- Jackson, Kristy, Gueguen, Cindy, Lim, Kyungjoon, Eikelis, Nina, Stevenson, Emily, Charchar, Fadi, Lambert, Gavin, Burke, Sandra, Paterson, Madeleine, Marques, Francine, Head, Geoffrey
- Authors: Jackson, Kristy , Gueguen, Cindy , Lim, Kyungjoon , Eikelis, Nina , Stevenson, Emily , Charchar, Fadi , Lambert, Gavin , Burke, Sandra , Paterson, Madeleine , Marques, Francine , Head, Geoffrey
- Date: 2020
- Type: Text , Journal article
- Relation: Hypertension Research Vol. 43, no. 11 (2020), p. 1152-1164
- Full Text: false
- Reviewed:
- Description: BPH/2J mice are a genetic model of hypertension with overactivity of the sympathetic nervous system (SNS) and renin–angiotensin system (RAS). BPH/2J display higher renal renin mRNA and low levels of its negative regulator microRNA-181a (miR-181a). We hypothesise that high renal SNS activity may reduce miR-181a expression, which contributes to elevated RAS activity and hypertension in BPH/2J. Our aim was to determine whether in vivo administration of a renal-specific miR-181a mimic or whether renal denervation could increase renal miR-181a abundance to reduce renal renin mRNA, RAS activity and hypertension in BPH/2J mice. Blood pressure (BP) in BPH/2J and normotensive BPN/3J mice was measured via radiotelemetry probes. Mice were administered miR-181a mimic or a negative control (1–25 nmol, i.v., n = 6–10) with BP measured for 48 h after each dose or they underwent renal denervation or sham surgery (n = 7–9). Injection of 5–25 nmol miR-181a mimic reduced BP in BPH/2J mice after 36–48 h (−5.3 ± 1.8, −6.1 ± 1.9 mmHg, respectively, P < 0.016). Treatment resulted in lower renal renin and inflammatory marker (TLR4) mRNA levels in BPH/2J. The mimic abolished the hypotensive effect of blocking the RAS with enalaprilat (P < 0.01). No differences between mimic or vehicle were observed in BPN/3J mice except for a higher level of renal angiotensinogen in the mimic-treated mice. Renal miR-181a levels that were lower in sham BPH/2J mice were greater following renal denervation and were thus similar to those of BPN/3J. Our findings suggest that the reduced renal miR-181a may partially contribute to the elevated BP in BPH/2J mice, through an interaction between the renal sympathetic nerves and miR-181a regulation of the RAS. © 2020, The Japanese Society of Hypertension.
- Description: This work was supported by a grant from the National Health & Medical Research Council of Australia (NHMRC, Project grant 1065714) and in part by the Victorian Government’s OIS Program. Investigators were supported by NHMRC/National Heart Foundation (NHF) Postdoctoral Fellowships (NHMRC APP1091688 to KLJ, NHMRC APP1052659 and NHF PF12M6785 and 101185 to FZM) and NHMRC Research Fellowships (APP1042492 to GWL and APP1002186 to GAH).
