Mohammed E. Suliman

Impact of inflammation on epigenetic DNA methylation - : a novel risk factor for cardiovascular disease?

Objective.  The lifespan of dialysis patients is as short as in patients with metastatic cancer disease, mainly due to cardiovascular disease (CVD). DNA methylation is an important cellular mechanism modulating gene expression associated with ageing, inflammation and atherosclerotic processes.

Plasma Pentraxin 3 in Patients with Chronic Kidney Disease: Associations with Renal Function, Protein-Energy Wasting, Cardiovascular Disease, and Mortality

BACKGROUND AND OBJECTIVES Plasma protein pentraxin 3 concentrations are elevated in a wide range of diseased states. However, no study has evaluated protein pentraxin 3 in patients with chronic kidney disease. DESIGN, SETTING, PARTICIPANTS, & MEASUREMENTS Plasma protein pentraxin 3 concentrations were analyzed in relation to GFR, inflammation, cardiovascular disease, and protein-energy wasting in 71 patients with stages 3 to 4 chronic kidney disease, 276 patients with stage 5 chronic kidney disease, and 61 control subjects. Survival (5 yr) in patients with stage 5 chronic kidney disease was analyzed in relation to protein pentraxin 3 levels. RESULTS Both patient groups with chronic kidney disease had higher protein pentraxin 3 concentrations than control subjects, with the highest concentration in patients with stage 5 chronic kidney disease. In all patients with chronic kidney disease, protein pentraxin 3 correlated negatively with GFR and positively with inflammatory markers. Patients with protein-energy wasting, inflammation, and cardiovascular disease had higher concentrations of protein pentraxin 3 than their counterparts. Patients with high protein pentraxin 3 levels had higher all-cause and cardiovascular mortality. After adjustment for age, gender, C-reactive protein, and cardiovascular disease, all-cause mortality was still significantly higher in patients with high protein pentraxin 3. Finally, protein pentraxin 3 showed a predictive value of mortality similar to that of IL-6 and better than C-reactive protein. CONCLUSION Plasma protein pentraxin 3 increases as GFR declines and is associated with the presence of cardiovascular disease and protein-energy wasting. Furthermore, in patients with chronic kidney disease, elevated protein pentraxin 3 predicted all-cause mortality.

Plasma Pentosidine Is Associated with Inflammation and Malnutrition in End-Stage Renal Disease Patients Starting on Dialysis Therapy

Pentosidine is an advanced glycation end-product (AGE), formed by glycosylation and oxidation, that accumulates markedly in end-stage renal disease (ESRD). It has been speculated that AGE and carbonyl stress contributes to long-term complications such as cardiovascular disease (CVD) in ESRD patients. This study determined plasma levels of pentosidine as well as the presence of inflammation (CRP > or = 10 mg/L), clinical CVD (CVD(clin)), and malnutrition (subjective global assessment [SGA] > 1) in a cohort of 191 ESRD patients, median age of 55 yr (range, 23 to 70 yr) and median GFR = 7 ml/min (range, 2 to 17 ml/min), close to start of renal replacement therapy. Fifty-one elderly subjects, median age of 82 yr (range, 71 to 110 yr), with mild renal impairment, median GFR = 67 ml/min (range, 38 to 113 ml/min), were also studied for comparative analysis of plasma pentosidine. The plasma pentosidine content was elevated in all patients compared with the levels in the elderly subjects and were negatively correlated with GFR both in the ESRD patients (Rho = -0.24; P < 0.01; n = 159) and in the elderly subjects (Rho = -0.31; P < 0.05). Moreover, the plasma pentosidine content was correlated with age in the ESRD patients (Rho = 0.26; P < 0.001) and in the elderly subjects (Rho = 0.44; P < 0.001). The 63 malnourished ESRD patients (35%) had a significantly higher (P < 0.05) median plasma pentosidine than the well-nourished patients (39 versus 27 pmol/mg albumin). Similarly, 73 inflamed patients (38%) had a significantly higher (P < 0.001) median pentosidine content compared with 118 non-inflamed patients (37 versus 24 pmol/mg albumin). Also, the plasma pentosidine content showed weak but significant positive correlations with CRP (Rho = 0.28; P < 0.0001), fibrinogen (Rho = 0.23; P < 0.01; n = 126), IL-6 (Rho = 0.22; P < 0.01; n = 169), and soluble vascular cellular adhesion molecule-1 (Rho = 0.38; P < 0.001; n = 74). On the other hand, no significant differences in plasma pentosidine content were noted between the patients with and those without CVD(clin) (32 versus 27 pmol/mg albumin, respectively). Analyses of all-cause mortality, by Kaplan-Meier, showed that mortality was not linked to the plasma pentosidine content. Moreover, survival analysis by the Cox regression model showed that age (P < 0.001), diabetes mellitus (P < 0.01), malnutrition (P < 0.01), and CVD(clin) (P < 0.01) independently predicted poor outcome, whereas an elevated plasma pentosidine content did not. The present study shows that an elevated plasma pentosidine content in ESRD patients is significantly associated with both inflammation and malnutrition and confirms that low residual renal function and high age further contribute to an increased plasma pentosidine content. However, in this small cohort, the plasma pentosidine content did not predict outcome. Thus, accumulation of plasma pentosidine is unlikely to be an appropriate clinically useful marker to predict mortality in ESRD patients.

