The Cdh5-CreERT2 transgene causes conditional Shb gene deletion in hematopoietic cells with consequences for immune cell responses to tumors

He, Qi; Li, Xiujuan; Singh, K. N.; Luo, Zhengkang; Meija-Cordova, Mariela; Jamalpour, Maria; Lindahl, Björn; Křı́ž, Vı́tězslav; Vuolteenaho, Reetta; Ulvmar, Maria H.; Welsh, Michael

doi:10.1038/s41598-019-44039-z

Cited by 10 publications

(22 citation statements)

References 33 publications

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“…Future refinement of EC-TRAP taking advantage of intersectional genetic approaches based on combined expression of 2 or more EC markers (68) may lead to greater resolution of EC subsets within a tissue, particularly in combination with single-cell RNAseq methods. This would be particularly valuable as many of the widely used Cre models to target ECs, also target (subsets of) hematopoietic cells, including Tek-Cre as described here, as well as other commonly used EC-specific Cre transgenes (38,69,70). Finally, future applications of this approach should significantly advance our understanding of EC function in vivo under both physiologic and pathophysiologic conditions, potentially leading to the identification of new disease-specific biomarkers as well as potential novel therapeutic targets.…”

Section: Resultsmentioning

confidence: 99%

The in vivo endothelial cell translatome is highly heterogeneous across vascular beds

Cleuren

Ent

Jiang

et al. 2019

Proc. Natl. Acad. Sci. U.S.A.

108

110

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Endothelial cells (ECs) are highly specialized across vascular beds. However, given their interspersed anatomic distribution, comprehensive characterization of the molecular basis for this heterogeneity in vivo has been limited. By applying endothelial-specific translating ribosome affinity purification (EC-TRAP) combined with high-throughput RNA sequencing analysis, we identified pan EC-enriched genes and tissue-specific EC transcripts, which include both established markers and genes previously unappreciated for their presence in ECs. In addition, EC-TRAP limits changes in gene expression after EC isolation and in vitro expansion, as well as rapid vascular bed-specific shifts in EC gene expression profiles as a result of the enzymatic tissue dissociation required to generate single-cell suspensions for fluorescence-activated cell sorting or single-cell RNA sequencing analysis. Comparison of our EC-TRAP with published single-cell RNA sequencing data further demonstrates considerably greater sensitivity of EC-TRAP for the detection of low abundant transcripts. Application of EC-TRAP to examine the in vivo host response to lipopolysaccharide (LPS) revealed the induction of gene expression programs associated with a native defense response, with marked differences across vascular beds. Furthermore, comparative analysis of whole-tissue and TRAP-selected mRNAs identified LPS-induced differences that would not have been detected by whole-tissue analysis alone. Together, these data provide a resource for the analysis of EC-specific gene expression programs across heterogeneous vascular beds under both physiologic and pathologic conditions.

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Section: Resultsmentioning

confidence: 99%

The in vivo endothelial cell translatome is highly heterogeneous across vascular beds

Cleuren

Ent

Jiang

et al. 2019

Proc. Natl. Acad. Sci. U.S.A.

108

110

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“…3O-Q). This is pertinent, given the known role of c-Src in osteoclasts, the role of macrophages in regression and the recent data demonstrating Cdh5CreERT2 mice can display non-endothelial Cre activity (He et al, 2019). Taken together, these results suggest that, although c-Src is not required for the formation of the vascular lumen, it is required for the stability of newly formed vessels.…”

Section: Endothelial C-src Is Required For Vascular Sprouting But Notmentioning

confidence: 92%

c-Src controls stability of sprouting blood vessels in the developing retina independently of cell-cell adhesion through focal adhesion assembly

et al. 2020

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Endothelial cell adhesion is implicated in blood vessel sprout formation, yet how adhesion controls angiogenesis, and whether it occurs via rapid remodeling of adherens junctions or focal adhesion assembly, or both, remains poorly understood. Furthermore, how endothelial cell adhesion is controlled in particular tissues and under different conditions remains unexplored. Here, we have identified an unexpected role for spatiotemporal c-Src activity in sprouting angiogenesis in the retina, which is in contrast to the dominant focus on the role of c-Src in the maintenance of vascular integrity. Thus, mice specifically deficient in endothelial c-Src displayed significantly reduced blood vessel sprouting and loss in actin-rich filopodial protrusions at the vascular front of the developing retina. In contrast to what has been observed during vascular leakage, endothelial cell-cell adhesion was unaffected by loss of c-Src. Instead, decreased angiogenic sprouting was due to loss of focal adhesion assembly and cell-matrix adhesion, resulting in loss of sprout stability. These results demonstrate that c-Src signaling at specified endothelial cell membrane compartments (adherens junctions or focal adhesions) control vascular processes in a tissue-and contextdependent manner.

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“…It is presumed therefore that other sub cellular particles >150 nm will contain both ZSGreen and miRNAs but these particles would have to be purified using different approaches (e.g. differential centrifugation and sucrose gradients); similarly, the quantification of ZSGreen + vesicles using NTA could include co-purified heterogeneous ZSGreen + particles also found in mouse plasma, or particles derived from a small population of Cdh5 + hematopoietic cells, potentially skewing the ratio of total circulating EVs:EC-derived EVs 25 . In our in vitro assays, there also appear to be Lamp1 + endosomes that are ZSGreen − resulting in an underestimation of EC-EVs/exosomes in the circulation and identification of only a partial miRNA signature in EC-EVs.…”

Section: Discussionmentioning

confidence: 99%

A miRNA signature in endothelial cell-derived extracellular vesicles in tumor-bearing mice

McCann

Liu

Musante

et al. 2019

Sci Rep

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Extracellular vesicles (EVs) play important roles in tumor progression by altering immune surveillance, promoting vascular dysfunction, and priming distant sites for organotropic metastases. The miRNA expression patterns in circulating EVs are important diagnostic tools in cancer. However, multiple cell types within the tumor microenvironment (TME) including cancer cells and stromal cells (e.g. immune cells, fibroblasts, and endothelial cells, ECs) contribute to the pool of circulating EVs. Because EVs of different cellular origins have different functional properties, auditing the cargo derived from cell type-specific EVs in the TME is essential. Here, we demonstrate that a murine EC lineage-tracing model (Cdh5-CreERT2:ZSGreenl/s/l mice) can be used to isolate EC-derived extracellular vesicles (EC-EVs). We further show that purified ZSGreen+ EVs express expected EV markers, they are transferable to multiple recipient cells, and circulating EC-EVs from tumor-bearing mice harbor elevated levels of specific miRNAs (e.g. miR-30c, miR-126, miR-146a, and miR-125b) compared to non tumor-bearing counterparts. These results suggest that, in the tumor setting, ECs may systemically direct the function of heterotypic cell types either in the circulation or in different organ micro-environments via the cargo contained within their EVs.

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The Cdh5-CreERT2 transgene causes conditional Shb gene deletion in hematopoietic cells with consequences for immune cell responses to tumors

Cited by 10 publications

References 33 publications

The in vivo endothelial cell translatome is highly heterogeneous across vascular beds

The in vivo endothelial cell translatome is highly heterogeneous across vascular beds

c-Src controls stability of sprouting blood vessels in the developing retina independently of cell-cell adhesion through focal adhesion assembly

A miRNA signature in endothelial cell-derived extracellular vesicles in tumor-bearing mice

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