Genetic mechanisms of vascular and renal damage
- Marques, Francine, Tomaszewski, Maciej, Charchar, Fadi
- Authors: Marques, Francine , Tomaszewski, Maciej , Charchar, Fadi
- Date: 2013
- Type: Text , Journal article
- Relation: Journal of Hypertension Vol. 31, no. 11 (2013), p. 2128-2129
- Full Text: false
- Reviewed:
- Description: Document type (note)
- Description: C4
- Jackson, Kristy, Marques, Francine, Watson, Anna, Palma-Rigo, Keisia, Nguyen-Huu, Thu-Phuc, Morris, Brian, Charchar, Fadi, Davern, Pamela, Head, Geoffrey
- Authors: Jackson, Kristy , Marques, Francine , Watson, Anna , Palma-Rigo, Keisia , Nguyen-Huu, Thu-Phuc , Morris, Brian , Charchar, Fadi , Davern, Pamela , Head, Geoffrey
- Date: 2013
- Type: Text , Journal article
- Relation: Hypertension Vol. 62 , no. 4 (2013), p. 775-781
- Full Text: false
- Reviewed:
- Description: Genetically hypertensive mice (BPH/2J) are hypertensive because of an exaggerated contribution of the sympathetic nervous system to blood pressure. We hypothesize that an additional contribution to elevated blood pressure is via sympathetically mediated activation of the intrarenal renin-angiotensin system. Our aim was to determine the contribution of the renin-angiotensin system and sympathetic nervous system to hypertension in BPH/2J mice. BPH/2J and normotensive BPN/3J mice were preimplanted with radiotelemetry devices to measure blood pressure. Depressor responses to ganglion blocker pentolinium (5 mg/kg i.p.) in mice pretreated with the angiotensin-converting enzyme inhibitor enalaprilat (1.5 mg/kg i.p.) revealed a 2-fold greater sympathetic contribution to blood pressure in BPH/2J mice during the active and inactive period. However, the depressor response to enalaprilat was 4-fold greater in BPH/2J compared with BPN/3J mice, but only during the active period (P=0.01). This was associated with 1.6-fold higher renal renin messenger RNA (mRNA; P=0.02) and 0.8-fold lower abundance of micro-RNA-181a (P=0.03), identified previously as regulating human renin mRNA. Renin mRNA levels correlated positively with depressor responses to pentolinium (r=0.99; P=0.001), and BPH/2J mice had greater renal sympathetic innervation density as identified by tyrosine hydroxylase staining of cortical tubules. Although there is a major sympathetic contribution to hypertension in BPH/2J mice, the renin-angiotensin system also contributes, doing so to a greater extent during the active period and less during the inactive period. This is the opposite of the normal renin-angiotensin system circadian pattern. We suggest that renal hyperinnervation and enhanced sympathetically induced renin synthesis mediated by lower micro-RNA-181a contributes to hypertension in BPH/2J mice.
- Marques, Francine, Campain, Anna, Yang, Yee, Morris, Brian
- Authors: Marques, Francine , Campain, Anna , Yang, Yee , Morris, Brian
- Date: 2010
- Type: Text , Journal article
- Relation: Hypertension Vol. 56, no. 2 (August 2010), p. 319-324
- Full Text: false
- Reviewed:
- Description: Gene expression differences accompany both the onset and established phases of hypertension. By an integrated genome-transcriptome approach we performed a meta-analysis of data from 74 microarray experiments available on public databases to identify genes with altered expression in the kidney, adrenal, heart, and artery of spontaneously hypertensive and Lyon hypertensive rats. To identify genes responsible for the onset of hypertension we used a statistical approach that sought to eliminate expression differences that occur during maturation unrelated to hypertension. Based on this adjusted fold-difference statistic, we found 36 genes for which the expression differed between the prehypertensive phase and established hypertension. Genes having possible relevance to hypertension onset included Actn2, Ankrd1, ApoE, Cd36, Csrp3, Me1, Myl3, Nppa, Nppb, Pln, Postn, Spp1, Slc21a4, Slc22a2, Thbs4, and Tnni3. In established hypertension 102 genes exhibited altered expression after Bonferroni correction (P<0.05). These included Atp5o, Ech1, Fabp3, Gnb3, Ldhb, Myh6, Lpl, Pkkaca, Vegfb, Vcam1, and reduced nicotinamide-adenine dinucleotide dehydrogenases. Among the genes identified, there was an overrepresentation of gene ontology terms involved in energy production, fatty acid and lipid metabolism, oxidation, and transport. These could contribute to increases in reactive oxygen species. Our meta-analysis has revealed many new genes for which the expression is altered in hypertension, so pointing to novel potential causative, maintenance, and responsive mechanisms and pathways.