Inflammation contributes to low plasma amino acid concentrations in patients with chronic kidney disease

BACKGROUND Inflammation and malnutrition are common in chronic kidney disease (CKD) patients, and plasma concentrations of free amino acids (AAs) in these patients are often abnormal. Malnutrition contributes to alterations in AA concentrations. OBJECTIVE The objective was to study the effects of inflammation on plasma AA concentrations. DESIGN Concentrations of plasma AAs, serum albumin, and several inflammatory markers were analyzed in 200 fasting, nondiabetic CKD patients who were close to the start of renal replacement therapy. The nutritional status of these patients was assessed by a subjective global assessment. RESULTS The patients with inflammation [C-reactive protein (CRP) concentrations >10 mg/L] or malnutrition had lower AA concentrations than did the patients with no inflammation or malnutrition. The presence of both inflammation and malnutrition was associated with more marked reductions in AA concentrations than was malnutrition alone. Significant inverse correlations were observed between the plasma concentrations of most of the essential and nonessential AAs and inflammatory markers, whereas serum albumin concentrations were positively correlated with several AA concentrations. A stepwise multivariate regression analysis showed that serum CRP concentrations were independently associated with low concentrations of the sums of both nonessential AAs and all AAs. An analysis of all-cause mortality with a Kaplan-Meier test showed that the patients with higher AA concentrations had significantly better survival than did the patients with lower AA concentrations. CONCLUSIONS Plasma AA concentrations are low in CKD patients with inflammation and are inversely correlated with concentrations of inflammatory markers. Although inflammation and malnutrition are closely related, CRP concentrations were independently associated with low concentrations of the sums of both nonessential AAs and all AAs, which suggests an independent role of inflammation as a cause of low plasma AA concentrations in CKD patients.

The long pentraxin PTX-3 in prevalent hemodialysis patients: associations with comorbidities and mortality.

BACKGROUND Pentraxin (PTX)-3, a new candidate marker for inflammation is expressed in a variety of cell types. Recently, we have shown that increase in PTX-3 level is associated with clinical outcome in incident CKD stage 5 patients at start of renal replacement therapy. However, no data are available on PTX-3 and its relationship with clinical outcome in prevalent dialysis patients. METHODS We analyzed plasma PTX-3 concentrations in relation to comorbidities (Davies score), protein-energy wasting (PEW) and inflammation markers in 200 prevalent hemodialysis (HD) patients, aged 64 +/- 14 years, who had been on HD treatment for a median period of 36 months. Survival (42 months) was analyzed in relation to PTX-3 levels (high PTX-3 tertile vs. low two tertiles). RESULTS Plasma PTX-3 correlated positively with C-reactive protein and interleukin-6, and negatively with s-albumin and fetuin-A. Patients with cardiovascular disease (CVD) and PEW had higher levels of PTX-3 than their counterparts and PTX-3 was associated with comorbidity score. In multiple logistic regression analysis, the high comorbidity score and PEW were the significant predictive variables of high PTX-3. In unadjusted analysis high PTX-3 was significantly associated with all-cause mortality. After adjustment for sex, age, dialysis vintage, comorbidity score, PEW and CRP using the multivariate Cox regression analysis, death rate was still significantly higher in patients with high PTX-3 (HR 1.7; CI 1.1-2.7, P = 0.03). CONCLUSION Markedly increased levels of PTX-3 were found in HD patients with signs of CVD and PEW. In addition, the concentration of PTX-3 was associated with inflammation markers and comorbidity score. Our data also shows that high PTX-3 level was independently associated with all-cause mortality.

