FK-506, a potent novel inhibitor of the release of proinflammatory mediators from human Fc epsilon RI+ cells.

FK-506, a macrolide that binds with high affinity to a specific binding protein, and the structurally related macrolide rapamycin (RAP) were compared to cyclosporin A (CsA) for their effects on the release of preformed (histamine) and de novo synthesized (peptide leukotriene C4) inflammatory mediators from human basophils. FK-506 (1 to 300 nM) concentration dependently inhibited histamine release from basophils activated by Der p I Ag, anti-IgE, or compound A23187. FK-506 was more potent than CsA when basophils were challenged with Ag (IC50 = 25.5 +/- 9.5 vs 834.3 +/- 79.8 nM; p less than 0.001), anti-IgE (IC50 = 9.4 +/- 1.7 vs 441.3 +/- 106.7 nM; p less than 0.001), and A23187 (IC50 = 4.1 +/- 0.9 vs 36.7 +/- 3.8 nM; p less than 0.001). The maximal inhibitory effect of FK-506 was higher than that caused by CsA when basophils were activated by Der p I (80.0 +/- 3.6 vs 49.5 +/- 4.7%; p less than 0.001) and anti-IgE (90.4 +/- 1.8 vs 62.3 +/- 2.9%; p less than 0.001). FK-506 had little or no effect on the release of histamine caused by f-met peptide, phorbol myristate (12-tetradecanoyloxy-13-acetoxy-phorbol), and bryostatin 1. RAP (30 to 1000 nM) selectively inhibited only IgE-mediated histamine release from basophils, although it had no effect on mediator release caused by f-met peptide, A23187, 12-tetradecanoyloxy-13-acetoxy-phorbol, and bryostatin 1. FK-506 also inhibited the de novo synthesis of sulfidopeptide leukotriene C4 from basophils challenged with anti-IgE. Low concentrations of FK-506 and CsA synergistically inhibited the release of mediators from basophils induced by anti-IgE or compound A23187. IL-3 (3 and 10 ng/ml), but not IL-1 beta (10 and 100 ng/ml), reversed the inhibitory effect of both FK-506 and CsA on basophils challenged with anti-IgE or A23187. RAP was a competitive antagonist of the inhibitory effect of FK-506 on A23187-induced histamine release from basophils with a dissociation constant of about 30 nM. In contrast, RAP did not modify the inhibitory effect of CsA on A23187-induced histamine release. These data indicate that FK-506 is a potent antiinflammatory agent that acts on human basophils presumably by binding to a receptor site (i.e., FK-506 binding protein).     

Genetic variability of the narrow endemic Rhamnus persicifolia Moris (Rhamnaceae) and its implications for conservation

Rhamnus persicifolia Moris is an endemic small tree belonging to the Rhamnus cathartica group, growing along mountainous streams of Central-Eastern Sardinia (Italy). ISSR markers were used to detect the genetic diversity within and among six populations representative of the species distribution range. In spite of the limited distribution of this endemic taxon, fairly high levels of genetic diversity were detected. Percentage of polymorphic bands (PPB), gene diversity (H_S and H_T) and Shannon information measure (Sh) were calculated both at population (PPB = 30.70%, H_S = 0.1105, Sh = 0.1646) and at species level (PPB = 68.42%, H_T = 0.2066, Sh = 0.3139).The existence of a spatial distribution of genetic diversity in R. persicifolia was revealed by a low gene flow, a fairly high level of genetic differentiation (G_ST = 0.4583) among populations and a positive correlation between genetic and geographic distances (Mantel test, r = 0.71, p = 0.016). The spatial genetic structure was also confirmed with BAPS analysis. Our results show that a certain level of isolation by distance and sex-ratio bias may explain the distribution of genetic diversity among populations.Conservation measures are suggested on the basis of the genetic diversity detected, by implementing an integrated in situ and ex situ conservation program for each population, in order to ensure effective protection for this endemic species.     

Characterizing airway and alveolar nitric oxide exchange during tidal breathing using a three-compartment model.