- Description: C1
121 Telomere attrition is attenuated in ultra-marathon runners
- Denham, Joshua, Nankervis, Scott, Debiec, Radek, Harvey, Jack, Pascoe, Deborah, Marques, Francine, O’Brien, Brendan, Zukowska-Szczechowska, Ewa, Tomaszewski, Maciej, Charchar, Fadi
- Authors: Denham, Joshua , Nankervis, Scott , Debiec, Radek , Harvey, Jack , Pascoe, Deborah , Marques, Francine , O’Brien, Brendan , Zukowska-Szczechowska, Ewa , Tomaszewski, Maciej , Charchar, Fadi
- Date: 2012
- Type: Text , Journal article
- Relation: Journal of Hypertension Vol. 30, no. e-Supplement (September 2012), p. e37
- Full Text: false
- Reviewed:
- Description: Background: Leukocyte telomere length is a marker of biological ageing and its shortening is associated with cardiovascular disease. Engagement in regular moderate-intensity physical activity is a recognised method of cardiovascular disease prevention. However, it is not clear whether repeated exposure to ultra-strenuous physical exercise is beneficial long-term and whether it may attenuate biological ageing. Methods: We compared leukocyte telomere length in context of inflammation and endothelial dysfunction between 67 male ultra-marathon runners and 67 age-, sex- and BMI-matched apparently healthy controls. Genomic DNA was extracted from peripheral blood and leukocyte telomere length was measured by quantitative polymerase chain reaction assays. Adhesion molecules (sICAM-1, sE-selectin) and inflammatory markers (IL-6, C-reactive protein) concentrations were measured in 67 ultra-marathon runners by quantitative sandwich enzyme immunoassay technique, high-sensitive immunoassay and ultra-sensitive double antibody sandwich ELISA, respectively. Results: Adjusted (for age, BMI, blood pressure and lipids) leukocyte telomere length was approximately 13.8% greater in the ultra-marathon runners than in the controls (P<0.001). This translates into approximately 32.9 years difference in age-related telomere length attrition. There was a strong negative linear correlation between sICAM-1 and leukocyte telomere length in the ultra-marathon runners (r=-0.33; P=0.007) and this association retained its statistical significance after adjustment for age, BMI, blood pressure and lipids in multiple regression (P=0.026). Conclusion: Prolonged, intense physical exercise may attenuate cellular ageing possibly through a protective effect on endothelial function.
- Description: C1
Abnormal microRNA expression in cardiac hypertrophy and the regulation of the Endog gene
- Quarrell, Sean, Marques, Francine, Jayaswal, Vivek, Curl, Claire, Nankervis, Scott, Yang, Jean, Delbridge, Lea, Harrap, Stephen, Charchar, Fadi
- Authors: Quarrell, Sean , Marques, Francine , Jayaswal, Vivek , Curl, Claire , Nankervis, Scott , Yang, Jean , Delbridge, Lea , Harrap, Stephen , Charchar, Fadi
- Date: 2012
- Type: Text , Journal article
- Relation: Heart, Lung and Circulation Vol. 21, no. Supplement 1 (2012), p. s7
- Full Text: false
- Reviewed:
- Description: A deficiency in the gene for endonuclease G (Endog) was recently described as a genetic determinant of cardiac hypertrophy. The mechanisms involved in the regulation of Endog, however, are still to be elucidated. Therefore we hypothesised that Endog, being regulated by small regulatory non-coding RNAs called microRNAs (miRNAs), could contribute to the cardiac hypertrophy of the Hypertrophic Heart Rat (HHR), a human polygenic model of cardiac hypertrophy. From birth the HHR has less and smaller cardiomyocytes, which leads to hypertrophy and cardiac failure later in life. In this study, we examined genome-wide miRNA expression by Agilent Rat miRNA Microarray Kit Release 16.0 and Endog mRNA levels by real-time PCR in the left ventricle of neonatal HHR compared to age-matched rats from its authentic control, the Normal Heart Rat (NHR). Endog mRNA was significantly under-expressed in the HHR (fold change=−4.7; P=0.0001). Sixty-seven miRNAs (FDR P<0.05 and fold change>1.1) were differentially expressed between HHR and NHR (n=16). We then performed an in silico analysis to predict the miRNAs that are able to bind to the 3′ untranslated region of Endog mRNA, and therefore could regulate Endog levels. We discovered that the miRNAs let-7b, miR-338 and miR-347 are predicted to bind to Endog mRNA. Functional studies are being undertaken to determine whether these miRNAs can regulate Endog mRNA levels in vitro and their role in the pathological processes leading to cardiac hypertrophy. These miRNAs could be a new target for the prevention and treatment of cardiac hypertrophy in humans