Low serum fetuin‐A concentration predicts poor outcome only in the presence of inflammation in prevalent haemodialysis patients

Background  Fetuin‐A, a negative acute phase protein that inhibits vascular calcification, has a controversial association with mortality in chronic kidney disease (CKD) patients. Chronic inflammation, which is common in CKD, may promote vascular calcification.

Plasma pentosidine and total homocysteine levels in relation to change in common carotid intima-media area in the first year of dialysis therapy.

BACKGROUND Homocysteine and advanced glycation end-products (AGEs), which accumulate in chronic kidney disease (CKD), are recently proposed cardiovascular risk factors. In this study, we evaluated the association between changes in calculated intima media (cIM) area of the common carotid artery during the first year of dialysis therapy and plasma total homocysteine (tHcy) level as well as circulating AGEs such as plasma pentosidine level. METHODS We studied 63 CKD patients (38 males) aged 52 +/- 12 years at a time-point close to start of dialysis treatment and after 12 months of dialysis treatment (41 on peritoneal and 22 on hemodialysis). The tHcy and plasma pentosidine levels were measured by HPLC. Change in cIM area was evaluated by non-invasive B mode ultrasonography. Malnutrition was assessed by subjective global assessment (SGA). RESULTS At basal, 70% of the patients had carotid plaques, 32% had symptomatic CVD, 38% had malnutrition, 30% had inflammation (CRP > or = 1 mg/dl) and 23% had diabetes mellitus, respectively. At baseline, the mean plasma pentosidine levels were similar in the patients with and without carotid plaques (36 +/- 21 vs 36 +/- 19 pmol/mg albumin, respectively), whereas the median plasma tHcy was significantly lower in the patients with carotid plaques than in the patients without carotid plaques (32 +/- 21 vs 52 +/- 42 pmol/l, p < 0.01, respectively). The prevalence of hyperhomocysteinemia (tHcy level > 13.7 micromol/l) was 95%. In univariate analysis, the change in cIM area during the first year of dialysis was significantly correlated with basal plasma pentosidine level (p = 0.31, p = 0.01), but not with basal tHcy (p = -0.11). However, neither pentosidine nor tHcy levels were correlated with cIM area at basal or at 12 months. In a stepwise multiple regression model, age and plasma pentosidine content, but not the tHcy level, associated with changes in the cIM area. CONCLUSION Progression of atherosclerosis, as indicated by changes in carotid intima-media area during the course of dialysis treatment, was associated with pentosidine, but not with tHcy, levels at baseline in these CKD patients. This suggests that the accumulation of AGEs in CKD patients may have a role in the pathogenesis of CVD in these patients. Since almost all CKD patients have hyperhomocysteinemia, this finding, however, does not exclude a role ofhomocysteine as a risk factor for CVD in CKD patients.

Homocysteine-lowering is not a primary target for cardiovascular disease prevention in chronic kidney disease patients.

The homocysteine (Hcy) theory states that total homocysteine (tHcy) is a risk factor for atherosclerosis. Chronic kidney disease (CKD) is one of the most frequent causes of hyperhomocysteinemia in the presence of high prevalence of cardiovascular disease (CVD). However, there is not yet any conclusive answer to the question whether Hcy may contribute to, or predict, cardiovascular events or mortality in CKD patients or whether it is just an innocent bystander biologically related to other potential risk factors for CVD. Moreover, tHcy levels in CKD are influenced by several commonly occurring confounding factors, such as inflammation and protein‐energy wasting (PEW). These factors are also associated with morbidity and mortality and altogether this may explain why Hcy does not show up as a cardiovascular risk but in fact is reversely associated with clinical outcome. Thorough evaluation of such reverse association may not necessarily imply that the principles of Hcy being a contributor to vascular pathophysiology are different in CKD patients but rather indicate that other superimposed factors, such as PEW and inflammation, are more important. These confounders contribute significantly to the unacceptably high mortality rate in this patient population and may require nutritional and anti‐inflammatory interventions to improve clinical outcome. So far, the results of recent folic acid intervention trials do not support the use of folic acid supplementation for lowering tHcy and improving survival in CKD patients. Although we are still waiting for the results from several ongoing controlled randomized trials in this area, future studies are needed to evaluate if thiol‐exchange agents, besides folic acid, as part of a future multifactorial intervention regime targeting inflammation, PEW, oxidative stress as well as hyperhomocysteinemia may decrease CVD risk in this high‐risk patient population.