Exhaled nitric oxide (NO) may be a useful marker of lung inflammation, but the concentration is highly dependent on exhalation flow rate due to a significant airway source. Current methods for partitioning pulmonary NO gas exchange into airway and alveolar regions utilize multiple exhalation flow rates or a single-breath maneuver with a preexpiratory breath hold, which is cumbersome for children and individuals with compromised lung function. Analysis of tidal breathing data has the potential to overcome these limitations, while still identifying region-specific parameters. In six healthy adults, we utilized a three-compartment model (two airway compartments and one alveolar compartment) to identify two potential flow-independent parameters that represent the average volumetric airway flux (pl/s) and the time-averaged alveolar concentration (parts/billion). Significant background noise and distortion of the signal from the sampling system were compensated for by using a Gaussian wavelet filter and a series of convolution integrals. Mean values for average volumetric airway flux and time-averaged alveolar concentration were 2,500 +/- 2,700 pl/s and 3.2 +/- 3.4 parts/billion, respectively, and were strongly correlated with analogous parameters determined from vital capacity breathing maneuvers. Analysis of multiple tidal breaths significantly reduced the standard error of the parameter estimates relative to the single-breath technique. Our initial assessment demonstrates the potential of utilizing tidal breathing for noninvasive characterization of pulmonary NO exchange dynamics.     

Transgenic Fatal Familial Insomnia Mice Indicate Prion Infectivity-Independent Mechanisms of Pathogenesis and Phenotypic Expression of Disease

Fatal familial insomnia (FFI) and a genetic form of Creutzfeldt-Jakob disease (CJD¹⁷⁸) are clinically different prion disorders linked to the D178N prion protein (PrP) mutation. The disease phenotype is determined by the 129 M/V polymorphism on the mutant allele, which is thought to influence D178N PrP misfolding, leading to the formation of distinctive prion strains with specific neurotoxic properties. However, the mechanism by which misfolded variants of mutant PrP cause different diseases is not known. We generated transgenic (Tg) mice expressing the mouse PrP homolog of the FFI mutation. These mice synthesize a misfolded form of mutant PrP in their brains and develop a neurological illness with severe sleep disruption, highly reminiscent of FFI and different from that of analogously generated Tg(CJD) mice modeling CJD¹⁷⁸. No prion infectivity was detectable in Tg(FFI) and Tg(CJD) brains by bioassay or protein misfolding cyclic amplification, indicating that mutant PrP has disease-encoding properties that do not depend on its ability to propagate its misfolded conformation. Tg(FFI) and Tg(CJD) neurons have different patterns of intracellular PrP accumulation associated with distinct morphological abnormalities of the endoplasmic reticulum and Golgi, suggesting that mutation-specific alterations of secretory transport may contribute to the disease phenotype.     

MiR‐133a regulates collagen 1A1: Potential role of miR‐133a in myocardial fibrosis in angiotensin II‐dependent hypertension

MicroRNAs play an important role in myocardial diseases. MiR‐133a regulates cardiac hypertrophy, while miR‐29b is involved in cardiac fibrosis. The aim of this study was to evaluate whether miR‐133a and miR‐29b play a role in myocardial fibrosis caused by Angiotensin II (Ang II)‐dependent hypertension. Sprague–Dawley rats were treated for 4 weeks with Ang II (200 ng/kg/min) or Ang II + irbesartan (50 mg/kg/day in drinking water), or saline by osmotic minipumps. At the end of the experimental period, cardiac miR‐133a and miR‐29b expression was measured by real‐time PCR, and myocardial fibrosis was evaluated by morphometric analysis. A computer‐based prediction algorithm led to the identification of collagen 1a1 (Col1A1) as a putative target of miR‐133a. A reporter plasmid bearing the 3′‐untranslated regions (UTRs) of Col1A1 mRNA was constructed and luciferase assay was performed. MiR‐133a suppressed the activity of luciferase when the reporter gene was linked to a 3′‐UTR segment of Col1A1 (P < 0.01). Mutation of miR‐133a binding sites in the 3′‐UTR of Col1A1 mRNA abolished miR‐133a‐mediated repression of reporter gene activity, showing that Col1A1 is a real target of miR‐133a. In vivo, Ang II caused an increase in systolic blood pressure (P < 0.0001, tail cuff) and myocardial fibrosis in presence of a decrease in miR‐133a (P < 0.01) and miR‐29b (P < 0.01), and an increase in Col1A1 expression (P < 0.01). These effects were abolished by Ang II administration + irbesartan. These data demonstrate a relationship between miR‐133a and Col1A1, suggesting that myocardial fibrosis occurring in Ang II‐dependent hypertension is regulated by the down‐regulation of miR‐133a and miR‐29b through the modulation of Col1A1 expression. J. Cell. Physiol. 227: 850–856, 2012. © 2011 Wiley Periodicals, Inc.     

