Urotensin-II system in genetic control of blood pressure and renal function
- Debiec, Radoslaw, Christofidou, Paraskevi, Denniff, Matthew, Bloomer, Lisa, Bogdanski, Pawel, Wojnar, Lukasz, Musialik, Katarzyna, Charchar, Fadi, Thompson, John, Waterworth, Dawn, Song, Kijoung, Vollenweider, Peter, Waeber, Gerard, Zukowska-Szczechowska, Ewa, Samani, Nilesh, Lambert, David, Tomaszewski, Maciej
- Authors: Debiec, Radoslaw , Christofidou, Paraskevi , Denniff, Matthew , Bloomer, Lisa , Bogdanski, Pawel , Wojnar, Lukasz , Musialik, Katarzyna , Charchar, Fadi , Thompson, John , Waterworth, Dawn , Song, Kijoung , Vollenweider, Peter , Waeber, Gerard , Zukowska-Szczechowska, Ewa , Samani, Nilesh , Lambert, David , Tomaszewski, Maciej
- Date: 2013
- Type: Text , Journal article
- Relation: PLoS ONE Vol. 8, no. 12 (2013), p.
- Full Text:
- Reviewed:
- Description: Urotensin-II controls ion/water homeostasis in fish and vascular tone in rodents. We hypothesised that common genetic variants in urotensin-II pathway genes are associated with human blood pressure or renal function. We performed familybased analysis of association between blood pressure, glomerular filtration and genes of the urotensin-II pathway (urotensin-II, urotensin-II related peptide, urotensin-II receptor) saturated with 28 tagging single nucleotide polymorphisms in 2024 individuals from 520 families; followed by an independent replication in 420 families and 7545 unrelated subjects. The expression studies of the urotensin-II pathway were carried out in 97 human kidneys. Phylogenetic evolutionary analysis was conducted in 17 vertebrate species. One single nucleotide polymorphism (rs531485 in urotensin-II gene) was associated with adjusted estimated glomerular filtration rate in the discovery cohort (p = 0.0005). It showed no association with estimated glomerular filtration rate in the combined replication resource of 8724 subjects from 6 populations. Expression of urotensin-II and its receptor showed strong linear correlation (r = 0.86, p< 0.0001). There was no difference in renal expression of urotensin-II system between hypertensive and normotensive subjects. Evolutionary analysis revealed accumulation of mutations in urotensin-II since the divergence of primates and weaker conservation of urotensin-II receptor in primates than in lower vertebrates. Our data suggest that urotensin-II system genes are unlikely to play a major role in genetic control of human blood pressure or renal function. The signatures of evolutionary forces acting on urotensin-II system indicate that it may have evolved towards loss of function since the divergence of primates. © 2013 Debiec et al.
- Authors: Debiec, Radoslaw , Christofidou, Paraskevi , Denniff, Matthew , Bloomer, Lisa , Bogdanski, Pawel , Wojnar, Lukasz , Musialik, Katarzyna , Charchar, Fadi , Thompson, John , Waterworth, Dawn , Song, Kijoung , Vollenweider, Peter , Waeber, Gerard , Zukowska-Szczechowska, Ewa , Samani, Nilesh , Lambert, David , Tomaszewski, Maciej
- Date: 2013
- Type: Text , Journal article
- Relation: PLoS ONE Vol. 8, no. 12 (2013), p.
