👤 Shuto Hirota

Diabetes is an increasingly prevalent global disease and is often accompanied by sarcopenia, particularly in older adults. While insulin resistance is a well-known contributor to muscle loss in diabetes, the role of glucose signaling in diabetic skeletal muscle atrophy, particularly under insulin-deficient conditions, remains poorly understood. This study aimed to elucidate the pathophysiological role of the carbohydrate-responsive element-binding protein (ChREBP), a glucose-sensing transcription factor encoded by the Chrebp gene in mice, in diabetic sarcopenia by generating Chrebp-deficient, insulin-deficient Ins2Akita/+ mice. We evaluated Chrebp +/+, Chrebp -/-, Ins2Akita/+ /Chrebp +/+, and Ins2Akita/+ /Chrebp -/- mice for muscle strength, endurance, survival, body composition, and muscle histology. Skeletal muscles were analyzed for gene expressions related to anabolic and catabolic pathways. We found that Ins2Akita/+ /Chrebp -/- mice exhibited significant reductions in body weight, grip strength, survival, and skeletal muscle mass - particularly in the tibialis anterior, soleus, gastrocnemius, and quadriceps - compared to Ins2Akita/+ controls, despite similar hyperglycemia. Histological analysis revealed a smaller mean muscle fiber size and reduced cross-sectional area of type 2A and 2B fibers, without changes in fiber-type composition. Furthermore, Igf-1 expression was suppressed, while the atrophy marker Fbxo32/Atrogin-1 was upregulated. These findings demonstrate that Chrebp deletion exacerbates muscle atrophy and frailty in insulin-deficient mice, underscoring a key role for ChREBP-mediated glucose signaling in maintaining muscle mass under diabetic conditions. The Ins2Akita/+ /Chrebp -/- model provides a valuable platform for exploring diabetic sarcopenia mechanisms and potential therapeutic targets. Show less

The transition from elementary to junior high school presents developmental challenges, particularly for students with neurodevelopmental traits. This study examined how autism, attention-deficit/hyperactivity disorder (ADHD) traits and effortful control (EC) were related to changes in mental health during this transition in a large Japanese community sample (N = 2,564). This longitudinal study used data from a community-based cohort of Japanese students and their parents/guardians (N = 2,692). Autism traits were measured using the Autism Spectrum Screening Questionnaire (ASSQ). ADHD traits were assessed with the Attention Deficit/Hyperactivity Disorder Rating Scale (ADHD-RS). Effortful control (EC) was evaluated using the "Effortful Control" subscale of the Early Adolescent Temperament Questionnaire-Revised (EATQ-R). Mental health problems were assessed using the Strengths and Difficulties Questionnaire (SDQ) before and after the transition. Generalized estimating equations (GEE) and latent profile analysis (LPA) were conducted to examine associations among autism and ADHD traits, EC, and mental health across the transition. GEE revealed that higher autism and ADHD traits and lower EC predicted more severe mental health problems. The LPA identified three distinct subgroups characterized by high, moderate, and low SDQ scores across the transition. The high-SDQ group showed elevated autism and ADHD traits and low EC, whereas the low-SDQ group showed low auism and ADHD traits and high EC. The moderate group exhibited intermediate levels for all measures. These findings suggest that pre-existing mental health problems tend to persist during the transition period. Importantly, students with higher autism and ADHD traits and lower EC exhibited diverse adaptation patterns-some improved while others worsened-highlighting that high autism traits are not necessarily associated with post-transition mental health deterioration. This underscores the need for support tailored to neurodevelopmental and self-regulatory profiles. Show less

Dual-specificity phosphatase 6 (DUSP6) is a specific phosphatase for mitogen-activated protein kinase (MAPK). This study used a high-fat diet (HFD)-induced murine nonalcoholic fatty liver disease model to investigate the role of DUSP6 in this disease. Wild-type (WT) and Dusp6-haploinsufficiency mice developed severe obesity and liver pathology consistent with nonalcoholic fatty liver disease when exposed to HFD. In contrast, Dusp6-knockout (KO) mice completely eliminated these phenotypes. Furthermore, primary hepatocytes isolated from WT mice exposed to palmitic and oleic acids exhibited abundant intracellular lipid accumulation, whereas hepatocytes from Dusp6-KO mice showed minimal lipid accumulation. Transcriptome analysis revealed significant down-regulation of genes encoding cytochrome P450 4A (CYP4A), known to promote ω-hydroxylation of fatty acids and hepatic steatosis, in Dusp6-KO hepatocytes compared with that in WT hepatocytes. Diminished CYP4A expression was observed in the liver of Dusp6-KO mice compared with WT and Dusp6-haploinsufficiency mice. Knockdown of DUSP6 in HepG2, a human liver-lineage cell line, also promoted a reduction of lipid accumulation, down-regulation of CYP4A, and up-regulation of phosphorylated/activated MAPK. Furthermore, inhibition of MAPK activity promoted lipid accumulation in DUSP6-knockdown HepG2 cells without affecting CYP4A expression, indicating that CYP4A expression is independent of MAPK activation. These findings highlight the significant role of DUSP6 in HFD-induced steatohepatitis through two distinct pathways involving CYP4A and MAPK. Show less

