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It is prevalent in 30% of the population worldwide and poses a risk of advancing to cirrhosis and liver cancer. MASH is marked by lipid droplet accumulation in the liver, progressing from steatosis to inflammation and cell damage, ultimately leading to fibrosis, cirrhosis, and hepatocellular carcinoma. A clear understanding of cellular processes in MASH pathogenesis is essential for developing targeted therapies. A key factor in the pathology of MASH is the disruption of endoplasmic reticulum (ER) homeostasis. The ER stores calcium ions (Ca 2+ ) and plays a crucial role in regulating protein folding, lipid transfer, and organelle dynamics. The accumulation of unfolded or misfolded proteins in the ER activates a series of homeostatic responses known as ER stress, and sustained ER stress plays a role in the development of MASH. Recent studies indicate that the dysfunction of sarco/ER calcium ATPase (SERCA2), which regulates Ca 2+ transport to the ER, can also induce ER stress, contributing to MASH. In addition to SERCA2, previous research on NACHT and WD repeat domain-containing protein 1 ( Nwd1 ) gene, which is part of the signal transduction ATPase family, has shown that it is localized in the ER and is expressed in both the liver and the brain. However, the role of the Nwd1 gene in SERCA2 activity and the pathogenesis of MASH remains unclear. In a recent study, published on March 11, 2025, in Communications Biology , a team of scientists led by Professor Shin-ichi Sakakibara from the Laboratory for Molecular Neurobiology, Faculty of Human Sciences, Waseda University, Japan, explored the physiological role of Nwd1 in MASH pathogenesis. "The full mechanism behind the development of MASH remains unclear, and currently, only one therapeutic drug has been approved. Therefore, this study aimed to investigate the role of the Nwd1 gene in liver pathogenesis to identify potential new therapeutic targets. Our research is the first to explore the role of Nwd1 outside of the brain," says Dr. Sakakibara. The team created a Nwd1 knockout ( Nwd1 −/− ) mice model using the CRISPR-Cas9 genome editing technique. They subsequently investigated the effects of Nwd1 deficiency on liver function and various cellular processes. The scientists found that Nwd1 −/− mice exhibited liver pathologies, including excessive lipid accumulation, fibrosis, and heightened ER stress, mirroring MASH. Additionally, they saw a rise in pyroptosis-a form of programmed inflammatory cell death-in the livers of Nwd1 −/− mice. Elevated levels of cleaved caspase-1 and increased leukocyte counts were also observed, indicating heightened inflammatory responses that further exacerbated liver damage. The researchers also discovered that Nwd1 interacts with SERCA2. They found that in the absence of Nwd1 , SERCA2 activity was significantly reduced, leading to diminished ER Ca 2+ storage and intensified ER stress. This stress was directly linked to the accumulation of lipid droplets in hepatocytes, a hallmark of MASH. Related Stories Global trends shape progress in cell and gene therapies Scientists create new map showing how cancer gene mutations influence tumor growth SynGenSys introduces Liver.SET synthetic promoter library for liver-specific gene expression for in vivo gene therapies The first co-author, Dr. Seiya Yamada, stated, "These findings position Nwd1 as a potential regulator of liver homeostasis, particularly through its role in maintaining ER function and calcium balance." Overall, by demonstrating how Nwd1 deficiency disrupts these processes, the study offers fresh insights into MASH pathogenesis and underscores the therapeutic potential of targeting ER stress pathways. "With MASH lacking effective treatments, understanding the molecular underpinnings of its development is crucial. This study paves the way for future research exploring Nwd1 as a therapeutic target, potentially leading to novel strategies to combat this growing public health issue," concludes Dr. Yamada. Source: Waseda University Journal reference: Yamada, S. , et al. (2025). Induction of MASH-like pathogenesis in the Nwd1−/− mouse liver. Communications Biology . doi.org/10.1038/s42003-025-07717-5 . 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The scientists found that Nwd1 −/− mice exhibited liver pathologies, including excessive lipid accumulation, fibrosis, and heightened ER stress, mirroring MASH.

…chnique. They subsequently investigated the effects of Nwd1 deficiency on liver function and various cellular processes. The scientists found that Nwd1 −/− mice exhibited liver pathologies, including excessive lipid accumulation, fibrosis, and heightened ER stress, mirroring MASH . Additionally, they saw a rise in pyroptosis-a form of programmed inflammatory cell death-in the livers of Nwd1 −/− mic…

They found that in the absence of Nwd1 , SERCA2 activity was significantly reduced, leading to diminished ER Ca 2+ storage and intensified ER stress.

…matory responses that further exacerbated liver damage. The researchers also discovered that Nwd1 interacts with SERCA2. They found that in the absence of Nwd1 , SERCA2 activity was significantly reduced, leading to diminished ER Ca 2+ storage and intensified ER stress . This stress was directly linked to the accumulation of lipid droplets in hepatocytes, a hallmark of MASH. Related Stor…

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… Home Life Sciences Home About News Life Sciences A-Z White Papers Lab Equipment Interviews Newsletters Webinars More... eBooks Posters Podcasts Contact Meet the Team Advertise Search Become a Member White Papers MediKnowledge eBooks Posters Podcasts Newsletters Health & Personal Care Contact Meet the Team Advertise Search Become a Member Webinars eBooks Posters Podcasts Contact Meet the Team Advertise Search Become a Member Nwd1 gene l inked to liver dysfunction in metabolic disease Download PDF Copy Reviewed Waseda University Mar 11 2025 Metabolic dysfu…