Fenestrated Endothelial Cells across Organs: Insights into Kidney Function and Disease.

Loading...
Thumbnail Image

Date

2024-08

Journal Title

Journal ISSN

Volume Title

Repository Usage Stats

0
views
2
downloads

Citation Stats

Abstract

In the human body, the vascular system plays an indispensable role in maintaining homeostasis by supplying oxygen and nutrients to cells and organs and facilitating the removal of metabolic waste and toxins. Blood vessels-the key constituents of the vascular system-are composed of a layer of endothelial cells on their luminal surface. In most organs, tightly packed endothelial cells serve as a barrier separating blood and lymph from surrounding tissues. Intriguingly, endothelial cells in some tissues and organs (e.g., choroid plexus, liver sinusoids, small intestines, and kidney glomerulus) form transcellular pores called fenestrations that facilitate molecular and ionic transport across the vasculature and mediate immune responses through leukocyte transmigration. However, the development and unique functions of endothelial cell fenestrations across organs are yet to be fully uncovered. This review article provides an overview of fenestrated endothelial cells in multiple organs. We describe their development and organ-specific roles, with expanded discussions on their contributions to glomerular health and disease. We extend these discussions to highlight the dynamic changes in endothelial cell fenestrations in diabetic nephropathy, focal segmental glomerulosclerosis, Alport syndrome, and preeclampsia, and how these unique cellular features could be targeted for therapeutic development. Finally, we discuss emerging technologies for in vitro modeling of biological systems, and their relevance for advancing the current understanding of endothelial cell fenestrations in health and disease.

Department

Description

Provenance

Citation

Published Version (Please cite this version)

10.3390/ijms25169107

Publication Info

Mou, Xingrui, Sophia M Leeman, Yasmin Roye, Carmen Miller and Samira Musah (2024). Fenestrated Endothelial Cells across Organs: Insights into Kidney Function and Disease. International journal of molecular sciences, 25(16). p. 9107. 10.3390/ijms25169107 Retrieved from https://hdl.handle.net/10161/31821.

This is constructed from limited available data and may be imprecise. To cite this article, please review & use the official citation provided by the journal.

Scholars@Duke

Musah

Samira Musah

Assistant Professor in the Department of Biomedical Engineering

The Musah Lab is interested in understanding how molecular signals and biophysical forces can function either synergistically or independently to guide organ development and physiology, and how these processes can be therapeutically harnessed to treat human disease. Given the escalating medical crisis in nephrology as growing number of patients suffer from kidney disease that can lead to organ failure, the Musah Lab focuses on engineering stem cell fate for applications in human kidney disease, extra-renal complications, and therapeutic development. Dr. Musah’s research interests include stem cell biology and regenerative medicine, molecular and cellular basis of human organ development and disease progression, organ engineering, patient-specific disease models, biomarker identification, therapeutic discovery, tissue and organ transplantation, microphysiological systems including Organ Chips (organs-on-chips) and organoids, matrix biology, mechanotransduction and disease biophysics.


Unless otherwise indicated, scholarly articles published by Duke faculty members are made available here with a CC-BY-NC (Creative Commons Attribution Non-Commercial) license, as enabled by the Duke Open Access Policy. If you wish to use the materials in ways not already permitted under CC-BY-NC, please consult the copyright owner. Other materials are made available here through the author’s grant of a non-exclusive license to make their work openly accessible.