Vicky A. Cameron

Integrated Hemodynamic, Hormonal, and Renal Actions of Urocortin 2 in Normal and Paced Sheep Beneficial Effects in Heart Failure

Background— Urocortin 2 (Ucn2) has potent cardiovascular actions and may participate in the pathophysiology of heart failure (HF). The integrated hemodynamic, endocrine, and renal effects of Ucn2 are unknown. Methods and Results— Eight sheep received incremental intravenous boluses of murine Ucn2 (10, 50, and 100 &mgr;g at 2-hour intervals) before (normal) and during pacing-induced HF. Compared with control data, Ucn2 induced rapid and dose-dependent increases in cardiac output (peak effects: normal 4.3±0.2 versus 6.1±0.2 L/min, P<0.001; HF 2.3±0.1 versus 4.5±0.2 L/min, P<0.001) and reductions in peripheral resistance (normal 20.2±1.0 versus 15.2±0.8 mm Hg/L per minute, P<0.01; HF 32.2±1.7 versus 13.6±0.5 mm Hg/L per minute, P<0.001) and left atrial pressure (normal 4.3±0.3 versus 0.5±0.2 mm Hg, P<0.01; HF 22.9±0.6 versus 5.1±1.8 mm Hg, P<0.001). Mean arterial pressure was minimally elevated in normals and decreased in HF (both P<0.01). In both states, Ucn2 reduced plasma atrial natriuretic peptide levels (normal 13±2 versus 10±2 pmol/L; HF 200±20 versus 72±10 pmol/L) and similarly increased corticotropin, cortisol, and Ucn1 (all P<0.001). In HF only, Ucn2 dose dependently decreased plasma vasopressin (3.09±0.36 versus 1.62±0.12 pmol/L, P<0.01), renin (2.98±1.17 versus 0.69±0.10 nmol/L per hour, P<0.001), aldosterone (1186±303 versus 364±122 pmol/L, P<0.001), endothelin-1 (3.39±0.23 versus 2.56±0.18 pmol/L, P<0.01), epinephrine (1633±260 versus 657±142 pmol/L, P<0.01), and brain natriuretic peptide (36±3 versus 18±4 pmol/L, P<0.001) concentrations. Renal effects, including increased urine volume (1.7-fold, P<0.05), sodium excretion (>12-fold, P<0.01), and creatinine excretion (1.3-fold, P<0.001), also occurred only in HF. Conclusions— Ucn2 has marked and beneficial hemodynamic, hormonal, and renal effects in experimental HF. These results support a role for Ucn2 in pressure/volume homeostasis in HF and suggest that the peptide may have therapeutic potential in this disease.

Circulating microRNAs as candidate markers to distinguish heart failure in breathless patients

Since their identification in the circulation, microRNAs have received considerable interest as putative biomarkers of cardiovascular disease. We have investigated the diagnostic utility of microRNAs in differentiating between patients with heart failure (HF) and non‐HF‐related breathlessness, and between HF with reduced (HF‐REF) and preserved (HF‐PEF) EF.

Angiotensin-converting enzyme gene polymorphism interacts with left ventricular ejection fraction and brain natriuretic peptide levels to predict mortality after myocardial infarction.

OBJECTIVES The goal of this study was the exploration of the associations between the angiotensin-converting enzyme (ACE) gene insertion/deletion (I/D) polymorphism and post-myocardial infarction (MI) outcomes, especially any interaction with the accepted clinical prognostic markers brain natriuretic peptide (BNP) and left ventricular ejection fraction (LVEF). BACKGROUND The ACE gene I/D polymorphism has been implicated in the development of MI, hypertension, and left ventricular hypertrophy. We examined the association of ACE I/D and prognosis after acute MI. METHODS Patients incurring acute MI were genotyped for the ACE I/D polymorphism. Clinical data included assays of neurohormones, radionuclide ventriculography, and mortality over a mean 2.6 years of follow-up. RESULTS Patients (n = 978) had a mean age of 62.1 years, and 78% were male. Overall genotype frequencies were II 23.2%, ID 49.5%, and DD 27.3%. Chi-square analysis revealed an association between the ACE D allele and death after MI (88 of 103 who died were DD or ID; p < 0.05), with an odds ratio for mortality of 8.03 (95% confidence interval, 2.16 to 29.88). Patients with the DD genotype had higher (p < 0.05) plasma BNP, N-terminal BNP (N-BNP), and endothelin-1 levels within 96 h after MI than grouped ID/II patients. Multivariate analysis indicated ACE genotype, age, and previous MI were independent predictors of death (p < 0.05). Patients with an ACE D allele in combination with either a lower than median LVEF or greater than median BNP had a higher mortality (p < 0.001 and p < 0.025, respectively) than the risk associated with the D allele itself. CONCLUSIONS Angiotensin-converting enzyme genotyping may provide additional prognostic information in patients after MI in combination with the proven utility of LVEF, plasma BNP, and N-BNP measurements.