- Chilton, Warrick, Marques, Francine, O'Brien, Brendan, Charchar, Fadi
- Authors: Chilton, Warrick , Marques, Francine , O'Brien, Brendan , Charchar, Fadi
- Date: 2012
- Type: Text , Journal article
- Relation: Journal of Hypertension Vol. 30, no. e-Supplement (September 2012), p. e49
- Full Text: false
- Reviewed:
- Description: Background: Compelling epidemiological data demonstrates that regular physical exercise reduces cardiovascular mortality. Telomeres are specialised DNA structures located at the end of linear chromosomes where they protect them from degradation during DNA replication. Telomerase reverse transcriptase (TERT) expression is essential for telomere length maintenance. Accelerated telomere shortening is associated with increased risk of cardiovascular disease (CVD). Sirtuin 6 (SIRT6) is associated with increased longevity and protection against cardiac hypertrophy. Importantly, SIRT6 maintains genomic stability by specifically associating with telomeric chromatin. We hypothesized that acute cardiorespiratory exercise will affect the immediate expression of TERT and SIRT6. Methods: Twenty four healthy adults (19-39 years old) undertook 30 minutes of continuous treadmill running at 80% of maximal oxygen uptake (VO2max). Blood samples were taken before and immediately after exercise. Total RNA was extracted from white blood cells using TRIzol(R) LS reagent. TERT and SIRT6 mRNA expression were measured by real-time PCR. Results: There was no difference in TERT (P = 0.13) and SIRT6 (P = 0.73) mRNA levels immediately after acute cardiorespiratory exercise. Resting TERT levels, however, were negatively correlated with body mass index (BMI) (P = 0.03), waist to hip ratio (P = 0.01) and diastolic blood pressure (BP) (P = 0.05), while a marginal negative correlation was observed with systolic BP (P = 0.07). Conclusions: The results indicate that intense cardiorespiratory exercise does not result in acute modulation of TERT and SIRT6 mRNA. The negative correlations between BP, BMI, waist to hip ratio and TERT levels may provide a mechanistic insight into the established negative correlations between telomere length, hypertension and obesity.
- Description: C1
Tripartite motif-containing 55 identified as functional candidate for spontaneous cardiac hypertrophy in the rat locus cardiac mass 22
- Prestes, Priscilla, Marques, Francine, Lopez-Campos, Guillermo, Booth, Scott, McGlynn, Maree, Lewandowski, Paul, Delbridge, Lea, Harrap, Stephen, Charchar, Fadi
- Authors: Prestes, Priscilla , Marques, Francine , Lopez-Campos, Guillermo , Booth, Scott , McGlynn, Maree , Lewandowski, Paul , Delbridge, Lea , Harrap, Stephen , Charchar, Fadi
- Date: 2016
- Type: Text , Journal article
- Relation: Journal of Hypertension Vol. 34, no. 5 (May 2016), p. 950-958
- Relation: http://purl.org/au-research/grants/nhmrc/1034371
- Full Text:
- Reviewed:
- Description: Background:Left ventricular (LV) hypertrophy is a risk factor for cardiovascular death, but the genetic factors determining LV size and predisposition to hypertrophy are not well understood. We have previously linked the quantitative trait locus cardiac mass 22 (Cm22) on chromosome 2 with cardiac hypertrophy independent of blood pressure in the spontaneously hypertensive rat. From an original cross of spontaneously hypertensive rat with F344 rats, we derived a normotensive polygenic model of spontaneous cardiac hypertrophy, the hypertrophic heart rat (HHR) and its control strain, the normal heart rat (NHR).Methods and results:To identify the genes and molecular mechanisms underlying spontaneous LV hypertrophy we sequenced the HHR genome with special focus on quantitative trait locus Cm22. For correlative analyses of function, we measured global RNA transcripts in LV of neonatal HHR and NHR and 198 neonatal rats of an HHRxNHR F2 crossbred population. Only one gene within locus Cm22 was differentially expressed in the parental generation: tripartite motif-containing 55 (Trim55), with mRNA downregulation in HHR (P<0.05) and reduced protein expression. Trim55 mRNA levels were negatively correlated with LV mass in the F2 cross (r=-0.16, P=0.025). In exon nine of Trim55 in HHR, we found one missense mutation that functionally alters protein structure. This mutation was strongly associated with Trim55 mRNA expression in F2 rats (F=10.35, P<0.0001). Similarly, in humans, we found reduced Trim55 expression in hearts of subjects with idiopathic dilated cardiomyopathy.Conclusion:Our study suggests that the Trim55 gene, located in Cm22, is a novel candidate gene for polygenic LV hypertrophy independent of blood pressure.
