Annalisa Castagna

Epigenetic control of 11 beta-hydroxysteroid dehydrogenase 2 gene promoter is related to human hypertension.

BACKGROUND Lower activity of 11 beta-hydroxysteroid dehydrogenase 2 (11beta-HSD2) classically induces hypertension by leading to an altered tetrahydrocortisol- versus tetrahydrocortisone-metabolites (THFs/THE) shuttle. Recent cell culture and animal studies suggest a role for promoter methylation, a major epigenetic feature of DNA, in regulation of HSD11B2 expression. Little is known, however, of human HSD11B2 epigenetic control and its relationship with the onset of hypertension. OBJECTIVE To explore the possible relevance of HSD11B2 promoter methylation, by examining human peripheral blood mononuclear cell (PBMC) DNA and urinary THFs/THE ratio as a biochemical indicator of 11beta-HSD2 activity, in blood pressure control. METHODS Twenty-five essential hypertensives and 32 subjects on prednisone therapy were analyzed, the latter to investigate 11beta-HSD2 function in the development of hypertension. RESULTS Elevated HSD11B2 promoter methylation was associated with hypertension developing in glucocorticoid-treated patients in parallel with a higher urinary THFs/THE ratio. Essential hypertensives with elevated urinary THFs/THE ratio also showed higher HSD11B2 promoter methylation. CONCLUSIONS These results show a clear link between the epigenetic regulation through repression of HSD11B2 in PBMC DNA and hypertension.

Reduced serum hepcidin levels in patients with chronic hepatitis C

BACKGROUND/AIMS Patients with chronic hepatitis C (CHC) often have increased liver iron, a condition associated with reduced sustained response to antiviral therapy, more rapid progression to cirrhosis, and development of hepatocellular carcinoma. The hepatic hormone hepcidin is the major regulator of iron metabolism and inhibits iron absorption and recycling from erythrophagocytosis. Hepcidin decrease is a possible pathophysiological mechanism of iron overload in CHC, but studies in humans have been hampered so far by the lack of reliable quantitative assays for the 25-amino acid bioactive peptide in serum (s-hepcidin). METHODS Using a recently validated immunoassay, we measured s-hepcidin levels in 81 untreated CHC patients and 57 controls with rigorous definition of normal iron status. All CHC patients underwent liver biopsy with histological iron score. RESULTS s-hepcidin was significantly lower in CHC patients than in controls (geometric means with 95% confidence intervals: 33.7, 21.5-52.9 versus 90.9, 76.1-108.4 ng/mL, respectively; p<0.001). In CHC patients, s-hepcidin significantly correlated with serum ferritin and histological total iron score, but not with s-interleukin-6. After stratification for ferritin quartiles, s-hepcidin increased significantly across quartiles in both controls and CHC patients (chi for trend, p<0.001). However, in CHC patients, s-hepcidin was significantly lower than in controls for each corresponding quartile (analysis of variance, p<0.001). CONCLUSIONS These results, together with very recent studies in animal and cellular models, indicate that although hepcidin regulation by iron stores is maintained in CHC, the suppression of this hormone by hepatitis C virus is likely an important factor in liver iron accumulation in this condition.

Alterations of systemic and muscle iron metabolism in human subjects treated with low-dose recombinant erythropoietin

The high iron demand associated with enhanced erythropoiesis during high-altitude hypoxia leads to skeletal muscle iron mobilization and decrease in myoglobin protein levels. To investigate the effect of enhanced erythropoiesis on systemic and muscle iron metabolism under nonhypoxic conditions, 8 healthy volunteers were treated with recombinant erythropoietin (rhEpo) for 1 month. As expected, the treatment efficiently increased erythropoiesis and stimulated bone marrow iron use. It was also associated with a prompt and considerable decrease in urinary hepcidin and a slight transient increase in GDF-15. The increased iron use and reduced hepcidin levels suggested increased iron mobilization, but the treatment was associated with increased muscle iron and L ferritin levels. The muscle expression of transferrin receptor and ferroportin was up-regulated by rhEpo administration, whereas no appreciable change in myoglobin levels was observed, which suggests unaltered muscle oxygen homeostasis. In conclusion, under rhEpo stimulation, the changes in the expression of muscle iron proteins indicate the occurrence of skeletal muscle iron accumulation despite the remarkable hepcidin suppression that may be mediated by several factors, such as rhEpo or decreased transferrin saturation or both.

