Metyrapone alleviates deleterious effects of maternal food restriction on lung development and growth of rat offspring.

Maternal food restriction (MFR) causes intrauterine growth restriction, a known risk factor for developing chronic lung disease. However, it is unknown whether this negative outcome is gender specific or preventable by blocking the MFR-induced hyperglucocorticoidism. Using a well-established rat model, we used metyrapone (MTP), an inhibitor of glucocorticoid synthesis, to study the MFR-induced lung changes on postnatal day (p) 21 in a gender-specific manner. From embryonic day 10 until delivery, pregnant dams were fed either an ad libitum diet or a 50% caloric restricted diet with or without MTP supplementation. Postnatally, the offspring were fed ad libitum from healthy dams until p21. Morphometric, Western blot, and immunohistochemical analysis of the lungs demonstrated that MTP mitigated the MFR-mediated decrease in alveolar count, decrease in adipogenic protein peroxisome proliferator-activated receptor γ, increase in myogenic proteins (fibronectin, α-smooth muscle actin, and calponin), increase in Wnt signaling intermediates (lymphoid enhancer-binding factor 1 and ß-catenin), and increase in glucocorticoid receptor (GR) levels. The MFR-induced lung phenotype and the effects of MTP were similar in both genders. To elucidate the mechanism of MFR-induced shift of the adipogenic-to-myogenic phenotype, lung fibroblasts were used to independently study the effects of (1) nutrient restriction and (2) excess steroid exposure. Nutrient deprivation increased myogenic proteins, Wnt signaling intermediates, and GR, all changes blocked by protein supplementation. MTP also blocked, likely by normalizing nicotinamide adenine dinucleotide phosphate levels, the corticosterone-induced increase in myogenic proteins, but had no effect on GR levels. In summary, protein restriction and increased glucocorticoid levels appear to be the key players in MFR-induced lung disease, affecting both genders.

Cyclic adenosine monophosphate induces plasminogen activator inhibitor-1 expression in human mast cells.

Plaminogen activator inhibitor-1 (PAI-1), the key physiological inhibitor of the plasmin fibrinolytic system, plays important roles in the pathogenesis of asthma. Mast cells (MCs) are crucial effector cells and a major source of PAI-1 for asthma. Cyclic adenosine monophosphate (cAMP) is the important regulator of MCs; however, its effects on PAI-1 expression in MCs remain unknown. We reported cAMP/protein kinase A pathway positively regulates PAI-1 expression through cAMP-response element binding protein binding to hypoxia response element-1 at -158 to -153bp of human PAI-1 promoter in human MCs. Moreover, cAMP synergistically augments PAI-1 expression with ionomycin- or IgE receptor cross-linking-mediated stimulation.

Pimecrolimus induces apoptosis of mast cells in a murine model of cutaneous mastocytosis.

BACKGROUND: Cutaneous mastocytosis (CM) is a common type of mastocytosis. Current treatment of CM is generally symptomatic. Pimecrolimus has been demonstrated as an effective anti-inflammatory drug for the treatment of inflammatory skin diseases, but whether it treats CM remains unknown. METHODS: The murine model of CM was induced by subcutaneous injection of 100 µg/kg recombinant murine stem cell factor (rmSCF) for a total of 17 days in Balb/c mice. Beginning on the 8th day, treatment with pimecrolimus 1% cream or vehicle was performed topically and daily for 10 days. The clinical signs of CM were scored, and pathological analysis was performed with toluidine blue staining and hematoxylin and eosin staining. The in situ apoptotic mast cells (MCs) were studied by terminal deoxynucleotidyl transferase-mediated dUTP nick-end labeling assay. The cutaneous histamine level was measured by ELISA. RESULTS: In the rmSCF-treated mice, the clinical signs of CM, including erythema, wheal after rubbing lesion skins, and increased thickness of skin, were obvious compared to control mice, and were reduced after pimecrolimus treatment. The numbers of cutaneous MCs and neutrophils were significantly greater in mice with CM than in control mice, and pimecrolimus treatment decreased the numbers of MCs but not neutrophils. Extensive apoptosis of cutaneous MCs was observed in pimecrolimus-treated mice. The cutaneous histamine level was elevated in the mice with CM compared with healthy controls, and was lowered after treatment with pimecrolimus. CONCLUSIONS: Pimecrolimus effectively treats CM by reducing the density of cutaneous MCs and the subsequent histamine production through inducing MCs apoptosis.

Treatment of MRSA infections in an African-American male with G6PD deficiency.

Glucose-6-phosphate dehydrogenase (G6PD) deficiency affecting erythrocytes is the most common enzymopathy in humans. It requires caution with the intake of oxidizing substances (e.g., medications and foods) because of the threat of hemolysis. Less recognized is the threat of a deficiency in G6PD that alters neutrophil function, which can compromise the killing of microbes by the oxidative burst mechanism. This results from a secondary alteration in the NADPH oxidase pathway. Methicillin-resistant Staphylococcus aureus (MRSA) infection, which is usually observed after exposure in the hospital setting, is becoming increasingly common in a community setting. Here we show the risk of MRSA and G6PD deficiency and discuss the pitfalls of G6PD deficiency.

Fluorescence studies of pyrene maleimide-labeled translin: excimer fluorescence indicates subunits associate in a tail-to-tail configuration to form octamer.

Translin is an octameric single-stranded DNA binding protein consisting of 228 amino acid residues per monomer. This protein contains two cysteine residues per monomer. Studies of reactions with DTNB show that both cysteines are reactive and exhibit biphasic reaction kinetics. Further studies with two site-directed mutants, C58S and C225S, confirm that Cys-58 reacts slowly while Cys-225 reacts quickly. Pyrene excimer emission was observed for pyrene maleimide-labeled C58S mutant. This was not observed, however, with the pyrene maleimide-labeled C225S mutant. DAS (decay associated spectra) revealed that all excited pyrene labels on C225 residues can form excimers with pyrenes of adjacent subunits within a few nanoseconds. Time-resolved emission anisotropy detects a rotational correlation time appropriate for octameric but not dimeric species. These results indicate proximity for the Cys-225 residues on adjacent monomers and that the subunits must interact in a tail-to-tail orientation. Moreover, disulfide bonds are not required for the formation of an octamer.