Genki Amano scite author profile

Hypertrophic scars and keloids are characterized by excessive dermal deposition of extracellular matrix due to fibroblast-to-myofibroblast differentiation. Endothelin-1 (ET-1) is primarily produced by vascular endothelial cells and plays multiple roles in the wound-healing response and organ fibrogenesis. In this study, we investigated the pathophysiological significance of ET-1 and involvement of RhoA, a member of the Rho GTPases, in hypertrophic scar/keloid formation. We found that ET-1 expression on dermal microvascular endothelial cells (ECs) in hypertrophic scars and keloids was higher than that in normal skin and mature scars. We also confirmed that ET-1 induced myofibroblast differentiation and collagen synthesis in cultured human dermal fibroblasts through the RhoA/Rho-kinase pathway. Finally, since hypertrophic scar/keloid formation was most prominent in areas exposed to mechanical stretch, we examined how mechanical stretch affected ET-1 secretion in human dermal microvascular ECs, and found that mechanical stretch increased ET-1 gene expression and secretion from ECs. Taken together, these results suggest that dermal microvascular ECs release ET-1 in response to mechanical stretch, and thereby contribute to the formation of hypertrophic scars and keloids through the RhoA/Rho-kinase pathway.

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A single protective polymorphism in the prion protein blocks cross‐species prion replication in cultured cells

Arshad

Patel

Amano

et al. 2022

Journal of Neurochemistry

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Prions are infectious protein aggregates that cause a variety of fatal neurodegenerative conditions in humans and animals, collectively referred to as prion diseases (Colby & Prusiner, 2011;Scheckel & Aguzzi, 2018;Watts et al., 2006). The naturally occurring prion diseases include scrapie in sheep, chronic wasting disease in cervids, as well as Creutzfeldt-Jakob disease, Gerstmann-Sträussler-Scheinker disease, fatal familial insomnia, and kuru in humans. The infectious proteins underlying these diseases are composed of an endogenously expressed protein called the cellular prion protein (PrP C ) (Oesch

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SCYL1 arginine methylation by PRMT1 is essential for neurite outgrowth via Golgi morphogenesis

Amano

Matsuzaki

Mori

et al. 2020

MBoC

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Arginine methylation is a common post-translational modification that modulates protein function. SCY1 like pseudokinase 1 (SCYL1) is crucial for neuronal functions and interacts with γ2-COP to form coat protein complex I (COPI) vesicles that regulate Golgi morphology. However, the molecular mechanism by which SCYL1 is regulated remains unclear. Here, we report that the γ2-COP-binding site of SCYL1 is arginine-methylated by protein arginine methyltransferase 1 (PRMT1), and that SCYL1 arginine methylation is important for the interaction of SCYL1 with γ2-COP. PRMT1 was colocalized with SCYL1 in Golgi fraction. Inhibition of PRMT1 suppressed axon outgrowth and dendrite complexity via abnormal Golgi morphology. Knockdown of SCYL1 by small interfering RNA (siRNA) inhibited axon outgrowth, and the inhibitory effect was rescued by siRNA-resistant SCYL1, but not SCYL1 mutant, in which the arginine methylation site was replaced. Thus, PRMT1 regulates Golgi morphogenesis via SCYL1 arginine methylation. We propose that SCYL1 arginine methylation by PRMT1 contributes to axon and dendrite morphogenesis in neurons.

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Genki Amano

TULP3 is required for localization of membrane-associated proteins ARL13B and INPP5E to primary cilia

Endothelial cell‐derived endothelin‐1 is involved in abnormal scar formation by dermal fibroblasts through RhoA/Rho‐kinase pathway

A single protective polymorphism in the prion protein blocks cross‐species prion replication in cultured cells

SCYL1 arginine methylation by PRMT1 is essential for neurite outgrowth via Golgi morphogenesis

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