- Authors: Prestes, Priscilla , Marques, Francine , Lopez-Campos, Guillermo , Booth, Scott , McGlynn, Maree , Lewandowski, Paul , Delbridge, Lea , Harrap, Stephen , Charchar, Fadi
- Date: 2016
- Type: Text , Journal article
- Relation: Journal of Hypertension Vol. 34, no. 5 (May 2016), p. 950-958
- Relation: http://purl.org/au-research/grants/nhmrc/1034371
- Full Text:
- Reviewed:
- Description: Background:Left ventricular (LV) hypertrophy is a risk factor for cardiovascular death, but the genetic factors determining LV size and predisposition to hypertrophy are not well understood. We have previously linked the quantitative trait locus cardiac mass 22 (Cm22) on chromosome 2 with cardiac hypertrophy independent of blood pressure in the spontaneously hypertensive rat. From an original cross of spontaneously hypertensive rat with F344 rats, we derived a normotensive polygenic model of spontaneous cardiac hypertrophy, the hypertrophic heart rat (HHR) and its control strain, the normal heart rat (NHR).Methods and results:To identify the genes and molecular mechanisms underlying spontaneous LV hypertrophy we sequenced the HHR genome with special focus on quantitative trait locus Cm22. For correlative analyses of function, we measured global RNA transcripts in LV of neonatal HHR and NHR and 198 neonatal rats of an HHRxNHR F2 crossbred population. Only one gene within locus Cm22 was differentially expressed in the parental generation: tripartite motif-containing 55 (Trim55), with mRNA downregulation in HHR (P<0.05) and reduced protein expression. Trim55 mRNA levels were negatively correlated with LV mass in the F2 cross (r=-0.16, P=0.025). In exon nine of Trim55 in HHR, we found one missense mutation that functionally alters protein structure. This mutation was strongly associated with Trim55 mRNA expression in F2 rats (F=10.35, P<0.0001). Similarly, in humans, we found reduced Trim55 expression in hearts of subjects with idiopathic dilated cardiomyopathy.Conclusion:Our study suggests that the Trim55 gene, located in Cm22, is a novel candidate gene for polygenic LV hypertrophy independent of blood pressure.