Hepcidin is not useful as a biomarker for iron needs in haemodialysis patients on maintenance erythropoiesis-stimulating agents

BACKGROUND It has been suggested that hepcidin may be useful as a tool for managing iron therapy in haemodialysis (HD) patients on erythropoiesis-stimulating agents (ESA). METHODS We used SELDI-TOF mass spectrometry assay to measure serum hepcidin-25 (Hep-25) and hepcidin-20 (Hep-20) in 56 adult HD patients on maintenance ESA to assess their ability to predict haemoglobin (Hb) response after 1 g intravenous iron (62.5 mg ferric gluconate at 16 consecutive dialysis sessions) and their relationship with markers of iron status, inflammation and erythropoietic activity. RESULTS At multivariate analysis (in a model that also included Hb, reticulocyte, ESA dose, HFE genotype, soluble transferrin receptor [sTfR] and C-reactive protein), Hep-25 independently correlated with ferritin (β = 0.03, P = 0.01) and the percentage of hypochromic red blood cells [%Hypo] (β = 1.84, P = 0.01), suggesting that Hep-25 may be a useful biomarker for iron stores and bone marrow iron availability. Hep-20 correlated independently with Hep-25 (β = 0.159, P < 0.001) and ferritin (β = 0.006, P = 0.05), suggesting that it may be a useful additional biomarker for iron stores. On receiver operating characteristics curve analysis, neither Hep-25 nor Hep-20 significantly predicted who will increase their Hb after iron loading (AUC = 0.52 ± 0.09 and 0.54 ± 0.08, P = 0.612), and the same applied to ferritin and transferrin saturation (AUC = 0.55 ± 0.08 and 0.59 ± 0.08, P = 0.250), whereas %Hypo and reticulocyte Hb content were significant predictors (AUC = 0.84 ± 0.05 and 0.70 ± 0.08, P < 0.01). At multivariate logistic regression analysis, %Hypo was the only biomarker independently associated with iron responsiveness. CONCLUSIONS Although our study suggests an important role for hepcidin in regulating iron homeostasis in HD patients on ESA, our findings do not support its utility as a predictor of iron needs, offering no advantage over established markers of iron status.

Measurement of urinary hepcidin levels by SELDI-TOF-MS in HFE-hemochromatosis

INTRODUCTION Insufficient production of hepcidin, the master regulator of iron metabolism, is recognized as the key pathogenetic feature of HFE-related hereditary hemochromatosis (HH). There is a growing interest in measuring the hepcidin levels, which may improve the diagnosis, prognostic evaluation and clinical management of HH. Nevertheless, few investigative tools are available: an immunodot method for urinary hepcidin developed by a single centre (UCLA), not yet ready for large-scale diffusion, and mass spectrometry (MS) based assays, such as surface-enhanced laser desorption/ionization time-of-flight (SELDI-TOF-MS). The latter is well suited to small peptides like hepcidin, and can rapidly analyze crude samples with high throughput. This study measured urinary hepcidin levels by SELDI-TOF-MS in a large group of HH patients at diagnosis and during treatment, including both C282Y homozygous and C282Y/H63D compound heterozygotes. METHODS We used a protocol based on PBSIIc mass spectrometer and Normal Phase chips. Urinary samples from 30 control subjects were compared to those obtained from 80 HH patients (57 C282Y homozygotes, 23 C282Y/H63D compound heterozygotes). Eighteen C282Y homozygotes and 11 C282Y/H63D compound heterozygotes were analyzed at diagnosis, the remainder during maintenance phlebotomy. RESULTS C282Y homozygotes either at diagnosis, or after phlebotomy had significantly lower urinary hepcidin levels than controls (P<0.05). C282Y/H63D compound heterozygotes had hepcidin levels at diagnosis higher than controls, while the hepcidin/ferritin ratio was significantly decreased (P<0.001) suggesting inadequate hepcidin production. After phlebotomy, mean hepcidin levels in the compound heterozygotes were significantly lower than in controls (P<0.001). Samples from 12 randomly selected control subjects were sent to UCLA for duplicate measurement by the immunodot method, yielding a significant correlation (rho=0.64; P=0.024). CONCLUSIONS This study supports the use of SELDI-TOF-MS for measuring hepcidin levels in research and clinical applications. Our results in phlebotomized patients suggest that the depletion of iron stores may further exacerbate the HFE-related hepcidin defect.

Increased Serum Hepcidin Levels in Subjects with the Metabolic Syndrome: A Population Study

The recent discovery of hepcidin, the key iron regulatory hormone, has changed our view of iron metabolism, which in turn is long known to be linked with insulin resistant states, including type 2 diabetes mellitus and the Metabolic Syndrome (MetS). Serum ferritin levels are often elevated in MetS (Dysmetabolic hyperferritinemia - DHF), and are sometimes associated with a true mild-to-moderate hepatic iron overload (dysmetabolic iron overload syndrome - DIOS). However, the pathophysiological link between iron and MetS remains unclear. This study was aimed to investigate, for the first time, the relationship between MetS and hepcidin at population level. We measured serum hepcidin levels by Mass Spectrometry in 1,391 subjects from the Val Borbera population, and evaluated their relationship with classical MetS features. Hepcidin levels increased significantly and linearly with increasing number of MetS features, paralleling the trend of serum ferritin. In multivariate models adjusted for relevant variables including age, C-Reactive Protein, and the HFE C282Y mutation, ferritin was the only significant independent predictor of hepcidin in males, while in females MetS was also independently associated with hepcidin. Overall, these data indicate that the fundamental iron regulatory feedback is preserved in MetS, i.e. that hepcidin tends to progressively increase in response to the increase of iron stores. Due to recently discovered pleiotropic effects of hepcidin, this may worsen insulin resistance and contribute to the cardiovascular complications of MetS.