Amino-Terminal proCNP: A Putative Marker of Cartilage Activity in Postnatal Growth

Recent evidence from rodents and humans shows that C-type natriuretic peptide (CNP) plays an essential role in endochondral bone growth. We recently identified a stable product of proCNP, amino-terminal proCNP (NT-proCNP), which unlike CNP is readily measurable in human and ovine plasma. Hypothesizing that plasma NT-proCNP concentrations reflect in part CNP synthesis within growth plates of rapidly growing cartilage, we studied levels of CNP forms in both children and lambs and related these to age, growth velocity, and biochemical markers of bone turnover. Plasma NT-proCNP levels were elevated at birth and fell progressively with age. Significant associations between plasma NT-proCNP and height velocity, alkaline phosphatase, and type 1 collagen C telopeptide were identified in children (aged 5–18 y). In longitudinal animal studies, elevated plasma concentration of NT-proCNP in 1-wk-old lambs fell progressively to mature adult levels at age 27 wk. Plasma NT-proCNP showed a highly significant association with alkaline phosphatase and metacarpal growth velocity. Glucocorticoids, a treatment known to inhibit cartilage proliferation, reduced metacarpal growth elongation in 4-wk-old lambs and markedly lowered circulating NT-proCNP levels during the treatment period. In summary, NT-proCNP levels in blood show a strong association with growth velocity and markers of bone formation and may well serve as a useful marker of growth plate activity in humans and other mammals.

Transforming Growth Factor-β Blockade Down-Regulates the Renin-Angiotensin System and Modifies Cardiac Remodeling after Myocardial Infarction

After myocardial infarction (MI), the heart may undergo progressive ventricular remodeling, resulting in a deterioration of cardiac function. TGF-beta is a key cytokine that both initiates and terminates tissue repair, and its sustained production underlies the development of tissue fibrosis, particularly after MI. We investigated the effects of a novel orally active specific inhibitor of the TGF-beta receptor 1 (SD-208) in an experimental model of MI. Mice underwent ligation of the left coronary artery to induce MI and were subsequently treated for 30 d after infarction with either SD-208 or a vehicle control. Blockade of TGF-beta signaling reduced mean arterial pressure in all groups. SD-208 treatment after MI resulted in a trend for reduced ventricular and renal gene expression of TGF-beta-activated kinase-1 (a downstream modulator of TGF-beta signaling) and a significant decrease in collagen 1, in association with a marked decrease in cardiac mass. Post-MI SD-208 treatment significantly reduced circulating levels of plasma renin activity as well as down-regulating the components of the cardiac and renal renin-angiotensin system (angiotensinogen, angiotensin converting enzyme, and angiotensin II type I receptor). Our findings indicate that blockade of the TGF-beta signaling pathway results in significant amelioration of deleterious cardiac remodeling after infarction.