Experimental and human evidence for Lipocalin-2 (Neutrophil Gelatinase-Associated Lipocalin NGAL ) in the development of cardiac hypertrophy and heart failure
- Marques, Francine, Prestes, Priscilla, Byars, Sean, Ritchie, Scott, Wurtz, Peter, Patel, Sheila, Booth, Scott, Rana, Indrajeetsinh, Minoda, Yosuke, Berzins, Stuart, Curl, Claire, Bell, James, Wai, Bryan, Srivastava, Piyush, Kangas, Antti, Soininen, Pasi, Ruohonen, Saku, Kahonen, Mika, Lehtimaki, Terho, Raitoharju, Emma, Havulinna, Aki, Perola, Markus, Raitakari, Olli, Salomaa, Veikko, Ala-Korpela, Mika, Kettunen, Johannes, McGlynn, Maree, Kelly, Jason, Wlodek, Mary, Lewandowski, Paul, Delbridge, Lea, Burrell, Louise, Inouye, Michael, Harrap, Stephen, Charchar, Fadi
- Authors: Marques, Francine , Prestes, Priscilla , Byars, Sean , Ritchie, Scott , Wurtz, Peter , Patel, Sheila , Booth, Scott , Rana, Indrajeetsinh , Minoda, Yosuke , Berzins, Stuart , Curl, Claire , Bell, James , Wai, Bryan , Srivastava, Piyush , Kangas, Antti , Soininen, Pasi , Ruohonen, Saku , Kahonen, Mika , Lehtimaki, Terho , Raitoharju, Emma , Havulinna, Aki , Perola, Markus , Raitakari, Olli , Salomaa, Veikko , Ala-Korpela, Mika , Kettunen, Johannes , McGlynn, Maree , Kelly, Jason , Wlodek, Mary , Lewandowski, Paul , Delbridge, Lea , Burrell, Louise , Inouye, Michael , Harrap, Stephen , Charchar, Fadi
- Date: 2017
- Type: Text , Journal article
- Relation: Journal of the American Heart Association Vol. 6, no. 6 (2017), p. 1-58
- Relation: http://purl.org/au-research/grants/nhmrc/1034371
- Full Text:
- Reviewed:
- Description: Background-Cardiac hypertrophy increases the risk of developing heart failure and cardiovascular death. The neutrophil inflammatory protein, lipocalin-2 (LCN2/NGAL), is elevated in certain forms of cardiac hypertrophy and acute heart failure. However, a specific role for LCN2 in predisposition and etiology of hypertrophy and the relevant genetic determinants are unclear. Here, we defined the role of LCN2 in concentric cardiac hypertrophy in terms of pathophysiology, inflammatory expression networks, and genomic determinants. Methods and Results-We used 3 experimental models: a polygenic model of cardiac hypertrophy and heart failure, a model of intrauterine growth restriction and Lcn2-knockout mouse; cultured cardiomyocytes; and 2 human cohorts: 114 type 2 diabetes mellitus patients and 2064 healthy subjects of the YFS (Young Finns Study). In hypertrophic heart rats, cardiac and circulating Lcn2 was significantly overexpressed before, during, and after development of cardiac hypertrophy and heart failure. Lcn2 expression was increased in hypertrophic hearts in a model of intrauterine growth restriction, whereas Lcn2-knockout mice had smaller hearts. In cultured cardiomyocytes, Lcn2 activated molecular hypertrophic pathways and increased cell size, but reduced proliferation and cell numbers. Increased LCN2 was associated with cardiac hypertrophy and diastolic dysfunction in diabetes mellitus. In the YFS, LCN2 expression was associated with body mass index and cardiac mass and with levels of inflammatory markers. The single-nucleotide polymorphism, rs13297295, located near LCN2 defined a significant cis-eQTL for LCN2 expression. Conclusions-Direct effects of LCN2 on cardiomyocyte size and number and the consistent associations in experimental and human analyses reveal a central role for LCN2 in the ontogeny of cardiac hypertrophy and heart failure.
- Authors: Marques, Francine , Prestes, Priscilla , Byars, Sean , Ritchie, Scott , Wurtz, Peter , Patel, Sheila , Booth, Scott , Rana, Indrajeetsinh , Minoda, Yosuke , Berzins, Stuart , Curl, Claire , Bell, James , Wai, Bryan , Srivastava, Piyush , Kangas, Antti , Soininen, Pasi , Ruohonen, Saku , Kahonen, Mika , Lehtimaki, Terho , Raitoharju, Emma , Havulinna, Aki , Perola, Markus , Raitakari, Olli , Salomaa, Veikko , Ala-Korpela, Mika , Kettunen, Johannes , McGlynn, Maree , Kelly, Jason , Wlodek, Mary , Lewandowski, Paul , Delbridge, Lea , Burrell, Louise , Inouye, Michael , Harrap, Stephen , Charchar, Fadi
- Date: 2017
- Type: Text , Journal article