- Full Text:
- Reviewed:
- Description: Urotensin-II controls ion/water homeostasis in fish and vascular tone in rodents. We hypothesised that common genetic variants in urotensin-II pathway genes are associated with human blood pressure or renal function. We performed familybased analysis of association between blood pressure, glomerular filtration and genes of the urotensin-II pathway (urotensin-II, urotensin-II related peptide, urotensin-II receptor) saturated with 28 tagging single nucleotide polymorphisms in 2024 individuals from 520 families; followed by an independent replication in 420 families and 7545 unrelated subjects. The expression studies of the urotensin-II pathway were carried out in 97 human kidneys. Phylogenetic evolutionary analysis was conducted in 17 vertebrate species. One single nucleotide polymorphism (rs531485 in urotensin-II gene) was associated with adjusted estimated glomerular filtration rate in the discovery cohort (p = 0.0005). It showed no association with estimated glomerular filtration rate in the combined replication resource of 8724 subjects from 6 populations. Expression of urotensin-II and its receptor showed strong linear correlation (r = 0.86, p< 0.0001). There was no difference in renal expression of urotensin-II system between hypertensive and normotensive subjects. Evolutionary analysis revealed accumulation of mutations in urotensin-II since the divergence of primates and weaker conservation of urotensin-II receptor in primates than in lower vertebrates. Our data suggest that urotensin-II system genes are unlikely to play a major role in genetic control of human blood pressure or renal function. The signatures of evolutionary forces acting on urotensin-II system indicate that it may have evolved towards loss of function since the divergence of primates. © 2013 Debiec et al.
- Marques, Francine, Campain, Anna, Tomaszewski, Maciej, Zukowska-Szczechowska, Ewa, Yang, Yee, Charchar, Fadi, Morris, Brian
- Authors: Marques, Francine , Campain, Anna , Tomaszewski, Maciej , Zukowska-Szczechowska, Ewa , Yang, Yee , Charchar, Fadi , Morris, Brian
- Date: 2011
- Type: Text , Journal article
- Relation: Hypertension Vol. 58, no. 6 (2011), p. 1093-1098
- Full Text: false
- Reviewed:
- Description: The kidney has long been invoked in the etiology of essential hypertension. This could involve alterations in expression of specific genes and microRNAs (miRNAs). The aim of the present study was to identify, at the transcriptome-wide level, mRNAs and miRNAs that were differentially expressed between kidneys of 15 untreated hypertensive and 7 normotensive white male subjects of white European ancestry. By microarray technology we found 14 genes and 11 miRNAs that were differentially expressed in the medulla. We then selected and confirmed by real-time quantitative PCR expression differences for NR4A1, NR4A2, NR4A3, PER1, and SIK1 mRNAs and for the miRNAs hsa-miR-638 and hsa-let-7c. Luciferase reporter gene experiments in human kidney (HEK293) cells confirmed the predicted binding of hsa-let-7c to the 3' untranslated region of NR4A2 mRNA. In the renal cortex we found differential expression of 46 genes and 13 miRNAs. We then confirmed expression differences for AIFM1, AMBP, APOE, CD36, EFNB1, NDUFAF1, PRDX5, REN, RENBP, SLC13A1, STX4, and TNNT2 mRNAs and for miRNAs hsa-miR-21, hsa-miR-126, hsa-miR-181a, hsa-miR-196a, hsa-miR-451, hsa-miR-638, and hsa-miR-663. Functional experiments in HEK293 cells demonstrated that hsa-miR-663 can bind to the REN and APOE 3' untranslated regions and can regulate REN and APOE mRNA levels, whereas hsa-miR-181a regulated REN and AIFM1 mRNA. Our data demonstrated for the first time that miRNAs can regulate renin expression. The observed downregulation of 2 miRNAs in hypertension could explain the elevation in intrarenal renin mRNA. Renin, CD36, and other mRNAs, as well as miRNAs and associated pathways identified in the present study, provide novel insights into hypertension etiology. © 2011 American Heart Association, Inc.