Association of genetic variation in the natriuretic peptide system with cardiovascular outcomes

Polymorphisms within individual natriuretic peptide genes have been associated with risk factors for cardiovascular disease, but their association with clinical outcomes was previously unknown. This study aimed to investigate the association between genetic variants in key genes of the natriuretic peptide system with cardiovascular outcomes in patients with coronary artery disease. Coronary disease patients (n=1810) were genotyped for polymorphisms within NPPA, NPPB, NPPC, NPR1 and NPR2. Clinical history, natriuretic peptide concentrations, echocardiography, all-cause mortality and cardiovascular hospital readmissions were recorded over a median 2.8 years. Minor alleles of NPPA rs5068, rs5065 and rs198358 were associated with less history of hypertension; minor alleles of NPPA rs5068 and rs198358 was also associated with higher circulating natriuretic peptide levels (p=0.003 to p=0.04). Minor alleles of NPPB rs198388, rs198389, and rs632793 were associated with higher circulating BNP and NT-proBNP (p=0.001 to p=0.03), and reduced E/E(1) (p=0.011), or LVESVI (p=0.001) and LVEDVI (p=0.004). Within NPPC, both rs11079028 and rs479651 were associated with higher NT-proBNP and CNP (p=0.01 to p=0.03), and rs479651 was associated with lower LVESVI (p=0.008) and LVEDVI (p=0.018). NPR2 rs10758325 was associated with smaller LVMI (p<0.02). A reduced rate of cardiovascular readmission was observed for minor alleles of NPPA rs5065 (p<0.0001), NPPB rs632793 (p<0.0001), rs198388 (p<0.0001), rs198389 (p<0.0001), and NPR2 rs10758325 (p<0.0001). There were no associations with all-cause mortality. In established cardiovascular disease, natriuretic peptide system polymorphisms were associated with natriuretic peptide levels, hypertension, echocardiographic indices and the incidence of hospital readmission for cardiovascular events.

Angiotensinogen M235T and T174M Gene Polymorphisms in Combination Doubles the Risk of Mortality in Heart Failure

Angiotensinogen M235T and T174M polymorphisms have individually been associated with elevated levels of plasma angiotensinogen, hypertension, and left ventricular hypertrophy. In this study, heart failure patients (n=451) were genotyped for the angiotensinogen M235T and T174M polymorphisms to investigate association with survival (recorded over 4 years of follow-up) and prognostic hormone markers. Patients carrying the 235TT genotype (n=86) were 3 years younger at admission (P=0.011), and, in those with hypertension, diagnosis was made ≈10 years earlier than other patients. Patients carrying ≥1 174M allele (n=94) were more likely to have a previous history of heart failure (P=0.044) and increased mortality during follow-up (risk ratio: 1.69, 95% CI: 1.03 to 2.79; P=0.038) compared with 174TT homozygotes (n=355), despite having a higher left ventricular ejection fraction (P=0.009). “High-risk” genotype combinations (defined a priori as 235TT and/or ≥1 174M allele; n=144; 32%) were independently predictive of mortality, conferring a 2-fold greater risk of dying during the follow-up period (odds ratio: 2.0; 95% CI: 1.3 to 3.0; P=0.001). This study suggested that angiotensinogen gene variants M235T and T174M may provide prognostic information for long-term survival in heart failure patients.

Association Between the Chromosome 9p21 Locus and Angiographic Coronary Artery Disease Burden: A Collaborative Meta-Analysis

OBJECTIVES This study sought to ascertain the relationship of 9p21 locus with: 1) angiographic coronary artery disease (CAD) burden; and 2) myocardial infarction (MI) in individuals with underlying CAD. BACKGROUND Chromosome 9p21 variants have been robustly associated with coronary heart disease, but questions remain on the mechanism of risk, specifically whether the locus contributes to coronary atheroma burden or plaque instability. METHODS We established a collaboration of 21 studies consisting of 33,673 subjects with information on both CAD (clinical or angiographic) and MI status along with 9p21 genotype. Tabular data are provided for each cohort on the presence and burden of angiographic CAD, MI cases with underlying CAD, and the diabetic status of all subjects. RESULTS We first confirmed an association between 9p21 and CAD with angiographically defined cases and control subjects (pooled odds ratio [OR]: 1.31, 95% confidence interval [CI]: 1.20 to 1.43). Among subjects with angiographic CAD (n = 20,987), random-effects model identified an association with multivessel CAD, compared with those with single-vessel disease (OR: 1.10, 95% CI: 1.04 to 1.17)/copy of risk allele). Genotypic models showed an OR of 1.15, 95% CI: 1.04 to 1.26 for heterozygous carrier and OR: 1.23, 95% CI: 1.08 to 1.39 for homozygous carrier. Finally, there was no significant association between 9p21 and prevalent MI when both cases (n = 17,791) and control subjects (n = 15,882) had underlying CAD (OR: 0.99, 95% CI: 0.95 to 1.03)/risk allele. CONCLUSIONS The 9p21 locus shows convincing association with greater burden of CAD but not with MI in the presence of underlying CAD. This adds further weight to the hypothesis that 9p21 locus primarily mediates an atherosclerotic phenotype.