- Relation: Journal of the American Heart Association Vol. 6, no. 6 (2017), p. 1-58
- Relation: http://purl.org/au-research/grants/nhmrc/1034371
- Full Text:
- Reviewed:
- Description: Background-Cardiac hypertrophy increases the risk of developing heart failure and cardiovascular death. The neutrophil inflammatory protein, lipocalin-2 (LCN2/NGAL), is elevated in certain forms of cardiac hypertrophy and acute heart failure. However, a specific role for LCN2 in predisposition and etiology of hypertrophy and the relevant genetic determinants are unclear. Here, we defined the role of LCN2 in concentric cardiac hypertrophy in terms of pathophysiology, inflammatory expression networks, and genomic determinants. Methods and Results-We used 3 experimental models: a polygenic model of cardiac hypertrophy and heart failure, a model of intrauterine growth restriction and Lcn2-knockout mouse; cultured cardiomyocytes; and 2 human cohorts: 114 type 2 diabetes mellitus patients and 2064 healthy subjects of the YFS (Young Finns Study). In hypertrophic heart rats, cardiac and circulating Lcn2 was significantly overexpressed before, during, and after development of cardiac hypertrophy and heart failure. Lcn2 expression was increased in hypertrophic hearts in a model of intrauterine growth restriction, whereas Lcn2-knockout mice had smaller hearts. In cultured cardiomyocytes, Lcn2 activated molecular hypertrophic pathways and increased cell size, but reduced proliferation and cell numbers. Increased LCN2 was associated with cardiac hypertrophy and diastolic dysfunction in diabetes mellitus. In the YFS, LCN2 expression was associated with body mass index and cardiac mass and with levels of inflammatory markers. The single-nucleotide polymorphism, rs13297295, located near LCN2 defined a significant cis-eQTL for LCN2 expression. Conclusions-Direct effects of LCN2 on cardiomyocyte size and number and the consistent associations in experimental and human analyses reveal a central role for LCN2 in the ontogeny of cardiac hypertrophy and heart failure.
Renal nerves contribute to hypertension in Schlager BPH/2J mice
- Gueguen, Cindy, Jackson, Kristy, Marques, Francine, Eikelis, Nina, Phillips, Sarah, Stevenson, Emily, Charchar, Fadi, Lambert, Gavin, Davern, Pamela, Head, Geoffrey
- Authors: Gueguen, Cindy , Jackson, Kristy , Marques, Francine , Eikelis, Nina , Phillips, Sarah , Stevenson, Emily , Charchar, Fadi , Lambert, Gavin , Davern, Pamela , Head, Geoffrey
- Date: 2019
- Type: Text , Journal article
- Relation: Hypertension Research Vol. 42, no. 3 (2019), p. 306-318
- Full Text:
- Reviewed:
- Description: Schlager mice (BPH/2J) are hypertensive due to a greater contribution of the sympathetic nervous system (SNS) and renin-angiotensin system (RAS). The kidneys of BPH/2J are hyper-innervated suggesting renal nerves may contribute to the hypertension. We therefore determined the effect of bilateral renal denervation (RD) on hypertension in BPH/2J. Mean arterial pressure (MAP) was measured by radiotelemetry before and for 3 weeks after RD in BPH/2J and BPN/3J. The effects of pentolinium and enalaprilat were examined to determine the contribution of the SNS and RAS, respectively. After 3 weeks, MAP was −10.9 ± 2.1 mmHg lower in RD BPH/2J compared to baseline and −2.1 ± 2.2 mmHg in sham BPH/2J (P < 0.001, n = 8–10). RD had no effect in BPN/3J (P > 0.1). The depressor response to pentolinium was greater in BPH/2J than BPN/3J, but in both cases the response in RD mice was similar to sham. Enalaprilat decreased MAP more in RD BPH/2J compared to sham (−12 vs −3 mmHg, P < 0.001) but had no effect in BPN/3J. RD reduced renal noradrenaline in both strains but more so in BPH/2J. RD reduced renin mRNA and protein, but not plasma renin in BPH/2J to levels comparable with BPN/3J mice. We conclude that renal nerves contribute to hypertension in BPH mice as RD induced a sustained fall in MAP, which was associated with a reduction of intrarenal renin expression. The lack of inhibition of the depressor effects of pentolinium and enalaprilat by RD suggests that vasoconstrictor effects of the SNS or RAS are not involved.