Urinary prostasin : A candidate marker of epithelial sodium channel activation in humans

Prostasin is a serine peptidase hypothesized to regulate epithelial sodium channel (ENaC) activity in animals or on in vitro cultured cells. We investigated whether urinary prostasin may be a candidate marker of ENaC activation in humans. We studied 10 healthy volunteers and 8 hypertensive patients with raised aldosterone-to-renin ratio before and after spironolactone or saline/Florinef suppression test, respectively. Four healthy subjects were also studied before and after saline. Urinary prostasin was evaluated by SDS-PAGE, 2D maps, and Western blotting. Every sample of normotensive individuals was compared with the corresponding sample of urine collected after spironolactone or saline; every sample of hypertensive patients was compared with the corresponding sample of urine collected after saline or Florinef. Prostasin was detectable in all subjects regardless of gender, dietary sodium intake, and spironolactone treatment. Spironolactone (100 mg) increased urinary Na+/K+ ratio and decreased urinary prostasin in normotensives in whom the renin/aldosterone axis was activated by a low Na+ intake, but it was ineffective in individuals with high Na+ intake. Saline infusion also reduced prostasin in normotensive subjects. In contrast, prostasin paradoxically increased in urine of patients affected by primary aldosteronism after volume expansion. By 2D immunoblotting, several protein isoforms were observed, some of them being overexpressed after inhibition tests in patients with primary aldosteronism. In addition to a “basal” aliquot of prostasin, constitutively released in human urine regardless of sodium balance and aldosterone activation, there exists a second “aldosterone-responsive” aliquot modulated by Na+ intake and potentially suitable as candidate marker of ENaC activation.

Hepcidin assay in serum by SELDI-TOF-MS and other approaches.

Hepcidin, a liver peptide hormone, is the central regulator of iron homeostasis. Hepcidin synthesis is modulated by iron stores, so that iron repletion increases its levels to prevent pathological overload, while iron deficiency strongly inhibits hepcidin to allow an increase in iron absorption from duodenal cells. The emerging pivotal role of hepcidin in iron homeostasis, along with its important links with basic pathways like inflammation, makes the availability of an accurate hepcidin assay as a potentially powerful investigative tool to improve our understanding as well as our diagnostic/prognostic capabilities in many human diseases. There has been a great interest worldwide in developing a reliable and widely applicable assay of the hormone in biological fluids. Being optimal for low-molecular-weight biomarkers, SELDI-TOF-MS has emerged as a valid tool for hepcidin assay. Here we review recent results obtained with this technique, as well as with other Mass Spectrometry-based and immunological methods.

Evaluation of hepcidin isoforms in hemodialysis patients by a proteomic approach based on SELDI-TOF MS.

The hepatic iron regulator hormone hepcidin consists, in its mature form, of 25 amino acids, but two other isoforms, hepcidin-20 and hepcidin-22, have been reported, whose biological meaning remains poorly understood. We evaluated hepcidin isoforms in sera from 57 control and 54 chronic haemodialysis patients using a quantitative proteomic approach based on SELDI-TOF-MS. Patients had elevated serum levels of both hepcidin-25 and hepcidin-20 as compared to controls (geometric means: 7.52 versus 4.69 nM, and 4.06 versus 1.76 nM, resp., P < .05 for both). The clearance effects of a single dialysis session by different dialysis techniques and membranes were also investigated, showing an average reduction by 51.3% ± 29.2% for hepcidin-25 and 34.2% ± 28.4% for hepcidin-20 but only minor differences among the different dialysis modalities. Measurement of hepcidin isoforms through MS-based techniques can be a useful tool for better understanding of their biological role in hemodialysis patients and other clinical conditions.

Comparative two‐dimensional mapping of prion protein isoforms in human cerebrospinal fluid and central nervous system

The cellular prion protein (PrPC) is a glycosylphosphatidylinositol (GPI)‐anchored glycoprotein abundant in neurons. Although its precise function is unknown, PrPC represents the substrate for the generation of a conformational pathogenic isoform (PrPSc) in human and animal transmissible spongiform encephalopathies, or prion diseases. By applying novel solubilization cocktails, we analyzed normal human brain and cerebrospinal fluid (CSF) PrPC by immunoblot of two‐dimensional (2‐D) gel electrophoresis preparations, using specific antibodies. Here, we show that PrPC from brain and CSF is composed of several charge isomers of differently glycosylated isoforms of the full‐length PrPC and two N‐terminally truncated fragments of 20 and 18 kDa. In the CSF, substantial amounts of the highly glycosylated PrPC isoforms and of the unglycosylated 18 kDa fragment are detected. Our study, for the first time, provides a detailed 2‐D map of human PrPC both in brain and CSF, and establishes an innovative and sensitive method that might help in detecting the CSF pathological PrPSc isoform in vivo. It also shows the incredible microheterogeneity of such isoforms (ca. 60 spots!), as revealed in 2‐D mapping, as opposed to 3–4 main zones by mono‐dimensional sodium dodecyl sulfate‐polyacrylamide gel electrophoresis (SDS‐PAGE).