Regulation of tissue morphogenesis by endothelial cell-derived signals
SK Ramasamy, AP Kusumbe, RH Adams - Trends in cell biology, 2015 - cell.com
SK Ramasamy, AP Kusumbe, RH Adams
Trends in cell biology, 2015•cell.comEndothelial cells (ECs) form an extensive network of blood vessels that has numerous
essential functions in the vertebrate body. In addition to their well-established role as a
versatile transport network, blood vessels can induce organ formation or direct growth and
differentiation processes by providing signals in a paracrine (angiocrine) fashion. Tissue
repair also requires the local restoration of vasculature. ECs are emerging as important
signaling centers that coordinate regeneration and help to prevent deregulated, disease …
essential functions in the vertebrate body. In addition to their well-established role as a
versatile transport network, blood vessels can induce organ formation or direct growth and
differentiation processes by providing signals in a paracrine (angiocrine) fashion. Tissue
repair also requires the local restoration of vasculature. ECs are emerging as important
signaling centers that coordinate regeneration and help to prevent deregulated, disease …
Endothelial cells (ECs) form an extensive network of blood vessels that has numerous essential functions in the vertebrate body. In addition to their well-established role as a versatile transport network, blood vessels can induce organ formation or direct growth and differentiation processes by providing signals in a paracrine (angiocrine) fashion. Tissue repair also requires the local restoration of vasculature. ECs are emerging as important signaling centers that coordinate regeneration and help to prevent deregulated, disease-promoting processes. Vascular cells are also part of stem cell niches and have key roles in hematopoiesis, bone formation, and neurogenesis. Here, we review these newly identified roles of ECs in the regulation of organ morphogenesis, maintenance, and regeneration.
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