- Tomaszewski, Maciej, Charchar, Fadi, Barnes, Timothy, Maric, Christine, Zukowska-Szczechowska, Ewa, Samani, Nilesh
- Authors: Tomaszewski, Maciej , Charchar, Fadi , Barnes, Timothy , Maric, Christine , Zukowska-Szczechowska, Ewa , Samani, Nilesh
- Date: 2010
- Type: Text , Conference paper
- Relation: Paper presented at British Cardiovascular Society Annual Conference 2010, Manchester Central, Manchester, UK : 7th-9th June 2010
- Full Text: false
- Description: Essential hypertension is a complex, multifactorial disease with a strong genetic component. Fibroblast growth factor 1 gene (FGF1) is one of the most relevant candidates having been associated not only with familial susceptibility to hypertension but also with up-regulation within the glomerulus of the human hypertensive kidney/Circulation 2007;116:1915e24/. We have hypothesised that systematic analysis of genes interacting with FGF1 may uncover novel variants underlying essential hypertension. Seventy-nine common (minor allele frequency$0.1) tagging (r2$0.8) and functional single nucleotide polymorphisms (SNPs) spanning eight critical components of the FGF (fibroblast growth factor) pathway (FGF2, FGFR1, FGFR2, FGFR3, FGFR4, FGFBP1, FIBP, SPRY1) were genotyped by MALDI-TOF mass spectrometry in 629 subjects from 207 Polish hypertensive families (Silesian Hypertension Study d SHS). 83.5% of genotyped SNPs that passed quality control filters provided 92.9% genetic coverage of FGF pathway loci. Family-based analysis in SHS revealed that alleles of three SNPs (rs2956724, rs2245964 and rs16892645) in two loci (FGFR1 and FGFBP1) were transmitted to hypertensive offspring more frequently than expected by chance. However, only one association survived correction for multiple testing e major allele of rs16892645 in FGFBP1 was over-transmitted from heterozygous parents to hypertensive offspring more frequently than expected by chance (p¼0.0048, false discovery rate<0.25). The association between rs16892645 and hypertension was replicated in an independent cohort of 807 Polish subjects from Silesian Cardiovascular Study d each major allele copy of rs16892645 increased the odds of hypertension approximately by 1.5 (odds ratio: 1.5; 95% CI: 1.1 to to 2.2, p¼0.04). Association between FGFBP1 and hypertension was also apparent at the protein expression level d compared with normotensive patients, hypertensives from Silesian Renal Tissue Bank showed approximately 1.4-fold higher renal abundance of FGFBP1 in Western blotting (p¼0.001). Immunohistochemical analysis revealed that hypertension-related up-regulation of FGFBP1 was exclusive to renal glomeruli. These data show that FGFBP1da gene that encodes a carrier protein for FGF1 d is associated with human hypertension. We also reveal that up-regulation of FGFBP1 maps to the same histological compartment where FGF1 was shown to be most abundant (renal glomeruli). Our study also proves that systematic genetic analysis of signalling pathways is a strategy with a potential to identify novel molecular mechanisms underlying blood pressure elevation.
Pathway analysis shows association between FGFBP1 and hypertension
- Tomaszewski, Maciej, Charchar, Fadi, Nelson, Christopher, Barnes, Timothy, Denniff, Matthew, Kaiser, Michael, Debiec, Radoslaw, Christofidou, Paraskevi, Rafelt, Suzanne, Van Harst, Pim Der, Wang, William, Maric, Christine, Zukowska-Szczechowska, Ewa, Samani, Nilesh
- Authors: Tomaszewski, Maciej , Charchar, Fadi , Nelson, Christopher , Barnes, Timothy , Denniff, Matthew , Kaiser, Michael , Debiec, Radoslaw , Christofidou, Paraskevi , Rafelt, Suzanne , Van Harst, Pim Der , Wang, William , Maric, Christine , Zukowska-Szczechowska, Ewa , Samani, Nilesh
- Date: 2011
- Type: Text , Journal article
- Relation: Journal of the American Society of Nephrology Vol. 22, no. 5 (2011), p. 947-955
- Full Text: false
- Reviewed:
- Description: Variants in the gene encoding fibroblast growth factor 1 (FGF1) co-segregate with familial susceptibility to hypertension, and glomerular upregulation of FGF1 associates with hypertension. To investigate whether variants in other members of the FGF signaling pathway may also associate with hypertension, we genotyped 629 subjects from 207 Polish families with hypertension for 79 single nucleotide polymorphisms in eight genes of this network. Family-based analysis showed that parents transmitted the major allele of the rs16892645 polymorphism in the gene encoding FGF binding protein 1 (FGFBP1) to hypertensive offspring more frequently than expected by chance (P = 0.005). An independent cohort of 807 unrelated Polish subjects validated this association. Furthermore, compared with normotensive subjects, hypertensive subjects had approximately 1.5- and 1.4-fold higher expression of renal FGFBP1 mRNA and protein (P = 0.04 and P = 0.001), respectively. By immunohistochemistry, hypertensionrelated upregulation of FGFBP1 was most apparent in the glomerulus and juxtaglomerular space. Taken together, these data suggest that FGFBP1 associates with hypertension and that systematic analysis of signaling pathways can identify previously undescribed genetic associations. Copyright © 2011 by the American Society of Nephrology.
