptible to mutation. Clinical trials of gene therapy using adeno-associated virus serotype 9 have started for NCL6, making early diagnosis crucial. OCT examination might be helpful in achieving a diagnosis. Show less

Donor cell leukemia (DCL) occurs after allogeneic hematopoietic stem cell transplantation. Several mechanisms, including occult leukemic/preleukemic subclones in the donor graft and germline predisposition to leukemia, are proposed to be associated with DCL's molecular pathogenesis. We report a comprehensive genetic analysis of a patient with KMT2A-rearranged DCL after allogeneic bone marrow transplantation for refractory cytopenia of childhood. We performed a whole-exome sequencing of the recipient's peripheral blood before transplant and the donor's peripheral blood and the recipient's bone marrow at the time of DCL diagnosis. RNA sequencing was also performed to detect fusion genes in DCL blasts. There were no germline mutations that were associated with a predisposition to leukemia in the recipient and donor. Furthermore, there were no detectable somatic alterations except KMT2A-MLLT10 and other related gene fusions in DCL. KMT2A-MLLT10 was not detectable in the donor's bone marrow. We propose a novel pattern of the molecular pathogenesis of DCL solely involving a genetic mutation acquired after transplant with no identifiable genetic factor related to the donor and recipient. Show less

Tankyrase, a PARP that promotes telomere elongation and Wnt/β-catenin signaling, has various binding partners, suggesting that it has as-yet unidentified functions. Here, we report that the tankyrase-binding protein TNKS1BP1 regulates actin cytoskeleton and cancer cell invasion, which is closely associated with cancer progression. TNKS1BP1 colocalized with actin filaments and negatively regulated cell invasion. In TNKS1BP1-depleted cells, actin filament dynamics, focal adhesion, and lamellipodia ruffling were increased with activation of the ROCK/LIMK/cofilin pathway. TNKS1BP1 bound the actin-capping protein CapZA2. TNKS1BP1 depletion dissociated CapZA2 from the cytoskeleton, leading to cofilin phosphorylation and enhanced cell invasion. Tankyrase overexpression increased cofilin phosphorylation, dissociated CapZA2 from cytoskeleton, and enhanced cell invasion in a PARP activity-dependent manner. In clinical samples of pancreatic cancer, TNKS1BP1 expression was reduced in invasive regions. We propose that the tankyrase-TNKS1BP1 axis constitutes a posttranslational modulator of cell invasion whose aberration promotes cancer malignancy. Show less

Human mutations in PQBP1, a molecule involved in transcription and splicing, result in a reduced but architecturally normal brain. Examination of a conditional Pqbp1-knockout (cKO) mouse with microcephaly failed to reveal either abnormal centrosomes or mitotic spindles, increased neurogenesis from the neural stem progenitor cell (NSPC) pool or increased cell death in vivo. Instead, we observed an increase in the length of the cell cycle, particularly for the M phase in NSPCs. Corresponding to the developmental expression of Pqbp1, the stem cell pool in vivo was decreased at E10 and remained at a low level during neurogenesis (E15) in Pqbp1-cKO mice. The expression profiles of NSPCs derived from the cKO mouse revealed significant changes in gene groups that control the M phase, including anaphase-promoting complex genes, via aberrant transcription and RNA splicing. Exogenous Apc4, a hub protein in the network of affected genes, recovered the cell cycle, proliferation, and cell phenotypes of NSPCs caused by Pqbp1-cKO. These data reveal a mechanism of brain size control based on the simple reduction of the NSPC pool by cell cycle time elongation. Finally, we demonstrated that in utero gene therapy for Pqbp1-cKO mice by intraperitoneal injection of the PQBP1-AAV vector at E10 successfully rescued microcephaly with preserved cortical structures and improved behavioral abnormalities in Pqbp1-cKO mice, opening a new strategy for treating this intractable developmental disorder. Show less

Although the expression of hepatic lipogenic genes is enhanced in insulin resistance, the underlying mechanism is unclear. To reveal the details, the aim of this study was to investigate whether the expression of hepatic lipogenic genes are mediated by epigenetic regulation and specific transcription factors in an insulin resistance model of rats. Using a rat model of insulin resistance (SHR/NDmc-cp), we investigated the relationship between hepatic expression of the lipogenic gene fatty-acid synthase (Fasn), binding of the transcription factor carbohydrate-responsive element-binding protein (ChREBP) to the Fasn gene, and histone modifications in the region of the Fasn gene by real-time reverse transcriptase polymerase chain reaction, immunoblotting, and chromatin immunoprecipitation assay. Compared with control rats, Fasn mRNA expression and protein levels were higher in the livers of SHR/NDmc-cp rats, as were protein expression levels and Fasn binding of ChREBP and RNA polymerase II. Moreover, compared with the livers of control rats, levels of mono-methylated histone H3 lysine (K) 4 and acetylated histone H4 were higher in the promoter/enhancer region of the Fasn gene in the livers of SHR/NDmc-cp rats. Levels of trimethylated histone H3K4 and acetylated histone H3 were higher in the transcribed region. The results of this study indicate that expression of the Fasn gene in the livers of insulin-resistant rats is associated with increased H3K4 methylation, increased histone H3 acetylation, and increased H4 acetylation, and also, binding levels of ChREBP to promoter/enhancer region of Fasn gene is involved in the Fasn gene expression caused by hyperglycemia. Show less

Transient abnormal myelopoiesis (TAM) is a myeloid proliferation resembling acute megakaryoblastic leukemia (AMKL), mostly affecting perinatal infants with Down syndrome. Although self-limiting in a majority of cases, TAM may evolve as non-self-limiting AMKL after spontaneous remission (DS-AMKL). Pathogenesis of these Down syndrome-related myeloid disorders is poorly understood, except for GATA1 mutations found in most cases. Here we report genomic profiling of 41 TAM, 49 DS-AMKL and 19 non-DS-AMKL samples, including whole-genome and/or whole-exome sequencing of 15 TAM and 14 DS-AMKL samples. TAM appears to be caused by a single GATA1 mutation and constitutive trisomy 21. Subsequent AMKL evolves from a pre-existing TAM clone through the acquisition of additional mutations, with major mutational targets including multiple cohesin components (53%), CTCF (20%), and EZH2, KANSL1 and other epigenetic regulators (45%), as well as common signaling pathways, such as the JAK family kinases, MPL, SH2B3 (LNK) and multiple RAS pathway genes (47%). Show less

To identify genes with pluripotent state-specific expression in embryonic stem (ES) cells, we compared gene expression profiles between undifferentiated and differentiated mouse ES cells using DNA microarrays. Among the numerous genes identified, we focused on dual specificity phosphatase 6 (DUSP6), which had previously been shown to be expressed in undifferentiated human ES cells. We have identified and characterized a regulatory enhancer that we have termed PEDRE that controls pluripotent state-specific expression of DUSP6. This 82-base pair enhancer overlaps with, but is distinct from, a recently identified regulatory element that is regulated by the FGF-ERK pathway. The sequence of PEDRE is 100% identical between mouse and human DUSP6, suggesting that the molecular basis of DUSP6 gene expression in undifferentiated state of ES cells is highly conserved during evolution. Show less