Alex Yuri Simões Sato1, Guilherme Linhares Bub2, Alexandre Holthausen Campos3. 1. Hospital Israelita Albert Einstein, São Paulo, Brazil; Centro de Pesquisa Experimental, Av Albert Einstein, 627 - Morumbi, 2S/Bloco A, São Paulo, SP CEP 05651-901, Brazil. Electronic address: alexsimoessato@gmail.com. 2. Hospital Israelita Albert Einstein, São Paulo, Brazil; Centro de Pesquisa Experimental, Av Albert Einstein, 627 - Morumbi, 2S/Bloco A, São Paulo, SP CEP 05651-901, Brazil. Electronic address: guilherme.bub@einstein.br. 3. Hospital Israelita Albert Einstein, São Paulo, Brazil; Centro de Pesquisa Experimental, Av Albert Einstein, 627 - Morumbi, 2S/Bloco A, São Paulo, SP CEP 05651-901, Brazil. Electronic address: holthausen@einstein.br.
Abstract
OBJECTIVE: Monocytes and macrophages, together with vascular smooth muscle cells (VSMCs), play key roles at all stages of atherogenesis. There is also growing evidence that BMP signaling is involved in vascular diseases, including atherosclerosis. Here we evaluate the role played by the BMP agonist/antagonist axis in monocyte recruitment during atherogenesis. METHODS AND RESULTS: Using ApoE-/- mice and BMPs, Gremlin and BMPRII siRNAs we show that BMPs (2 and 4) and their antagonist Gremlin are co-expressed in murine and human atherosclerotic vessels. Additionally, those genes are co-expressed and upregulated in cultured vascular smooth muscle cells early in atherosclerosis formation in ApoE-/- mice. Furthermore, we demonstrate that BMP-2 and -4 produced in atherosclerotic VSMCs promote, whereas Gremlin inhibits, monocyte chemoattraction. Finally, we demonstrate that chemotaxis induction occurs through direct BMP receptor II (BMPRII) activation. CONCLUSION: These findings suggest that the balance between BMPs (2 and 4) and Gremlin levels modulate crosstalk processes between vascular and immune cells and ultimately the homeostasis in normal vasculature. They also indicate that under pro-atherogenic conditions, BMP signaling prevails, favoring monocyte recruitment and inflammation. Manipulation of BMP signaling may enable the identification of novel molecular approaches for preventing, stabilizing, and reverting atherosclerosis.
OBJECTIVE: Monocytes and macrophages, together with vascular smooth muscle cells (VSMCs), play key roles at all stages of atherogenesis. There is also growing evidence that BMP signaling is involved in vascular diseases, including atherosclerosis. Here we evaluate the role played by the BMP agonist/antagonist axis in monocyte recruitment during atherogenesis. METHODS AND RESULTS: Using ApoE-/- mice and BMPs, Gremlin and BMPRII siRNAs we show that BMPs (2 and 4) and their antagonist Gremlin are co-expressed in murine and humanatherosclerotic vessels. Additionally, those genes are co-expressed and upregulated in cultured vascular smooth muscle cells early in atherosclerosis formation in ApoE-/- mice. Furthermore, we demonstrate that BMP-2 and -4 produced in atherosclerotic VSMCs promote, whereas Gremlin inhibits, monocyte chemoattraction. Finally, we demonstrate that chemotaxis induction occurs through direct BMP receptor II (BMPRII) activation. CONCLUSION: These findings suggest that the balance between BMPs (2 and 4) and Gremlin levels modulate crosstalk processes between vascular and immune cells and ultimately the homeostasis in normal vasculature. They also indicate that under pro-atherogenic conditions, BMP signaling prevails, favoring monocyte recruitment and inflammation. Manipulation of BMP signaling may enable the identification of novel molecular approaches for preventing, stabilizing, and reverting atherosclerosis.
Authors: Iraide Alloza; Haize Goikuria; Juan Luis Idro; Juan Carlos Triviño; José María Fernández Velasco; Elena Elizagaray; María García-Barcina; Genoveva Montoya-Murillo; Esther Sarasola; Reyes Vega Manrique; Maria Del Mar Freijo; Koen Vandenbroeck Journal: Sci Rep Date: 2017-06-14 Impact factor: 4.379
Authors: Maria Catalina Gomez-Puerto; Prasanna Vasudevan Iyengar; Amaya García de Vinuesa; Peter Ten Dijke; Gonzalo Sanchez-Duffhues Journal: J Pathol Date: 2018-11-27 Impact factor: 7.996