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The role of AmotL2 in the regulation of mesenchymal transitioning of endothelial cellsMonteiro, Anita-Ann January 2023 (has links)
Background During development, endothelial cells acquire mesenchymal-like properties to migrate and facilitate normal vascular formation. This process of transformation is known as endothelial to mesenchymal transition (EndMT) and has also been implicated in diseases like vascular pathologies contributing to endothelial inflammation, atherosclerosis and tumour angiogenesis. The Angiomotin family of scaffold proteins play a role in transducing mechanical force at cell junctions. Of this family, Angiomotin-Like 2 (AmotL2) localises to endothelial cell junctions and was recently found to play a role in regulating endothelial cell mechanosensing and inflammation. Methods/Materials Primary human endothelial cell lines (HUVEC) were cultured and manipulated in vitro to investigate the role of AmotL2 in EndMT. Lentiviral short hairpin RNA interference was employed in AmotL2-loss-of-function studies, (produced using HEK - Human Embryonic Kidney - cells) to generate knockdown(kd) cells. Western blotting (WB) was used to assess AmotL2 depletion and changes in protein expression of key EndMT markers. qPCR was performed to look at the same at a transcriptional level. Immunofluorescent staining and confocal imaging were performed to validate WB and qPCR results as well as to study protein localisation. Results AmotL2 was found to regulate Snail1 and N-cadherin at both protein and mRNA levels. Morphological findings displayed the AmotL2kd cells to be elongated, deviating from the regular cobblestone morphology observed in control cells. An increase in scaffold protein levels was observed in the AmotL2 kd samples. Similar results were seen in qPCR data where increased mRNA expression was observed in the AmotL2 kd samples for the same targets. On analysis of IF image data, more nuclear staining was observed in the kd samples. qPCR analysis done on samples treated with TGF-β, exhibited an increase in mRNA expression of targets involved in the EndMT pathway in the treatment samples against the controls. Conclusion The results suggest that AmotL2 plays a role in EndMT by affecting the transcription factors and proteins involved in the pathway, which leads to changing morphology and behaviour of the cells. Looking into more targets involved in EndMT may give us a better understanding of how this process leads to diseases like atherosclerosis and tumour angiogenesis.
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