Alain Fleury

Phosphorylation and function of the hamster adrenal steroidogenic acute regulatory protein (StAR)

In order to study the effect of phosphorylation on the function of the steroidogenic acute regulatory protein (StAR), 10 putative phosphorylation sites were mutated in the hamster StAR. In pcDNA3.1-StAR transfected COS-1 cells, decreases in basal activity were found for the mutants S55A, S185A and S194A. Substitution of S185 by D or E to mimic phosphorylation resulted in decreased activity for all mutants; we concluded that S185 was not a phosphorylation site and we hypothesized that mutations on S185 created StAR conformational changes resulting in a decrease in its binding affinity for cholesterol. In contrast, the mutation S194D resulted in an increase in StAR activity. We have calculated the relative rate of pregnenolone formation (App. V(max)) in transfected COS-1 cells with wild type (WT) and mutant StAR-pcDNA3.1 under control and (Bu)(2)-cAMP stimulation. The App. V(max) values refer to the rate of cholesterol transported and metabolized by the cytochrome P450scc enzyme present in the inner mitochondrial membrane. The App. V(max) was 1.61 +/- 0.28 for control (Ctr) WT StAR and this value was significantly increased to 4.72 +/- 0.09 for (Bu)(2)-cAMP stimulated preparations. App. V(max) of 5.53 (Ctr) and 4.82 ((Bu)(2)-cAMP) found for S194D StAR preparations were similar to that of the WT StAR stimulated preparations. At equal StAR quantity, an anti-phospho-(S/T) PKA substrate antibody revealed four times more phospho-(S/T) in (Bu)(2)-cAMP than in control preparations. The intensity of phosphorylated bands was decreased for the S55A, S56A and S194A mutants and it was completely abolished for the S55A/S56A/S194A mutant. StAR activity of control and stimulated preparations were diminished by 73 and 72% for the mutant S194A compared to 77 and 83% for the mutant S55A/S56A/S194A. The remaining activity appears to be independent of phosphorylation at PKA sites and could be due to the intrinsic activity of non-phosphorylated StAR or to an artefact due to the pharmacological quantity of StAR expressed in COS-1. In conclusion we have shown that (Bu)(2)-cAMP provokes an augmentation of both the quantity and activity of StAR, and that an enhancement in StAR phosphorylation increases its activity. The increased quantity of StAR upon (Bu)(2)-cAMP stimulation could be due to an augmentation of its mRNA or protein synthesis stability, or both; this is yet to be determined.

Two exo-β-D-glucosaminidases/exochitosanases from actinomycetes define a new subfamily within family 2 of glycoside hydrolases

A GlcNase (exo-beta-D-glucosaminidase) was purified from culture supernatant of Amycolatopsis orientalis subsp. orientalis grown in medium with chitosan. The enzyme hydrolysed the terminal GlcN (glucosamine) residues in oligomers of GlcN with transglycosylation observed at late reaction stages. 1H-NMR spectroscopy revealed that the enzyme is a retaining glycoside hydrolase. The GlcNase also behaved as an exochitosanase against high-molecular-mass chitosan with K(m) and kcat values of 0.16 mg/ml and 2832 min(-1). On the basis of partial amino acid sequences, PCR primers were designed and used to amplify a DNA fragment which then allowed the cloning of the GlcNase gene (csxA) associated with an open reading frame of 1032 residues. The GlcNase has been classified as a member of glycoside hydrolase family 2 (GH2). Sequence alignments identified a group of CsxA-related protein sequences forming a distinct GH2 subfamily. Most of them have been annotated in databases as putative beta-mannosidases. Among these, the SAV1223 protein from Streptomyces avermitilis has been purified following gene cloning and expression in a heterologous host and shown to be a GlcNase with no detectable beta-mannosidase activity. In CsxA and all relatives, a serine-aspartate doublet replaces an asparagine residue and a glutamate residue, which were strictly conserved in previously studied GH2 members with beta-galactosidase, beta-glucuronidase or beta-mannosidase activity and shown to be directly involved in various steps of the catalytic mechanism. Alignments of several other GH2 members allowed the identification of yet another putative subfamily, characterized by a novel, serine-glutamate doublet at these positions.

The in Vivo Effects of Adrenocorticotropin and Sodium Restriction on the Formation of Different Species of Steroidogenic Acute Regulatory Protein in Rat Adrenal

We have studied the in vivo expression of steroidogenic acute regulatory protein (StAR) in adrenals of control, ACTH-treated, and Na+-restricted rats. Indirect immunofluorescence by microscopy revealed the presence of StAR in the zonae glomerulosa (ZG) and fasciculata-reticularis (ZFR). An increased signal was observed in the ZG and zona fasciculata, 5 h after ACTH injection; a few cells of the medulla were also positive. Immunogold electron microscopy showed that StAR was mainly located over mitochondria (MT). By immunoblotting, a major 29-kDa and other minor StAR bands migrating between 30 and 39 kDa were increased 5 h after ACTH treatment but remained unchanged after 1 h. By two-dimensional-PAGE, four StAR species were revealed in homogenates of control ZG, and their intensity was increased 5 h after ACTH treatment but not after 1 h. Also, additional acidic species were seen 5 h after treatment. Other bands with basic isoelectric point were revealed between 29 and 37 kDa. Analyses on whole gland MT and...

