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Renal Mechanisms of Association between Fibroblast Growth Factor 1 and Blood Pressure
Authors:Maciej Tomaszewski  James Eales  Matthew Denniff  Stephen Myers  Guat Siew Chew  Christopher P. Nelson  Paraskevi Christofidou  Aishwarya Desai  Cara Büsst  Lukasz Wojnar  Katarzyna Musialik  Jacek Jozwiak  Radoslaw Debiec  Anna F. Dominiczak  Gerjan Navis  Wiek H. van Gilst  Pim van der Harst  Nilesh J. Samani  Stephen Harrap  Pawel Bogdanski  Ewa Zukowska-Szczechowska  Fadi J. Charchar
Abstract:The fibroblast growth factor 1 (FGF1) gene is expressed primarily in the kidney and may contribute to hypertension. However, the biologic mechanisms underlying the association between FGF1 and BP regulation remain unknown. We report that the major allele of FGF1 single nucleotide polymorphism rs152524 was associated in a dose-dependent manner with systolic BP (P=9.65×10−5) and diastolic BP (P=7.61×10−3) in a meta-analysis of 14,364 individuals and with renal expression of FGF1 mRNA in 126 human kidneys (P=9.0×10−3). Next-generation RNA sequencing revealed that upregulated renal expression of FGF1 or of each of the three FGF1 mRNA isoforms individually was associated with higher BP. FGF1-stratified coexpression analysis in two separate collections of human kidneys identified 126 FGF1 partner mRNAs, of which 71 and 63 showed at least nominal association with systolic and diastolic BP, respectively. Of those mRNAs, seven mRNAs in five genes (MME, PTPRO, REN, SLC12A3, and WNK1) had strong prior annotation to BP or hypertension. MME, which encodes an enzyme that degrades circulating natriuretic peptides, showed the strongest differential coexpression with FGF1 between hypertensive and normotensive kidneys. Furthermore, higher level of renal FGF1 expression was associated with lower circulating levels of atrial and brain natriuretic peptides. These findings indicate that FGF1 expression in the kidney is at least under partial genetic control and that renal expression of several FGF1 partner genes involved in the natriuretic peptide catabolism pathway, renin-angiotensin cascade, and sodium handling network may explain the association between FGF1 and BP.
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