Malnutrition Defined by Geriatric Nutritional Risk Index Predicts Outcomes in Severe Stroke Patients: A Propensity Score-Matched Analysis

Background: The chemotherapy for small-cell lung carcinoma (SCLC) has been adopted for advanced extrapulmonary neuroendocrine carcinomas (EP-NECs). The aim of this study was to clarify the efficacy of standard SCLC regimens when used to treat EP-NECs and to compare the outcome with that for SCLC. Methods: We reviewed the medical records of 136 patients (41 with EP-NEC and 95 with SCLC) who were treated using a platinum-containing regimen for advanced disease between January 2000 and October 2008 at our hospital. Results: The primary site of the EP-NEC was the gastrointestinal tract in 18 patients (GI tract group); the liver, biliary tract or pancreas in 16 patients (HBP group), and other sites in 7 patients (‘others’ group). The response rate in the SCLC patients was 77.8%, and the response rate in the EP-NEC patients was 30.8% (37.5% in the GI tract group, 12.5% in the HBP group, and 57.1% in the ‘others’ group). The median survival time for the SCLC patients was 13.6 months, while that for the EP-NEC patients was 9.2 months (14.9 months in the GI tract group, 7.8 months in the HBP group, and 8.9 months in the ‘others’ group). A multivariate analysis demonstrated that a poor performance status, liver involvement, and the treatment regimen were independent unfavorable prognostic factors. Conclusion: The response rate and prognosis of the patients with advanced EP-NECs were worse than those of the patients with SCLC in this study. The Eastern Cooperative Oncology Group performance status, liver involvement, and treatment regimen had a larger impact on the prognosis than the primary tumor site, as demonstrated by multivariate analysis.

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Tubular aggregate myopathy caused by a novel mutation in the cytoplasmic domain of STIM1

Okuma

Saito

Mitsui

et al. 2016

Neurol Genet

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Objective:To identify the gene mutation of tubular aggregate myopathy (TAM) and gain mechanistic insight into the pathogenesis of the disorder.Methods:We described a family affected by autosomal dominant TAM and performed exome and Sanger sequencing to identify mutations. We further analyzed the functional significance of the identified mutation by expression studies and intracellular Ca2+ measurements.Results:A 42-year-old man presented with slowly progressive muscle weakness and atrophy in all 4 limbs and the trunk. Muscle biopsy and microscopic examination revealed tubular aggregates in his skeletal muscle. Genetic analysis of this family identified a novel heterozygous mutation, c.1450_1451insGA (p.Ile484ArgfsX21), in stromal interaction molecule 1 (STIM1), a Ca2+ sensor in sarcoplasmic reticulum. We transfected cultured cells with STIM1 and demonstrated that the mutant STIM1 exhibited aggregation-like appearance in shrunk cytoplasm. Furthermore, we revealed that the intracellular Ca2+ influx is decreased by the mutant STIM1.Conclusions:The novel mutation p.Ile484ArgfsX21 is located in the cytoplasmic C-terminal inhibitory domain (CTID) of STIM1. However, all mutations reported so far in TAM reside in the luminal N-terminal EF hand region. The aggregation-like appearance of STIM1 and the decreased intracellular Ca2+ influx in cells transfected with CTID mutant are in sharp contrast to these previous reports. Taken together, these findings indicate that mutations of STIM1 cause TAM through the dysregulation of Ca2+ homeostasis.

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Post‐traumatic stress symptoms among medical rescue workers exposed to COVID‐19 in Japan

Asaoka

Koido

Kawashima

et al. 2020

Psychiatry Clin Neurosci

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Overexpression of LARGE suppresses muscle regeneration via down-regulation of insulin-like growth factor 1 and aggravates muscular dystrophy in mice

Saito

Kanagawa

Ikeda

et al. 2014

Human Molecular Genetics

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Several types of muscular dystrophy are caused by defective linkage between α-dystroglycan (α-DG) and laminin. Among these, dystroglycanopathy, including Fukuyama-type congenital muscular dystrophy (FCMD), results from abnormal glycosylation of α-DG. Recent studies have shown that like-acetylglucosaminyltransferase (LARGE) strongly enhances the laminin-binding activity of α-DG. Therefore, restoration of the α-DG-laminin linkage by LARGE is considered one of the most promising possible therapies for muscular dystrophy. In this study, we generated transgenic mice that overexpress LARGE (LARGE Tg) and crossed them with dy(2J) mice and fukutin conditional knockout mice, a model for laminin α2-deficient congenital muscular dystrophy (MDC1A) and FCMD, respectively. Remarkably, in both the strains, the transgenic overexpression of LARGE resulted in an aggravation of muscular dystrophy. Using morphometric analyses, we found that the deterioration of muscle pathology was caused by suppression of muscle regeneration. Overexpression of LARGE in C2C12 cells further demonstrated defects in myotube formation. Interestingly, a decreased expression of insulin-like growth factor 1 (IGF-1) was identified in both LARGE Tg mice and LARGE-overexpressing C2C12 myotubes. Supplementing the C2C12 cells with IGF-1 restored the defective myotube formation. Taken together, our findings indicate that the overexpression of LARGE aggravates muscular dystrophy by suppressing the muscle regeneration and this adverse effect is mediated via reduced expression of IGF-1.

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Histone deacetylase inhibitor trichostatin A enhances myogenesis by coordinating muscle regulatory factors and myogenic repressors

Hagiwara

Saito

Masaki

et al. 2011

Biochemical and Biophysical Research Communications

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Miki Ikeda

Comparison of Chemotherapeutic Treatment Outcomes of Advanced Extrapulmonary Neuroendocrine Carcinomas and Advanced Small-Cell Lung Carcinoma

Tubular aggregate myopathy caused by a novel mutation in the cytoplasmic domain of STIM1

Post‐traumatic stress symptoms among medical rescue workers exposed to COVID‐19 in Japan

Overexpression of LARGE suppresses muscle regeneration via down-regulation of insulin-like growth factor 1 and aggravates muscular dystrophy in mice

Histone deacetylase inhibitor trichostatin A enhances myogenesis by coordinating muscle regulatory factors and myogenic repressors

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