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Abstract / Description of output
The communication between vascular endothelial cells (ECs) and pericytes in the
microvasculature is fundamental for vascular growth and homeostasis; however, these processes are disrupted by diabetes. Here we show that modulation of p75(NTR) expression in ECs exposed to high glucose activates transcription of miR-503, which negatively affects pericyte function. p75(NTR) activates NF-kB to bind the miR-503 promoter and upregulate miR-503 expression in ECs. NF-kB further induces activation of Rho kinase and shedding of endothelial microparticles carrying miR-503, which transfer miR-503 from ECs to vascular pericytes. The
integrin-mediated uptake of miR-503 in the recipient pericytes reduces expression of EFNB2 and VEGFA, resulting in impaired migration and proliferation. We confirm operation of the above mechanisms in mouse models of diabetes, in which EC-derived miR-503 reduces pericyte coverage of capillaries, increased permeability and impaired post-ischemic angiogenesis in limb muscles. Collectively, our data demonstrate that miR-503 regulates pericyte-endothelial crosstalk in microvascular diabetic complications.
microvasculature is fundamental for vascular growth and homeostasis; however, these processes are disrupted by diabetes. Here we show that modulation of p75(NTR) expression in ECs exposed to high glucose activates transcription of miR-503, which negatively affects pericyte function. p75(NTR) activates NF-kB to bind the miR-503 promoter and upregulate miR-503 expression in ECs. NF-kB further induces activation of Rho kinase and shedding of endothelial microparticles carrying miR-503, which transfer miR-503 from ECs to vascular pericytes. The
integrin-mediated uptake of miR-503 in the recipient pericytes reduces expression of EFNB2 and VEGFA, resulting in impaired migration and proliferation. We confirm operation of the above mechanisms in mouse models of diabetes, in which EC-derived miR-503 reduces pericyte coverage of capillaries, increased permeability and impaired post-ischemic angiogenesis in limb muscles. Collectively, our data demonstrate that miR-503 regulates pericyte-endothelial crosstalk in microvascular diabetic complications.
Original language | English |
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Article number | 8024 |
Journal | Nature Communications |
Volume | 6 |
Early online date | 9 Jul 2015 |
DOIs | |
Publication status | Published - 13 Aug 2015 |
Keywords / Materials (for Non-textual outputs)
- Cell signalling
- Diabetes
- miRNAs
- Transcription
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Dive into the research topics of 'p75(NTR)-dependent activation of NF-κB regulates microRNA-503 transcription and pericyte-endothelial crosstalk in diabetes after limb ischaemia'. Together they form a unique fingerprint.Projects
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Andrea Caporali
- Deanery of Clinical Sciences - Senior Lecturer
- Centre for Cardiovascular Science
Person: Academic: Research Active