Blood Pressure Control by a Secreted FGFBP1 (Fibroblast Growth Factor–Binding Protein)

Fibroblast growth factors (FGFs) participate in organ development and tissue maintenance, as well as the control of vascular function. The paracrine-acting FGFs are stored in the extracellular matrix, and their release is controlled by a secreted FGF-binding protein (FGF-BP, FGFBP1, and BP1) that mo...

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Veröffentlicht in:	Hypertension (Dallas, Tex. 1979) Tex. 1979), 2018-01, Vol.71 (1), p.160-167
Hauptverfasser:	Tassi, Elena, Lai, En Yin, Li, Lingli, Solis, Glenn, Chen, Yifan, Kietzman, William E, Ray, Patricio E, Riegel, Anna T, Welch, William J, Wilcox, Christopher S, Wellstein, Anton
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Schlagworte:	Angiotensin II Type 1 Receptor Blockers - pharmacology Animals Benzimidazoles - pharmacology Biphenyl Compounds Blood Pressure - drug effects Blood Pressure - physiology Carrier Proteins - genetics Carrier Proteins - metabolism Cyclic N-Oxides - pharmacology Disease Models, Animal Fibroblast Growth Factors - metabolism Humans Hypertension - drug therapy Hypertension - genetics Hypertension - metabolism Intercellular Signaling Peptides and Proteins - genetics Intracellular Signaling Peptides and Proteins Mice Mice, Transgenic Mitogen-Activated Protein Kinases - metabolism Protein Synthesis Inhibitors - pharmacology Signal Transduction - drug effects Spin Labels Tetrazoles - pharmacology Vasoconstriction - drug effects Vasoconstriction - physiology
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container_title	Hypertension (Dallas, Tex. 1979)
container_volume	71
creator	Tassi, Elena Lai, En Yin Li, Lingli Solis, Glenn Chen, Yifan Kietzman, William E Ray, Patricio E Riegel, Anna T Welch, William J Wilcox, Christopher S Wellstein, Anton
description	Fibroblast growth factors (FGFs) participate in organ development and tissue maintenance, as well as the control of vascular function. The paracrine-acting FGFs are stored in the extracellular matrix, and their release is controlled by a secreted FGF-binding protein (FGF-BP, FGFBP1, and BP1) that modulates FGF receptor signaling. A genetic polymorphism in the human FGFBP1 gene was associated with higher gene expression and an increased risk of familial hypertension. Here, we report on the effects of inducible BP1 expression in a transgenic mouse model. Induction of BP1 expression in adult animals leads to a sustained rise in mean arterial pressure by >30 mm Hg. The hypertensive effect of BP1 expression is prevented by candesartan, an angiotensin II (AngII) receptor antagonist, or by tempol, an inhibitor of reactive oxygen species. In vivo, BP1 expression sensitizes peripheral resistance vessels to AngII constriction by 20-fold but does not alter adrenergic vasoconstriction. FGF receptor kinase inhibition reverses the sensitization to AngII. Also, constriction of isolated renal afferent arterioles by AngII is enhanced after BP1 expression and blocked by FGF receptor kinase inhibition. Furthermore, AngII-mediated constriction of renal afferent arterioles is abolished in FGF2 mice but can be restored by add-back of FGF2 plus BP1 proteins. In contrast to AngII, adrenergic constriction is not affected in the FGF2 model. Proteomics and gene expression analysis of kidney tissues after BP1 induction show that MAPK (mitogen-activated protein kinase) signaling via MKK4 (MAPK kinase 4), p38, and JNK (c-Jun N-terminal kinase) integrates the crosstalk of the FGF receptor and AngII pathways and thus impact vascular tone and blood pressure.