Lipoprotein Lipase 1595 C/G and Hepatic Lipase –480 C/T Polymorphisms – Impact on Lipid Profile in Incident Dialysis Patients

Background: Dyslipidemia is a common complication of chronic kidney disease. Lipoprotein lipase (LPL) 1595 C/G and hepatic lipase (HL) –480 C/T single nucleotide polymorphisms (SNPs) influence lipid profile and predisposition for cardiovascular disease in the general population. The present study was undertaken to clarify the impact of the two polymorphisms on lipid parameters and cardiovascular risk in incident dialysis patients. Methods: LPL 1595 C/G and HL –480 C/T SNPs were evaluated in 293 chronic kidney disease patients close to dialysis initiation. Associations with lipid parameters, presence of cardiovascular disease, and survival were assessed. Results: LPL 1595 C/G SNP was associated with significantly lower triglyceride levels [1.55 (1.00–2.20) vs. 1.90 (1.40–2.48) mM; p < 0.01], while HL –480 C/T polymorphism was associated with increased high density lipoprotein cholesterol concentration [1.30 (1.00–1.60) vs. 1.10 (0.90–1.40) mM; p < 0.05]. Neither of the polymorphisms showed any relationship with patient survival. Conclusions: LPL 1595 C/G and HL –480 C/T polymorphisms affect lipid profile in incident dialysis patients.

Is Hyperhomocysteinemia a Contributor to Atherosclerosis in Chronic Kidney Disease Patients

even paradoxically lower tHcy levels in CVD patients or a worse outcome in patients with lower tHcy [2] . Moreover, in observational studies there is scarce evidence that tHcy is related to carotid intima-media thickness in CKD patients, although few studies were designed to examine this issue specifi cally [3] . In the current issue of Nephron Clinical Practice, Grekas et al. [4] investigated the relationship between tHcy concentrations and carotid artery atherosclerosis in 37 hemodialysis patients. In a univariate analysis, they found that plasma tHcy correlated with the number of atherosclerotic plaques, but not with intimal wall thickness or lumen diameter. This fi nding suggests that tHcy is indeed associated with carotid plaque score, but not with carotid intima-media thickness. The fact that a high tHcy level does not show up as a risk factor for cardiovascular disease in some studies of uremic patients may appear puzzling. One possible explanation for these inconsistent results is the presence of unrecognized confounding or effect-modifying factors. Among the confounding factors that seem to infl uence the tHcy level the most in CKD patients are hypoalbuminemia, malnutrition and infl ammation (interrelated factors that may initiate or aggravate atherosclerosis in CKD). Circulating tHcy exists mainly as protein-bound form with albumin being the main Hcy binding protein and this is refl ected by a positive correlation between plasma tHcy and serum albumin in CKD patients. ReClinical manifestations of atherosclerotic and atherothrombotic diseases account for the majority of deaths in chronic kidney disease (CKD) patients. A high plasma homocysteine (Hcy) concentration is associated with an increased risk of atherosclerotic and atherothrombotic diseases related to its several potentially deleterious vascular actions. Experimental evidence has suggested that homocysteine causes endothelial cell dysfunction and induces apoptotic cell death in cell types relevant to atherosclerosis, including endothelial cells and smooth muscle cells and Hcy also reduces the bioavailability of nitric oxide enhancing smooth muscle cell proliferation. Moreover, several cellular mechanisms have been proposed to explain the effects of hyperhomocysteinemia (HHcy) on endothelial dysfunction and atherosclerosis, including induction of pro-infl ammatory factors and oxidative stress. Animal models of HHcy have demonstrated a causal relationship between HHcy, endothelial cell dysfunction, and accelerated atherosclerosis. However, data in humans are inconsistent. For example, HHcy may or may not be associated with impaired endothelium-dependent vasodilatation [1] . In CKD patients, the association between plasma total Hcy (tHcy) concentrations and risk for atherothrombotic disease is also contradictory. Some studies report higher tHcy concentrations in patients with cardiovascular disease (CVD), others report no difference in tHcy levels or Published online: August 9, 2005