Oestradiol enhances in vitro the histamine release induced by embryonic histamine-releasing factor (EHRF) from uterine mast cells

The relationship between maternal hormones and factors secreted by the implanting embryo is still controversial. We have analysed the in-vitro effect of oestradiol and human embryo-derived histamine-releasing factor (EHRF) on histamine release from rat uterine mast cells. Rat uterine mast cells which were preincubated with oestradiol and then challenged with human EHRF gave histamine release values two- to threefold higher than those without preincubation. The enhancement observed was time- and temperature-dependent. A similar enhancement was obtained with human sensitized basophils but not with rat peritoneal mast cells. Oestradiol, used as a direct challenge, did not induce any histamine release from either rat uterine or peritoneal mast cells, or from human sensitized basophils. Oestradiol preincubation also enhanced the histamine release induced by anti-IgE but did not enhance the histamine release induced by substance P or compound 48/80, two secretagogues that are not mediated by IgE. Moreover, uterine fragments derived from rats at various oestrus phases, with different amounts of endogenous oestrogen, were challenged in vitro with EHRF. The release of histamine by mast cells was higher at the proestrus and preimplantation phases than at dioestrus. All these findings suggest that the interaction of oestradiol with rat uterine mast cells was capable of enhancing in vitro the histamine releasing effect of EHR

Genetic screening of Fabry patients with EcoTILLING and HRM technology

<p>Abstract</p> <p>Background</p> <p>Anderson-Fabry disease (FD) is caused by a deficit of the α-galactosidase A enzyme which leads to the accumulation of complex sphingolipids, especially globotriaosylceramide (Gb3), in all the cells of the body, causing the onset of a multi-systemic disease with poor prognosis in adulthood. In this article, we describe two alternative methods for screening the <it>GLA </it>gene which codes for the α-galactosidase A enzyme in subjects with probable FD in order to test analysis strategies which include or rely on initial pre-screening.</p> <p>Findings</p> <p>We analyzed 740 samples using EcoTILLING, comparing two mismatch-specific<ul/>endonucleases, CEL I and ENDO-1, while conducting a parallel screening of the same samples using HRM (High Resolution Melting). Afterwards, all samples were subjected to direct sequencing. Overall, we identified 12 different genetic variations: -10C>T, -12G>A, -30G>A, IVS2-76_80del5, D165H, C172Y, IVS4+16A>G, IVS4 +68 A>G, c.718_719delAA, D313Y, IVS6-22C>T, G395A. This was consistent with the high genetic heterogeneity found in FD patients and carriers. All of the mutations were detected by HRM, whereas 17% of the mutations were not found by EcoTILLING. The results obtained by EcoTILLING comparing the CEL I and ENDO-1 endonucleases were perfectly overlapping.</p> <p>Conclusion</p> <p>On the basis of its simplicity, flexibility, repeatability, and sensitivity, we believe that<ul/>HRM analysis of the <it>GLA </it>gene is a reliable presequencing screening tool. This method can be applied to any genomic feature to identify known and unknown genetic alterations, and it is ideal for conducting screening and population studies.</p

Isolation of a Histamine-Releasing Factor from Two-Cell Human Embryo

An embryo-derived histamine-releasing factor (EHRF) was identified and partially purified from media in which two-cell human embryos were cultured. The EHRF at 5 &lt;i&gt;μ&lt;/i&gt;g/ml was capable of inducing 22 ± 7% release of histamine from sensitized human leukocytes, reaching a maximum of 56 ± 4% over an EHRF concentration range of 1–30 &lt;i&gt;μ&lt;/i&gt;g/ml. The EHRF was not detected in media where unfertilized oocytes were cultured or in medium alone. The effect of EHRF was not due to cytotoxicity since unsensitized leukocytes were unreactive. Histamine release did not occur when the assay was performed at 4°C or in presence of EDTA.</jats:p

Novel α-galactosidase A mutation in patients with severe cardiac manifestations of Fabry disease

Fabry disease (FD) is a hereditary metabolic disorder caused by the partial or total inactivation of alpha-galactosidase A (alpha-gal A), a lysosomal hydrolase. This inactivation is responsible for the accumulation of undegraded glycosphingolipids in the lysosomes with subsequent cellular and microvascular dysfunction. Fabry is considered a rare disease, with an incidence of 1:40,000; however, there are good reasons to believe that it is often seen but rarely diagnosed. To date, more than 600 mutations have been identified in human GLA gene that are responsible for FD. We describe the case of a 54-year-old male patient, who presented with left ventricular hypertrophy, chronic renal failure and acroparaesthesias, which are considered to be specific features of FD. Clinical and instrumental investigations showed several cardiovascular manifestations. The molecular analysis of GLA gene revealed a novel mutation in the fifth exon, called N249K, and the enzymatic analysis showed no alpha-galactosidase A activity. Family screening detected the same mutation in some relatives and also the enzymatic analysis confirmed the diagnosis of FD. In conclusion, these data suggest that the N249K mutation may be associated with cardiac manifestations of FD combined with other classical features of the disease. (C) 2013 Elsevier B.V. All rights reserved

Modulation of Rat Peritoneal Mast Cell and Human Basophil Histamine Release by Estrogens

This study was undertaken to investigate the effect of estrogens on the histamine release mediated by IgE in rat peritoneal mast cells (PMC) and in sensitized human basophils. The estrogens were found to enhance the histamine release of either rat PMC and sensitized human basophils upon stimulation with anti-IgE. The enhancement was estrogens dose-dependent reaching the maximum value of 23% for rat PMC and 41% for sensitized human basophils stimulated with anti-IgE upon preincubation with 10&lt;sup&gt;––&lt;/sup&gt;&lt;sup&gt;8&lt;/sup&gt;&lt;i&gt;M &lt;/i&gt;estrogens. Moreover, when purified PMC were used, the enhancing effect was still detected, suggesting a direct interaction between estrogens and mast cells. The enhancing effect took place quite rapidly reaching plateau levels in about 60 min. Basophils preincubated at 4 instead of 37 °C did not give any appreciable enhancement, suggesting that it was temperature-dependent and that the effect observed was not due to cytotoxicity. Incubation of PMC or human basophils with estrogens alone, without challenge with anti-IgE, did not give any detectable histamine release. The enhancement of histamine release by estrogens is probably mediated by IgE molecules present on the cell membrane, since this effect was not observed on challenge with substance P or compound 48/80, two segretagogues known to induce histamine release not via IgE.</jats:p