Renal Mechanisms of Association between Fibroblast Growth Factor 1 and Blood Pressure
- Tomaszewski, Maciej, Eales, James, Denniff, Matthew, Myers, Stephen, Chew, Guatsiew, Nelson, Christopher, Christofidou, Paraskevi, Desai, Aishwarya, Büsst, Cara, Wojnar, Lukasz, Musialik, Katarzyna, Jozwiak, Jacek, Debiec, Radoslaw, Dominiczak, Anna, Navis, Gerjan, van Gilst, Wiek, van der Harst, Pim, Samani, Nilesh, Harrap, Stephen, Bogdanski, Pawel, Zukowska-Szczechowska, Ewa, Charchar, Fadi
- Authors: Tomaszewski, Maciej , Eales, James , Denniff, Matthew , Myers, Stephen , Chew, Guatsiew , Nelson, Christopher , Christofidou, Paraskevi , Desai, Aishwarya , Büsst, Cara , Wojnar, Lukasz , Musialik, Katarzyna , Jozwiak, Jacek , Debiec, Radoslaw , Dominiczak, Anna , Navis, Gerjan , van Gilst, Wiek , van der Harst, Pim , Samani, Nilesh , Harrap, Stephen , Bogdanski, Pawel , Zukowska-Szczechowska, Ewa , Charchar, Fadi
- Date: 2015
- Type: Text , Journal article
- Relation: Journal of the American Society of Nephrology Vol. 26, no. 12 (2015), p. 3151-3160
- Relation: http://purl.org/au-research/grants/nhmrc/1009490
- Full Text:
- Reviewed:
- Description: 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 x10(-5)) and diastolic BP (P=7.61 x10(-3)) in a meta-analysis of 14,364 individuals and with renal expression of FGF1 mRNA in 126 human kidneys (P=9.0x10(-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, reninangiotensin cascade, and sodium handling network may explain the association between FGF1 and BP.
- Authors: Tomaszewski, Maciej , Eales, James , Denniff, Matthew , Myers, Stephen , Chew, Guatsiew , Nelson, Christopher , Christofidou, Paraskevi , Desai, Aishwarya , Büsst, Cara , Wojnar, Lukasz , Musialik, Katarzyna , Jozwiak, Jacek , Debiec, Radoslaw , Dominiczak, Anna , Navis, Gerjan , van Gilst, Wiek , van der Harst, Pim , Samani, Nilesh , Harrap, Stephen , Bogdanski, Pawel , Zukowska-Szczechowska, Ewa , Charchar, Fadi
- Date: 2015
- Type: Text , Journal article
- Relation: Journal of the American Society of Nephrology Vol. 26, no. 12 (2015), p. 3151-3160
- Relation: http://purl.org/au-research/grants/nhmrc/1009490
- Full Text:
- Reviewed:
- Description: 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 x10(-5)) and diastolic BP (P=7.61 x10(-3)) in a meta-analysis of 14,364 individuals and with renal expression of FGF1 mRNA in 126 human kidneys (P=9.0x10(-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, reninangiotensin cascade, and sodium handling network may explain the association between FGF1 and BP.
- «
- ‹
- 1
- ›
- »