1.High-Fat Diet-Fed Kcnq1 Mutant Mice Have Reduced Pancreatic β-Cell Mass via Gene-Environment Interaction
Shun-ichiro ASAHARA ; Hiroyuki INOUE ; Yuka IHARA ; Kyoko TERUYAMA ; Asuka IMAI ; Chisako HARA ; Mizuki HARA ; Masako SEIKE ; Aisha YOKOI ; Nozomi KIDO ; Hirotaka SUZUKI ; Ayumi KANNO ; Yuka INABA ; Hitoshi WATANABE ; Go SHIOI ; Maki KIMURA-KOYANAGI ; Michihiro MATSUMOTO ; Hiroshi INOUE ; Keiichi I. NAKAYAMA ; Wataru OGAWA ; Masato KASUGA ; Yoshiaki KIDO
Diabetes & Metabolism Journal 2026;50(1):77-89
Background:
The potassium voltage-gated channel subfamily Q member 1 (KCNQ1) gene has recently received much attention as a candidate susceptibility gene for type 2 diabetes mellitus, especially in Asian populations. We previously reported that Kcnq1 mutant mice exhibit reduced insulin secretion and hyperglycemia due to a decrease in pancreatic β-cell mass. Through in vivo and in vitro analyses, we ascertained that this mechanism is the result of the downregulation of the non-coding RNA ‘Kcnq1ot1,’ which is expressed in the paternal allele of the Kcnq1 gene region, causing an increase in the expression of the cell cycle inhibitor cyclin dependent kinase inhibitor 1C (Cdkn1c). It was found that decreased Kcnq1ot1 expression resulted in pancreatic β-cell failure; however, the degree of pancreatic β-cell volume reduction was not severe.
Methods:
We induced obesity in Kcnq1ot1 truncation mice by feeding them a high-fat diet and evaluated pancreatic β-cell mass.
Results:
In the present study, we reveal that CCAAT/enhancer binding protein beta (C/EBPβ), which is expressed at higher levels in pancreatic β-cells in obese individuals, further increases the expression of Cdkn1c, which is upregulated by the Kcnq1 gene mutation. We found that simultaneous Cdkn1c hypomethylation and C/EBPβ overexpression in pancreatic β-cells causes a synergistic decrease in pancreatic β-cell mass.
Conclusion
This finding suggests that the synergistic effect of genetic factors such as Kcnq1 gene mutations and environmental factors such as obesity and overeating, which lead to increased expression of C/EBPβ, contribute to the regulation of pancreatic β-cell mass. This study is the first to show that the Kcnq1 gene is related to pancreatic β-cell mass through genetic-environment interactions.
2.Clinical and Imaging Features of Multiple System Atrophy: Challenges for an Early and Clinically Definitive Diagnosis
Hirohisa WATANABE ; Yuichi RIKU ; Kazuhiro HARA ; Kazuya KAWABATA ; Tomohiko NAKAMURA ; Mizuki ITO ; Masaaki HIRAYAMA ; Mari YOSHIDA ; Masahisa KATSUNO ; Gen SOBUE
Journal of Movement Disorders 2018;11(3):107-120
Multiple system atrophy (MSA) is an adult-onset, progressive neurodegenerative disorder. Patients with MSA show various phenotypes during the course of their illness, including parkinsonism, cerebellar ataxia, autonomic failure, and pyramidal signs. Patients with MSA sometimes present with isolated autonomic failure or motor symptoms/signs. The median duration from onset to the concomitant appearance of motor and autonomic symptoms is approximately 2 years but can range up to 14 years. As the presence of both motor and autonomic symptoms is essential for the current diagnostic criteria, early diagnosis is difficult when patients present with isolated autonomic failure or motor symptoms/signs. In contrast, patients with MSA may show severe autonomic failure and die before the presentation of motor symptoms/signs, which are currently required for the diagnosis of MSA. Recent studies have also revealed that patients with MSA may show nonsupporting features of MSA such as dementia, hallucinations, and vertical gaze palsy. To establish early diagnostic criteria and clinically definitive categorization for the successful development of disease-modifying therapy or symptomatic interventions for MSA, research should focus on the isolated phase and atypical symptoms to develop specific clinical, imaging, and fluid biomarkers that satisfy the requirements for objectivity, for semi- or quantitative measurements, and for uncomplicated, worldwide availability. Several novel techniques, such as automated compartmentalization of the brain into multiple parcels for the quantification of gray and white matter volumes on an individual basis and the visualization of α-synuclein and other candidate serum and cerebrospinal fluid biomarkers, may be promising for the early and clinically definitive diagnosis of MSA.
Biomarkers
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Brain
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Cerebellar Ataxia
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Cerebrospinal Fluid
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Dementia
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Diagnosis
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Early Diagnosis
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Hallucinations
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Humans
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Multiple System Atrophy
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Neurodegenerative Diseases
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Paralysis
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Parkinsonian Disorders
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Phenotype
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White Matter

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