Two-dimensional solid-state NMR reveals two topologies of sarcolipin in oriented lipid bilayers

Sarcolipin (SLN), a 31 amino acid integral membrane protein, regulates SERCA1a and SERCA2a, two isoforms of the sarco(endo)plasmic Ca-ATPase, by lowering their apparent Ca(2+) affinity and thereby enabling muscle relaxation. SLN is expressed in both fast-twitch and slow-twitch muscle fibers with significant expression levels also found in the cardiac muscle. SLN shares approximately 30% identity with the transmembrane domain of phospholamban (PLN), and recent solution NMR studies carried out in detergent micelles indicate that the two polypeptides bind to SERCA in a similar manner. Previous 1D solid-state NMR experiments on selectively (15)N-labeled sites showed that SLN crosses the lipid bilayer with an orientation nearly parallel to the bilayer normal. With a view toward the characterization of SLN structure and its interactions with both lipids and SERCA, herein we report our initial structural and topological assignments of SLN in mechanically oriented DOPC/DOPE lipid bilayers as mapped by 2D (15)N PISEMA experiments. The PISEMA spectra obtained on uniformly (15)N-labeled protein as well as (15)N-Leu, (15)N-Ile and (15)N-Val map the secondary structure of SLN and, simultaneously, reveal that SLN exists in two distinct topologies. Both the major and the minor populations assume an orientation with the helix axis tilted by approximately 23 degrees with respect to the lipid bilayer normal, but vary in the rotation angle about the helix axis by approximately 5 degrees . The existence of the multiple populations in model membranes may be a significant requirement for SLN interaction with SERCA.     

Modulation of cardiac contractility by muscle metaboreflex following efforts of different intensities in humans

Accumulation of metabolic end products within skeletal muscle stimulates sensory nerves, thus evoking a pressor response termed "metaboreflex." The aim of this study was to evaluate changes in hemodynamics occurring during metaboreflex activation obtained by postexercise muscle ischemia (PEMI) after two different exercise intensities. In twelve healthy subjects, the metaboreflex was studied with the PEMI method at the start of recovery from one leg-dynamic knee extension performed at intensities of 30% (PEMI 30%) and 70% (PEMI 70%) of the maximum workload achieved in a preliminary test. Control exercise recovery tests at the same intensities were also conducted. Central hemodynamics were evaluated by means of impedance cardiography. The main findings were that 1) during metaboreflex, exercise conducted against the higher workload caused a more pronounced blood pressure increase than the strain conducted against the lower workload; and 2) during PEMI 70%, this blood pressure response was mainly achieved through enhancement of myocardial contractility that increased stroke volume and, in turn, cardiac output, whereas during PEMI 30%, the blood pressure response was reached predominantly by means of vasoconstriction. Thus a substantial enhancement of myocardial contractility was reached only in the PEMI 70% test. These results suggest that hemodynamic regulation during metaboreflex engagement caused by PEMI in humans is dependent on the intensity of the previous effort. Moreover, the cardiovascular response during metaboreflex is not merely achieved by vasoconstriction alone, but it appears that there is a complex interplay between peripheral vasoconstriction and heart contractility recruitment.     

The overlapping of local iron overload and HFE mutation in venous leg ulcer pathogenesis

Chronic venous stasis determines red blood cell extravasation and either dermal hemosiderin deposits or iron-laden phagocytes. Several authors have suspected that iron could play a role in the pathogenesis of venous leg ulcers. They hypothesized that local iron overload could generate free radicals or activate a proteolytic hyperactivity on the part of metalloproteinases (MMPs) or else down-regulate tissue inhibitors of MMPs. However, they were unable to explain why iron deposits, visible in the legs of patients with chronic venous disease (CVD), cause lesions in only some individuals, whereas in others they do not. We hypothesized that such individual differences could be genetically determined and investigated the role of the C282Y and H63D mutations of the HFE gene. C282Y mutation significantly increases the risk of ulcer in primary CVD more than six times (OR = 6.69; 1.45-30.8; p = 0.01). Patients carrying the H63D variant have an earlier age of ulcer onset, by almost 10 years (p > 0.004). The increased risk of skin lesion and the early age of onset of the disease in HFE carriers confirm in a clinical setting that intracellular iron deposits of mutated macrophages have less stability than those of the wild type. We hypothesize that the physiologic iron protective mechanisms are affected by the HFE mutations and should be investigated in all diseases characterized by the combination of iron overload and inflammation.