Hsa_circ_0026782 Acts as a “Molecular Break” of CREB1‐Mediated Transcription by Promoting Its Phosphorylation at Ser142 That Prevents Keloid Progression

Keloids are a form of excessive fibrosis disease characterized by tumor‐like features, which are prone to recurrence. Circular RNAs play a role in various diseases, but its roles in keloids remain unclear. In this study, using high‐throughput RNA sequencing to compare keloids with normal scars, a no...

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Published inAdvanced science p. e08647
Main Authors Zhong, Xin‐Cao, Chen, Chun‐Ye, Feng, Zi‐Xuan, Wang, Yong, Zhang, Tao, Zhuang, Ze‐Ming, Wu, Zhang‐Rui, Du, Yong‐Zhong, Chen, Jun, Lin, Xiao‐Ying, Tan, Wei‐Qiang
Format Journal Article
LanguageEnglish
Published Germany 18.08.2025
Subjects
keloid
Ser142
hsa_circ_0026782
CREB1
Ser133
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Abstract Keloids are a form of excessive fibrosis disease characterized by tumor‐like features, which are prone to recurrence. Circular RNAs play a role in various diseases, but its roles in keloids remain unclear. In this study, using high‐throughput RNA sequencing to compare keloids with normal scars, a novel circRNA, hsa_circ_0026782 is identified, whose expression is downregulated in keloids. The hsa_circ_0026782 inhibits the proliferation, migration, invasion, and apoptosis of primary human keloid fibroblasts, blocks the cell cycle in the S phase in vitro, and prevents keloid progression in vivo. Mechanistically, 1–90 nucleotides of hsa_circ_0026782 directly bind to the transcription factor CREB1. This interaction increases the exposure of the basic leucine zipper domain of CREB1 to enhance its dimerization. In addition, this interaction also promotes CREB1 phosphorylation at serine residue 142, inhibits the binding of CREB1 to the promoters or enhancers of its downstream target genes, and ultimately alters the transactivation of CREB1. The findings unveil that the hsa_circ_0026782/CREB1 axis acts as a transcriptional spatiotemporal “molecular break” in the formation of keloids, providing a new target for the therapy of keloids.
AbstractList Keloids are a form of excessive fibrosis disease characterized by tumor‐like features, which are prone to recurrence. Circular RNAs play a role in various diseases, but its roles in keloids remain unclear. In this study, using high‐throughput RNA sequencing to compare keloids with normal scars, a novel circRNA, hsa_circ_0026782 is identified, whose expression is downregulated in keloids. The hsa_circ_0026782 inhibits the proliferation, migration, invasion, and apoptosis of primary human keloid fibroblasts, blocks the cell cycle in the S phase in vitro, and prevents keloid progression in vivo. Mechanistically, 1–90 nucleotides of hsa_circ_0026782 directly bind to the transcription factor CREB1. This interaction increases the exposure of the basic leucine zipper domain of CREB1 to enhance its dimerization. In addition, this interaction also promotes CREB1 phosphorylation at serine residue 142, inhibits the binding of CREB1 to the promoters or enhancers of its downstream target genes, and ultimately alters the transactivation of CREB1. The findings unveil that the hsa_circ_0026782/CREB1 axis acts as a transcriptional spatiotemporal “molecular break” in the formation of keloids, providing a new target for the therapy of keloids.
Keloids are a form of excessive fibrosis disease characterized by tumor-like features, which are prone to recurrence. Circular RNAs play a role in various diseases, but its roles in keloids remain unclear. In this study, using high-throughput RNA sequencing to compare keloids with normal scars, a novel circRNA, hsa_circ_0026782 is identified, whose expression is downregulated in keloids. The hsa_circ_0026782 inhibits the proliferation, migration, invasion, and apoptosis of primary human keloid fibroblasts, blocks the cell cycle in the S phase in vitro, and prevents keloid progression in vivo. Mechanistically, 1-90 nucleotides of hsa_circ_0026782 directly bind to the transcription factor CREB1. This interaction increases the exposure of the basic leucine zipper domain of CREB1 to enhance its dimerization. In addition, this interaction also promotes CREB1 phosphorylation at serine residue 142, inhibits the binding of CREB1 to the promoters or enhancers of its downstream target genes, and ultimately alters the transactivation of CREB1. The findings unveil that the hsa_circ_0026782/CREB1 axis acts as a transcriptional spatiotemporal "molecular break" in the formation of keloids, providing a new target for the therapy of keloids.Keloids are a form of excessive fibrosis disease characterized by tumor-like features, which are prone to recurrence. Circular RNAs play a role in various diseases, but its roles in keloids remain unclear. In this study, using high-throughput RNA sequencing to compare keloids with normal scars, a novel circRNA, hsa_circ_0026782 is identified, whose expression is downregulated in keloids. The hsa_circ_0026782 inhibits the proliferation, migration, invasion, and apoptosis of primary human keloid fibroblasts, blocks the cell cycle in the S phase in vitro, and prevents keloid progression in vivo. Mechanistically, 1-90 nucleotides of hsa_circ_0026782 directly bind to the transcription factor CREB1. This interaction increases the exposure of the basic leucine zipper domain of CREB1 to enhance its dimerization. In addition, this interaction also promotes CREB1 phosphorylation at serine residue 142, inhibits the binding of CREB1 to the promoters or enhancers of its downstream target genes, and ultimately alters the transactivation of CREB1. The findings unveil that the hsa_circ_0026782/CREB1 axis acts as a transcriptional spatiotemporal "molecular break" in the formation of keloids, providing a new target for the therapy of keloids.
Author Chen, Chun‐Ye
Feng, Zi‐Xuan
Tan, Wei‐Qiang
Du, Yong‐Zhong
Zhong, Xin‐Cao
Chen, Jun
Zhuang, Ze‐Ming
Wang, Yong
Lin, Xiao‐Ying
Zhang, Tao
Wu, Zhang‐Rui
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Snippet Keloids are a form of excessive fibrosis disease characterized by tumor‐like features, which are prone to recurrence. Circular RNAs play a role in various...
Keloids are a form of excessive fibrosis disease characterized by tumor-like features, which are prone to recurrence. Circular RNAs play a role in various...
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Title Hsa_circ_0026782 Acts as a “Molecular Break” of CREB1‐Mediated Transcription by Promoting Its Phosphorylation at Ser142 That Prevents Keloid Progression
URI https://www.ncbi.nlm.nih.gov/pubmed/40823777
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