2024
DOI: 10.1371/journal.pone.0296264
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The intricate cellular ecosystem of human peripheral veins as revealed by single-cell transcriptomic analysis

Miguel G. Rojas,
Zachary M. Zigmond,
Simone Pereira-Simon
et al.

Abstract: The venous system has been historically understudied despite its critical roles in blood distribution, heart function, and systemic immunity. This study dissects the microanatomy of upper arm veins at the single cell level, and how it relates to wall structure, remodeling processes, and inflammatory responses to injury. We applied single-cell RNA sequencing to 4 non-diseased human veins (3 basilic, 1 cephalic) obtained from organ donors, followed by bioinformatic and histological analyses. Unsupervised cluster… Show more

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Cited by 3 publications
(3 citation statements)
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“…In addition to the above differences in EC abundance between arteries and veins, the identification of EC phenotypes by subclustering analysis revealed a striking contrast in vessel-specific subpopulations (Figure 2A). Six main EC phenotypes were uncovered by this analysis: (1) ACKR1+, previously identified in the main lumen and venules of veins [29]; (2) SEMA3G+, of arteriolar or capillary characteristics; (3) ITLN1+, here identified as the predominant phenotype in brachial arteries; (4) EFEMP1+, valvularlike ECs; (5) PROX1+, lymphatic ECs; and (6) AIF1+, an inflammatory subtype also detected in this study. ITLN1+ cells represent more than half of arterial ECs and are barely detected in veins (Figure 2A, Table 2).…”
Section: Unique Adhesive and Hemostatic Properties Of Arterial And Ve...supporting
confidence: 58%
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“…In addition to the above differences in EC abundance between arteries and veins, the identification of EC phenotypes by subclustering analysis revealed a striking contrast in vessel-specific subpopulations (Figure 2A). Six main EC phenotypes were uncovered by this analysis: (1) ACKR1+, previously identified in the main lumen and venules of veins [29]; (2) SEMA3G+, of arteriolar or capillary characteristics; (3) ITLN1+, here identified as the predominant phenotype in brachial arteries; (4) EFEMP1+, valvularlike ECs; (5) PROX1+, lymphatic ECs; and (6) AIF1+, an inflammatory subtype also detected in this study. ITLN1+ cells represent more than half of arterial ECs and are barely detected in veins (Figure 2A, Table 2).…”
Section: Unique Adhesive and Hemostatic Properties Of Arterial And Ve...supporting
confidence: 58%
“…Vascular ECs comprise a wide diversity of transcriptional phenotypes depending on their physiological states and macro-or microvascular locations [29]. Combined with hemodynamic conditions, this phenotypic variability influences vascular function and remodeling processes.…”
Section: Unique Adhesive and Hemostatic Properties Of Arterial And Ve...mentioning
confidence: 99%
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