A platform for research: civil engineering, architecture and urbanism
A platform for research: civil engineering, architecture and urbanism
Transcriptomic Profiling Unveils EDN3+ Meningeal Fibroblasts as Key Players in Sturge‐Weber Syndrome Pathogenesis
https://orcid.org/0000-0001-8219-1055
AbstractSturge‐Weber syndrome (SWS) is characterized by leptomeningeal vascular malformation, resulting in significant risks of life‐threatening seizures and strokes. The current absence of specific treatments underscores the need to define the molecular and cellular mechanisms that drive the progression of SWS. Here, the transcriptome of 119 446 cells isolated from both malformed tissues and peri‐lesion tissues from the brains of patients with SWS is examined. This comprehensive analysis finds a complex landscape of cell heterogeneity and distinct cell substate associated with the evolution of this disease are revealed. Notably, a unique fibroblast cluster and molecular mechanism are identified that contribute to the development of SWS. These findings not only expand the understanding of SWS but also open up promising avenues for therapeutic interventions.
Transcriptomic Profiling Unveils EDN3+ Meningeal Fibroblasts as Key Players in Sturge‐Weber Syndrome Pathogenesis
https://orcid.org/0000-0001-8219-1055
AbstractSturge‐Weber syndrome (SWS) is characterized by leptomeningeal vascular malformation, resulting in significant risks of life‐threatening seizures and strokes. The current absence of specific treatments underscores the need to define the molecular and cellular mechanisms that drive the progression of SWS. Here, the transcriptome of 119 446 cells isolated from both malformed tissues and peri‐lesion tissues from the brains of patients with SWS is examined. This comprehensive analysis finds a complex landscape of cell heterogeneity and distinct cell substate associated with the evolution of this disease are revealed. Notably, a unique fibroblast cluster and molecular mechanism are identified that contribute to the development of SWS. These findings not only expand the understanding of SWS but also open up promising avenues for therapeutic interventions.
Transcriptomic Profiling Unveils EDN3+ Meningeal Fibroblasts as Key Players in Sturge‐Weber Syndrome Pathogenesis
https://orcid.org/0000-0001-8219-1055
AbstractSturge‐Weber syndrome (SWS) is characterized by leptomeningeal vascular malformation, resulting in significant risks of life‐threatening seizures and strokes. The current absence of specific treatments underscores the need to define the molecular and cellular mechanisms that drive the progression of SWS. Here, the transcriptome of 119 446 cells isolated from both malformed tissues and peri‐lesion tissues from the brains of patients with SWS is examined. This comprehensive analysis finds a complex landscape of cell heterogeneity and distinct cell substate associated with the evolution of this disease are revealed. Notably, a unique fibroblast cluster and molecular mechanism are identified that contribute to the development of SWS. These findings not only expand the understanding of SWS but also open up promising avenues for therapeutic interventions.
Transcriptomic Profiling Unveils EDN3+ Meningeal Fibroblasts as Key Players in Sturge‐Weber Syndrome Pathogenesis
Advanced Science
Ai, Daosheng (author) / Ming, Tianyue (author) / Li, Xiaoli (author) / Wang, Shu (author) / Bi, Zhanying (author) / Zuo, Jinyi (author) / Cheng, Zizhang (author) / Sun, Weijin (author) / Xie, Mingguo (author) / Li, Fengzhi (author)
2025-02-08
Article (Journal)
Electronic Resource
English
| Elsevier | 2025
British Library Online Contents | 2000