- Authors: Gueguen, Cindy , Jackson, Kristy , Marques, Francine , Eikelis, Nina , Phillips, Sarah , Stevenson, Emily , Charchar, Fadi , Lambert, Gavin , Davern, Pamela , Head, Geoffrey
- Date: 2019
- Type: Text , Journal article
- Relation: Hypertension Research Vol. 42, no. 3 (2019), p. 306-318
- Full Text:
- Reviewed:
- Description: Schlager mice (BPH/2J) are hypertensive due to a greater contribution of the sympathetic nervous system (SNS) and renin-angiotensin system (RAS). The kidneys of BPH/2J are hyper-innervated suggesting renal nerves may contribute to the hypertension. We therefore determined the effect of bilateral renal denervation (RD) on hypertension in BPH/2J. Mean arterial pressure (MAP) was measured by radiotelemetry before and for 3 weeks after RD in BPH/2J and BPN/3J. The effects of pentolinium and enalaprilat were examined to determine the contribution of the SNS and RAS, respectively. After 3 weeks, MAP was −10.9 ± 2.1 mmHg lower in RD BPH/2J compared to baseline and −2.1 ± 2.2 mmHg in sham BPH/2J (P < 0.001, n = 8–10). RD had no effect in BPN/3J (P > 0.1). The depressor response to pentolinium was greater in BPH/2J than BPN/3J, but in both cases the response in RD mice was similar to sham. Enalaprilat decreased MAP more in RD BPH/2J compared to sham (−12 vs −3 mmHg, P < 0.001) but had no effect in BPN/3J. RD reduced renal noradrenaline in both strains but more so in BPH/2J. RD reduced renin mRNA and protein, but not plasma renin in BPH/2J to levels comparable with BPN/3J mice. We conclude that renal nerves contribute to hypertension in BPH mice as RD induced a sustained fall in MAP, which was associated with a reduction of intrarenal renin expression. The lack of inhibition of the depressor effects of pentolinium and enalaprilat by RD suggests that vasoconstrictor effects of the SNS or RAS are not involved.
- Marques, Francine, Prestes, Priscilla, Lewandowski, Paul, Harrap, Stephen, Charchar, Fadi
- Authors: Marques, Francine , Prestes, Priscilla , Lewandowski, Paul , Harrap, Stephen , Charchar, Fadi
- Date: 2015
- Type: Text , Conference paper
- Relation: Cardiac Society of Australia and New Zealand Annual Scientific Meeting and the International Society for Heart Research Australasian Section Annual Scientific Meeting; Melbourne, Victoria, Australia; 13th-16th August 2016; published in Heart, Lung and Circulation. Vol. 24, p. S401-S401
- Full Text: false
- Reviewed:
- Description: Objective: The molecular processes associated with cardiac hypertrophy independent of blood pressure are still largely unknown. The hypertrophic heart rate (HHR) is normotensive and born with a reduced complement of cardiomyocytes that predisposes to cardiac hypertrophy and failure in later life. We investigated the expression of c-kit gene, a marker of cardiac stem cells and myocardial regeneration that could contribute to hypertrophy. Methods: Left ventricular c-kit mRNA expression was measured by real-time PCR in HHR and control strain in neonatal and 38-week old rats (n=7-12/group). We tested for linkage of c-kit expression with neonatal cardiac size in 197 second generation crosses (F2) of HHR and control strain. Results: c-kit mRNA was slightly up-regulated in neonatal (fold change +1.3, P=0.02) and markedly so in 38-week old HHR (+35.5, P=0.0003). Cardiac weight index was positively correlated with neonatal myocardial c-kit mRNA in the F2 population (r=0.19, P=0.007). Conclusions: In HHR hearts c-kit expression appears increased throughout life, but more so in the adult where cardiac hypertrophy is established and leading to failure. In aged hypertrophic hearts, over-expression of c-kit is likely a compensatory mechanism of the failing heart. Previous studies showed an activation of cardiac stem cells in the hypertrophic myocardium. Our study suggests that c-kit might be involved from an early age in mechanisms that lead to cardiac hypertrophy in adulthood.
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