Hypertrophic cardiomyopathy (HCM) is mainly caused by mutations in sarcomere genes. Regarding the clinical implications of genetic information, little is known about the lifelong clinical effect of sarcomere mutations in Japanese HCM patients. We studied 211 consecutive Japanese patients with HCM who had agreed to genetic testing between 2003 and 2013. Genetic analyses were performed by direct DNA sequencing in the 6 common sarcomere genes (MYH7,MYBPC3,TNNT2,TNNI3,TPM1,ACTC). Through variant filtering, 21 mutations were identified in 67 patients. After excluding 8 patients whose variants were determined as having uncertain significance, finally 203 patients (130 men, age at study entry: 61.8±14.1 years) were investigated for clinical presentation and course. At the time of study entry, patients with mutations were younger, had more frequent non-sustained ventricular tachycardia, had greater interventricular wall thickness, were more frequently in the dilated phase and less frequently had apical HCM. Through their lifetimes, a total of 98 HCM-related morbid events occurred in 72 patients. Survival analysis revealed that patients with sarcomere gene mutations experienced those morbid events significantly more frequently, and this tendency was more prominent for lethal arrhythmic events. In our HCM cohort, patients with sarcomere gene mutations had poorer lifelong outcome. Genetic information is considered important for better management of HCM. Show less

Although gender may be one of the important factors modifying phenotypic expression in hypertrophic cardiomyopathy (HCM), there has been little information on it. We investigated gender differences in the clinical features of HCM caused by cardiac myosin-binding protein C gene (MYBPC3) mutations. Sixty-one subjects (28 families) carrying MYBPC3 mutations were studied. Of the 61 subjects with MYBPC3 mutations, 50 patients including 23 female patients were phenotype-positive by echocardiography. Disease penetrance in subjects aged ≤40 years old was 92% in males and 67% in females. Females showed delayed onset of left ventricular hypertrophy compared with males in subjects who were genotype-positive. Female patients were more symptomatic at diagnosis than were males (mean New York Heart Association class: 1.7±0.8 versus 1.2±0.4, p=0.012). From a longitudinal point of view by age, no significant gender difference in cardiovascular deaths or cardiovascular events was found. During the follow-up period after diagnosis of HCM (13±8 years), female patients who were phenotype-positive had significantly more frequent heart failure events than did phenotypically affected male patients (p=0.028). Although females with MYBPC3 mutations showed later onset of the disease, female patients were more symptomatic at diagnosis and had more frequent heart failure events once they had developed hypertrophy. Show less

The aim of the present study was to explore the role of variations with modest effects (previously identified by a large-scale meta-analysis in European populations) in the genetic background of type 2 diabetes (T2D) and diabetes-related traits in a Japanese population. We enrolled 2632 Japanese subjects with T2D and 2050 non-diabetic subjects. We analyzed nine single-nucleotide polymorphisms (SNPs), including rs340874 (PROX1), rs4607517 (GCK), rs2191349 (DGKB-TMEM195), rs7034200 (GLIS3), rs10885122 (ADRA2A), rs174550 (FADS1), rs11605924 (CRY2), rs10830963 (MTNR1B) and rs35767 (IGF1). rs340874 (PROX1) and rs174550 (FADS1) were significantly associated with T2D (P=0.0078, OR: 1.12; and P=0.0071, OR: 1.12, respectively). Subjects with more risk alleles related to nine SNPs had an increased risk of T2D (P=0.0017), as well as a higher fasting plasma glucose level (P=0.018), higher HbA(1c) level (P=0.013) and lower HOMA-β (P=0.033) compared with subjects who had fewer risk alleles. We identified a significant association of a SNP of FADS1 and a SNP near PROX1 with T2D in a Japanese population. The present findings suggest that inclusion of SNPs with a tendency to increase the disease risk captured more of the genetic background of T2D than that revealed by only assessing significant SNPs. Show less

