Intracranial hypertension in the infant: from its physiopathology to its therapeutic management

Histidine decarboxylase catalyses the formation of histamine, an important biological messenger. In spite of the essential biological functions exerted by histamine the knowledge about the mechanisms involved in the regulation of histidine decarboxylase is rather limited. This is most likely due to the limited supply of suitable tools, including highly specific antibodies. In the present study we describe the production and characterisation of specific antisera against rat histidine decarboxylase using recombinant protein synthesised in a bacterial expression system. The antisera were shown to effectively immunoprecipitate histidine decarboxylase activity in extracts of fetal rat liver as well as to detect the histidine decarboxylase protein by Western blot analysis of COS-7 cells expressing recombinant rat histidine decarboxylase. The results demonstrate the successful production of highly specific antisera to histidine decarboxylase which may become valuable tools in future studies of the structure and function of this enzyme.     

Both Ets-1 and GATA-1 are essential for positive regulation of platelet factor 4 gene expression

In the rat platelet factor 4 (PF4) promoter, Ets motifs and GATA motifs are located at positions -880, -75 and -135, -30, respectively, and their motifs are found in the promoter region of most megakaryocyte protein genes. In order to investigate how the Ets and GATA motifs affect PF4 promoter activity, we constructed Ets and/or GATA motif mutant genes. A single disruption of either -75Ets, -135GATA, or -30GATA significantly reduced PF4 promoter activity, and double disruptions involving these motifs completely abolished it. Furthermore, gel-retardation assays revealed that Ets-1 and GATA-1 proteins from HEL and MEG-01 cells bound to the Ets motifs and GATA motifs, respectively. Co-transfection experiments showed that the overexpression of Ets-1 and/or GATA-1 enhanced the expression of the PF4 promoter reporter gene. These effects of Ets-1 and GATA-1 on PF4 promoter activity are additive. When HEL cells were treated with dimethylsulfoxide in order to induce differentiation into megakaryocytes, the mRNA level of ets-1 increased 10-fold, which might be directly correlated with the significant increase in PF4 mRNA level induced by dimethylsulfoxide. All these results strongly suggest that both Ets-1 and GATA-1 play key roles in the positive regulation of PF4 gene expression.     

Expression cloning of gastric mucin complementary DNA and localization of mucin gene expression

BACKGROUND & AIMS: Secretory mucins play an important role in gastric cytoprotection and are derived from a heterogeneous family of genes. The aim of this study was to determine the specific type and location of mucin gene expression in the human stomach. METHODS: Expression cloning was performed by screening a human gastric complementary DNA expression library with antisera against deglycosylated gastric mucin. RNA analysis and immunohistochemistry were used to quantify and localize mucin gene expression. RESULTS: Sequencing of positive clones revealed two clones containing tandem repeats. The first contained a 169-amino acid repeat and was named MUC6 (as previously described). The second contained the same 8-amino acid repeat consensus sequence (APTTSTTS) as complementary DNAs previously isolated from a tracheobronchial complementary DNA library and was labeled MUC5 (or MUC5AC). RNA analysis indicated that the gastric epithelium contains high levels of MUC5 and MUC6 messenger RNA with little or no MUC2, MUC3, and MUC4 messenger RNA. Immunohistochemical analysis showed that surface mucous cells of the cardia, fundus, and antrum expressed MUC5 peptide. In contrast, MUC6 peptide expression was limited to mucous neck cells of the fundus, antral-type glands of the antrum and cardia, and Brunner's glands of the duodenum. CONCLUSIONS: MUC5 and MUC6 represent major secretory mucins in the stomach and are localized to distinct cell types.     

Expression of the chromogranin A-derived peptides pancreastatin and WE14 in rat stomach ECL cells

The ECL cells constitute the predominant endocrine cell population in the mucosa of the acid-secreting part of the stomach (fundus). They are rich in chromogranin A (CGA), histamine and histidine decarboxylase (HDC). They secrete CGA-derived peptides and histamine in response to gastrin. The objective of this investigation was to examine the expression of pancreastatin (rat CGA266-314) and WE14 (rat CGA343-356) in rat stomach ECL cells. The distribution and cellular localisation of pancreastatin- and WE14-like immunoreactivities (LI) were analysed by radioimmunoassay and immunohistochemistry with antibodies against pancreastatin, WE14 and HDC. The effect of food deprivation on circulating pancreastatin-LI was examined in intact rats and after gastrectomy or fundectomy. Rats received gastrin-17 (5 nmol/kg/h) by continuous intravenous infusion or omeprazole (400 micromol/kg) once daily by the oral route, to induce hypergastrinemia. CGA-derived peptides in the ECL cells were characterised by gel permeation chromatography. The expression of CGA mRNA was examined by Northern blot analysis. Among all of the endocrine cells in the body, the ECL cell population was the richest in pancreastatin-LI, containing 20-25% of the total body content. Food deprivation and/or surgical removal of the ECL cells lowered the level of pancreastatin-LI in serum by about 80%. Activation of the ECL cells by gastrin infusion or omeprazole treatment raised the serum level of pancreastatin-LI, lowered the concentrations of pancreastatin- and WE14-LI in the ECL cells and increased the CGA mRNA concentration. Chromatographic analysis of the various CGA immunoreactive components in the ECL cells of normal and hypergastrinemic rats suggested that these cells respond to gastrin with a preferential release of the low-molecular-mass forms.