Angiotensin Type-1 Receptor A1166C Gene Polymorphism Correlates With Oxidative Stress Levels in Human Heart Failure

Oxidative stress plays a critical role in the pathogenesis of cardiovascular disease and diabetes. Studies in vascular cells and experimental animals have demonstrated that the angiotensin type-1 receptor (AT1R) contributes to formation of reactive oxygen species by activating nicotinamide-adenine dinucleotide phosphate oxidases, but the relevance of this pathway to human heart disease has not been established. Here we demonstrate that a polymorphism in the AT1R gene (A1166C), linked to increased receptor activity, is associated with elevated levels of oxidative stress markers in heart failure patients but not in healthy controls. Plasma protein carbonyls (PCs), a marker of oxidative protein modification, were 10-fold higher in heart-failure patients compared with controls [geometric means and 95% CIs for patients, 75 (57 to 100) pmol/mg; controls, 5 (4 to 7) pmol/mg; P<0.001]. Moreover, levels of PCs were 50-fold higher in patients homozygous for the polymorphism (CC) than in controls and significantly higher than the AA and AC genotype patient groups [CC: 273 (135–550); AC: 59 (35–98); AA: 65 (40–106) pmol/mg; P<0.001]. Levels of myeloperoxidase were also modestly increased in heart-failure patients [51 (46–57) ng/mL] compared with controls [37 (32–44) ng/mL; P<0.001], but were especially elevated in patients with a CC genotype [CC: 72 (58–89); AC: 52 (44–61); AA: 39 (34–46) ng/mL; P<0.001]. The AT1R genotype was demonstrated to be an independent predictor of both PCs and myeloperoxidase levels in heart-failure patients. These findings suggest that oxidative stress in human heart failure is regulated via angiotensin signaling and may involve the nicotinamide dinucleotide oxidase pathway.

A Common Variant at Chromosome 9P21.3 Is Associated With Age of Onset of Coronary Disease but Not Subsequent Mortality

Background—Chromosome 9p21.3 (chr9p21.3) recently was identified by several genome-wide association studies as the genomic region most strongly associated with the risk of coronary artery disease. Within the chr9p21.3 locus, the single-nucleotide polymorphism rs1333049 has been demonstrated to be most strongly associated with susceptibility to developing coronary artery disease. However, the effect of rs1333049 on clinical outcomes in patients with established coronary disease has yet to be determined. Methods and Results—Coronary Disease Cohort Study (CDCS) (n=1054) and Post-Myocardial Infarction (PMI) (n=816) study participants were genotyped for rs1333049. Clinical history, circulating lipids, neurohormones, cardiac function, and discharge medications were documented. All-cause mortality and cardiovascular hospital readmissions were recorded over a median follow-up period of 4.0 years for the CDCS cohort and 9.1 years for the PMI cohort. The CDCS patients homozygous for the high-risk C allele had an age of onset 2 to 5 years earlier for coronary disease (P=.005), angina (P=.025), myocardial infarction (P=.022), and percutaneous transluminal coronary angioplasty (P=.009). Patients with the CC genotype also had higher levels of total cholesterol (P=.033) and triglycerides (P=.003). The PMI participants with the CC genotype were 3 years younger on admission (P=.009). Cox proportional hazards analysis adjusting for established predictors of increased risk showed no significant association between rs1333049 genotype and mortality in either the CDCS (P=.214) or the PMI (P=.696) cohorts. Conclusions—The chr9p21.3 polymorphism rs1333049 was associated with an earlier age of disease onset in 2 coronary disease cohorts but not with poorer clinical outcome in either cohort.