Hypertrophic cardiomyopathy (HCM) is a primary myocardial disorder with an autosomal-dominant pattern of inheritance mainly caused by single heterozygous mutations in sarcomere genes. Although multiple gene mutations have recently been reported in Western countries, clinical implications of multiple mutations in Japanese subjects are not clear. A comprehensive genetic analysis of 5 sarcomere genes (cardiac β-myosin heavy chain gene [MYH7], cardiac myosin-binding protein C gene [MYBPC3], cardiac troponin T gene [TNNT2], α-tropomyosin gene [TPM1] and cardiac troponin I gene [TNNI3]) was performed in 93 unrelated patients and 14 mutations were identified in 28 patients. Twenty-six patients had single heterozygosity (20 in MYBPC3, 4 in MYH7, 1 in TNNT2, 1 in TNNI3), whereas 2 proband patients with familial HCM had double heterozygosity: 1 with P106fs in MYBPC3 and R869C in MYH7 and 1 with R945fs in MYBPC3 and E1049D in MYH7. From the results of the family survey and the previous literature on HCM mutations, P106fs, R945fs and R869C seemed to be pathological mutations and E1049D might be a rare polymorphism. The proband patient with P106fs and R869C double mutation was diagnosed as having HCM at an earlier age (28 years of age) than her relatives with single mutation, and had greater wall thickness with left ventricular outflow obstruction. One double mutation was identified in a Japanese cohort of HCM patients. Further studies are needed to clarify the clinical significance of multiple mutations including phenotypic severity. Show less

Mutations in the cardiac myosin-binding protein C gene (MYBPC3) have been reported to be associated with delayed expression of hypertrophic cardiomyopathy (HCM) and a relatively good prognosis. The aim of this study was to evaluate clinical manifestations in patients with familial HCM caused by a novel nonsense mutation, S297X, in MYBPC3. We analyzed the sarcomere protein genes in 93 probands with HCM. The nonsense mutation S297X in MYBPC3 was present in nine subjects from two unrelated families. Eight of those nine subjects with this mutation were found to be phenotype-positive and the remaining individual was not affected phenotypically. The age range at diagnosis was 9-75 years. There was no family history of sudden death in either family. At presentation, there were various left ventricular hypertrophy (LVH) patterns, including Maron type III hypertrophy from the LV base to apex, hypertrophy confined to the anterolateral wall at the basal LV wall. Two patients showed a significant LV outflow tract gradient and one patient showed intra-right-ventricular obstruction. During follow-up, one patient was repeatedly hospitalized for the treatment of heart failure after development of paroxysmal atrial fibrillation at the age of 86 years and the remaining eight subjects were in relatively stable condition and did not require hospitalization for the treatment of HCM-related events. The novel mutation S297X in MYBPC3 causes HCM in a broad range of ages and heterogeneous clinical manifestations, though the clinical course in patients with this mutation seems to be benign. Show less

Nedd4-interacting protein 2 (NDFIP2) has three transmembrane domains and interacts with multiple Nedd4 family ubiquitin ligases through polyprolinetyrosine (PY) motifs located in its N-terminal cytoplasmic domain. It has been postulated that NDFIP2 acts as an adaptor for the ubiquitylation of substrates with Nedd4 ubiquitin ligase. However, whether NDFIP2 promotes or inhibits the ubiquitylation of Nedd4 substrates is still under debate. We show here that although NDFIP2 is detected in the Golgi/trans-Golgi network (TGN) area, it is rapidly delivered to and degraded in lysosomes with its half-life ca. 1.5 h. Intriguingly, knockdown (KD) of NDFIP2 with small interfering RNA (siRNA) impaired both the formation and function of gap junctions. Indeed, KD of NDFIP2 destabilized the gap junction protein connexin43 that contains PY motif. In support of this, overexpression of NDFIP2 stabilized connexin43 and enhanced the formation of gap junctions. Furthermore, the PY motifs of NDFIP2, which are required for its interaction with Nedd4, Atrophin-1 interacting protein (AIP) 4 (AIP4)/Itch, and AIP2/WWP2, were necessary for the targeting of NDFIP2 to lysosomes and/or the stability of connexin43 and gap junctions. Collectively these findings suggest that NDFIP2 may inhibit the Nedd4-dependent ubiquitylation of membrane proteins containing PY motifs, such as connexin43, in a competitive manner. Show less