doi_str_mv	10.1161/HYPERTENSIONAHA.117.10268
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Also, constriction of isolated renal afferent arterioles by AngII is enhanced after BP1 expression and blocked by FGF receptor kinase inhibition. Furthermore, AngII-mediated constriction of renal afferent arterioles is abolished in FGF2 mice but can be restored by add-back of FGF2 plus BP1 proteins. In contrast to AngII, adrenergic constriction is not affected in the FGF2 model. Proteomics and gene expression analysis of kidney tissues after BP1 induction show that MAPK (mitogen-activated protein kinase) signaling via MKK4 (MAPK kinase 4), p38, and JNK (c-Jun N-terminal kinase) integrates the crosstalk of the FGF receptor and AngII pathways and thus impact vascular tone and blood pressure.</description><subject>Angiotensin II Type 1 Receptor Blockers - pharmacology</subject><subject>Animals</subject><subject>Benzimidazoles - pharmacology</subject><subject>Biphenyl Compounds</subject><subject>Blood Pressure - drug effects</subject><subject>Blood Pressure - physiology</subject><subject>Carrier Proteins - genetics</subject><subject>Carrier Proteins - metabolism</subject><subject>Cyclic N-Oxides - pharmacology</subject><subject>Disease Models, Animal</subject><subject>Fibroblast Growth Factors - metabolism</subject><subject>Humans</subject><subject>Hypertension - drug therapy</subject><subject>Hypertension - genetics</subject><subject>Hypertension - metabolism</subject><subject>Intercellular Signaling Peptides and Proteins - genetics</subject><subject>Intracellular Signaling Peptides and Proteins</subject><subject>Mice</subject><subject>Mice, Transgenic</subject><subject>Mitogen-Activated Protein Kinases - metabolism</subject><subject>Protein Synthesis Inhibitors - pharmacology</subject><subject>Signal Transduction - drug effects</subject><subject>Spin Labels</subject><subject>Tetrazoles - pharmacology</subject><subject>Vasoconstriction - drug effects</subject><subject>Vasoconstriction - physiology</subject><issn>0194-911X</issn><issn>1524-4563</issn><fulltext>true</fulltext><rsrctype>article</rsrctype><creationdate>2018</creationdate><recordtype>article</recordtype><sourceid>EIF</sourceid><recordid>eNqNkL1u2zAQx4miReOkfYWC3dJBKY8iJXHoYBuWHSBIjMZDOgmUeKrV0mJKUjCy5R3yhnmSqnWaIVNvOeDw_8D9CPkI7Awgg8-rb-vF183i8vr86nK6mo7H_AwYz4pXZAKSi0TILH1NJgyUSBTAzRE5DuEHYyCEyN-SI65AFqlMJ-RmZp0zdO0xhMEjnbs-emdpfUc1vcbGY0RDy2U5WwM9Lbvau9rqEOnSu33c0lI30fnH-4dZ15uu_z4muYhd_-kdedNqG_D90z4hm3Kxma-Si6vl-Xx6kTRSiCIxjLVGmjyX3NScc1bkXLBWNMpINKLNFAqTagUGcilZAYqNbygtteIcVXpCTg-xt979GjDEateFBq3VPbohVKCyTI1TpKNUHaSNdyF4bKtb3-20v6uAVX-4Vi-4jse8-st19H54qhnqHZpn5z-Qo-DLQbB3NqIPP-2wR19tUdu4_Y-C33PniG8</recordid><startdate>201801</startdate><enddate>201801</enddate><creator>Tassi, Elena</creator><creator>Lai, En Yin</creator><creator>Li, Lingli</creator><creator>Solis, Glenn</creator><creator>Chen, Yifan</creator><creator>Kietzman, William E</creator><creator>Ray, Patricio E</creator><creator>Riegel, Anna T</creator><creator>Welch, William J</creator><creator>Wilcox, Christopher S</creator><creator>Wellstein, Anton</creator><general>American Heart Association, Inc</general><scope>CGR</scope><scope>CUY</scope><scope>CVF</scope><scope>ECM</scope><scope>EIF</scope><scope>NPM</scope><scope>AAYXX</scope><scope>CITATION</scope><scope>7X8</scope></search><sort><creationdate>201801</creationdate><title>Blood Pressure Control by a Secreted FGFBP1 (Fibroblast Growth Factor–Binding Protein)</title><author>Tassi, Elena ; 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subjects	Angiotensin II Type 1 Receptor Blockers - pharmacology Animals Benzimidazoles - pharmacology Biphenyl Compounds Blood Pressure - drug effects Blood Pressure - physiology Carrier Proteins - genetics Carrier Proteins - metabolism Cyclic N-Oxides - pharmacology Disease Models, Animal Fibroblast Growth Factors - metabolism Humans Hypertension - drug therapy Hypertension - genetics Hypertension - metabolism Intercellular Signaling Peptides and Proteins - genetics Intracellular Signaling Peptides and Proteins Mice Mice, Transgenic Mitogen-Activated Protein Kinases - metabolism Protein Synthesis Inhibitors - pharmacology Signal Transduction - drug effects Spin Labels Tetrazoles - pharmacology Vasoconstriction - drug effects Vasoconstriction - physiology
title	Blood Pressure Control by a Secreted FGFBP1 (Fibroblast Growth Factor–Binding Protein)
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