High efficiency transient transfection of genes in human umbilical vein endothelial cells by electroporation

Endothelial cells derived from the human umbilical vein (HUVEC) are used to study the mechanisms involved in EC response to various stimuli as well as to investigate the basis of pathological conditions of the vascular system such as altered endothelium permeability, tumor-induced angiogenesis, atherosclerosis and leukocyte extravasation in chronic inflammatory responses. However, investigations of gene involvement related to these conditions have progressed slowly because of the difficulty of transfecting HUVEC with high efficiency. Whereas several technical approaches have been described, they usually result in low levels of transfected cells or they require several steps or sophisticated instrumentation. We describe here a straightforward protocol of transfection of freshly isolated HUVEC that is based on the simple technique of electroporation. Efficiencies of gene transfection greater than 40% were routinely obtained by using a combination of optimized conditions of HUVEC isolation, composition of the electroporation medium and homogeneity of the plasmids. The protocol has been applied to the functional transient transfection of functional genes in HUVEC as illustrated in the case of the cDNA encoding GFP, protein kinase C (alpha and epsilon isotypes) and beta-galactosidase.

ADRENOCORTICOTROPIN REGULATES THE LEVEL OF THE STEROIDOGENIC ACUTE REGULATORY (STAR) PROTEIN MRNA IN HAMSTER ADRENALS

In this study, we report the cloning of a StAR cDNA from a hamster adrenal cDNA library. The library was screened using a PCR fragment specific for the hamster adrenal StAR cDNA. Several clones of different lengths were obtained and one of these was sequenced. Northern blotting analysis revealed the presence of the StAR mRNA in male and female adrenals, in tests and ovaries, but not in the liver or kidneys of either sex. Whole hamster adrenals revealed the presence of four mRNAs of 0.65, 1.7, 3.1 and 5.25 kb, respectively. In addition, ACTH regulates the expression of StAR mRNA in hamster adrenals. Indeed, when groups of hamsters were injected with ACTH and sacrificed at different times after treatment, only the 0.65 kb form of the StAR mRNA did not increase, whereas the other forms increased at varying levels. These results might suggest that the expression of the StAR protein in hamster adrenals depends upon different genes, different promoters, or different polyadenylation signal sites. In conclusion, these results indicate that in vivo, StAR is regulated by ACTH, suggesting the participation of this protein in controlling the transformation of cholesterol to pregnenolone, a key regulatory step in corticosteroidogenesis.

Acute in vivo effects of acth on the expression of steroidogenic acute regulatory protein in rat adrenal

We have studied the effects of adrenocorticotropin (ACTH) on the expression of steroidogenic acute regulatory protein (StAR) in rat adrenals in vivo. Following ACTH stimulation, the level of StAR mRNA was increased within 1 h in zona glomerulosa (ZG) and zona fasciculata-reticularis (ZFR), with a maximum increase at 3 h. The increase in StAR protein was delayed when compared to its mRNA. The increase in the mitochondrial StAR protein at 3 h was concomitant with that of the homogenate indicating that the entry of StAR into mitochondria might not be necessary to increase steroidogenesis during the early stimulatory phase. In conclusion, we showed that ACTH increases StAR mRNA followed, after a delay, by an increase in the level of StAR protein; this suggests that post-translational modifications of StAR precursor occur during the early stimulatory phase and this occurs before the apparent translation of the newly formed mRNA.

Regulation of steroidogenic acute regulatory protein (StAR) gene expression in hamster adrenals

We previously reported the effect of ACTH on mRNA expression of hamster adrenal steroidogenic acute regulatory protein (StAR) in vivo (1). More recently, we cloned many StAR cDNAs from hamster adrenal (2). All these cDNAs contained the same coding sequence (CDS) for a predicted protein of 284 amino acids which has more than 90 percent identity with the mouse and rat StAR proteins. The hamster StAR cDNAs differ in their 3′-untranslated region, which contains three putative polyadenylation signals, AUAAA at + 1264 from the start codon (ATG), AAUAAA at + 1382 and AUUAAA at + 1506. The latter two were utilised in all clones analysed. These two proximal motifs could explain the mRNA band of about 1.7 kilobases (kb). In the rat, many polyadenylation signals have been identified that should encode the different mRNA bands (3). Southern analysis on hamster genomic DNA, followed by hybridisation with the StAR CDS, suggests the presence of only one gene in the hamster genome. Indeed, digestion with restriction enzy...