Paul A. Foster scite author profile

Steroid sulfation and desulfation are fundamental pathways vital for a functional vertebrate endocrine system. After biosynthesis, hydrophobic steroids are sulfated to expedite circulatory transit. Target cells express transmembrane organic anion-transporting polypeptides that facilitate cellular uptake of sulfated steroids. Once intracellular, sulfatases hydrolyze these steroid sulfate esters to their unconjugated, and usually active, forms. Because most steroids can be sulfated, including cholesterol, pregnenolone, dehydroepiandrosterone, and estrone, understanding the function, tissue distribution, and regulation of sulfation and desulfation processes provides significant insights into normal endocrine function. Not surprisingly, dysregulation of these pathways is associated with numerous pathologies, including steroid-dependent cancers, polycystic ovary syndrome, and X-linked ichthyosis. Here we provide a comprehensive examination of our current knowledge of endocrine-related sulfation and desulfation pathways. We describe the interplay between sulfatases and sulfotransferases, showing how their expression and regulation influences steroid action. Furthermore, we address the role that organic anion-transporting polypeptides play in regulating intracellular steroid concentrations and how their expression patterns influence many pathologies, especially cancer. Finally, the recent advances in pharmacologically targeting steroidogenic pathways will be examined.

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Antiinflammatory activity of soluble guanylate cyclase: cGMP-dependent down-regulation of P-selectin expression and leukocyte recruitment

Ahluwalia

Foster²,

Scotland³

et al. 2004

Proc. Natl. Acad. Sci. U.S.A.

195

145

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Nitric oxide (NO) production by the vascular endothelium maintains an essential antiinflammatory, cytoprotective influence on the blood vessel wall. A key component of this activity is attributed to prevention of leukocyte-endothelial cell interactions, yet the underlying mechanisms remain unclear. The NO receptor, soluble guanylate cyclase (sGC), is expressed in endothelial cells but fulfils an unknown function. Therefore, we used intravital microscopy in mesenteric postcapillary venules from WT and endothelial nitric oxide synthase (eNOS) knockout (eNOS ؊/؊ ) mice, and an sGC activator (BAY 41-2272), to investigate a potential role for sGC in the regulation of adhesion molecule expression and leukocyte recruitment. Leukocyte rolling and adhesion was 6-fold greater in eNOS ؊/؊ than WT animals. BAY 41-2272 and the NO-donor, diethylamine-NONOate, reduced leukocyte rolling and adhesion in eNOS ؊/؊ mice to levels observed in WT animals. These effects were blocked by the sGC inhibitor ODQ [1H-(1,2,4)oxadiazolo(4,3-a)quinoxalin-1-one], which itself caused a 6-fold increase in leukocyte rolling and adhesion in WT mice. Increased leukocyte rolling and adhesion in IL-1␤-treated mice was also inhibited by BAY 41-2272. Fluorescence-activated cell sorting analysis in vitro and a specific P-selectin neutralizing antibody in vivo revealed that selective down-regulation of P-selectin expression accounted for the antiadhesive effects of sGC activation. These data demonstrate that sGC plays a key antiinflammatory role by inhibiting P-selectin expression and leukocyte recruitment.endothelium ͉ intravital microscopy T he recruitment of immune cells to sites of tissue injury is an important facet of an inflammatory response and is thought to represent a multistage process involving leukocyte rolling, adhesion, and emigration. Each stage of this response is triggered by the expression of specific adhesion molecules on the surface of leukocytes, platelets, and the vascular endothelium (see ref. 1). The regulation of this process therefore plays a key role in the development of an inflammatory response; moreover, it is clear that the active suppression of leukocyte͞platelet activation under physiological conditions is paramount for maintenance of blood vessel integrity and patency. Nitric oxide (NO) production by the vascular endothelium exerts an important cytoprotective, antithrombotic influence on the blood vessel wall by preventing the activation and adherence of circulating cells and platelets (2-4). Loss of this inhibitory effect of NO, and other endothelium-derived mediators including prostacyclin (PGI 2 ), results in a change in the endothelial cell to a prothrombotic, proinflammatory phenotype. It is thought that such changes contribute to diseases such as sepsis and atherosclerosis, and restenosis after balloon angioplasty. Hence, therapeutic intervention to prevent leukocyte͞platelet activation may be beneficial in numerous inf lammatory cardiovascular pathologies.The mechanism underlying the antiplatelet activity of NO ha...

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A Factor Viii Binding Domain Resides Within the Amino-Terminal 272 Amino Acid Residues of Von Willebrand Factor

et al. 1987

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We have identified a Factor VIII (FVIII) binding domain residing within the amino-terminal 272 amino acid residues of the mature von Willebrand Factor (vWF) subunit. Two dimensional crossed immunoelectrophoresis showed direct binding of purified human FVIII to purified human vWF. After proteolytic digestion of vWF with Staphylococcus aureus V8 protease, FVIII binding was seen only with the amino-terminal SP fragment III and not with the carboxy-terminal SP fragment II. A monoclonal anti-vWF antibody (C3) partially blocked FVIII binding to vWF and SP fragment III. FVIII also bound to vWF which had been adsorbed to polystyrene beads. This binding was inhibited in a dose dependent manner by whole vWF, SP fragment III, and by monoclonal antibody C3. Binding could not be inhibited by SP fragment I, which contains the middle portion of the vWF molecule, or by reduced and alkylated whole vWF. SP fragment II caused only minor inhibition. Trypsin cleavage of SP fragment III produced a 35-kDa fragment containing the amino-terminal 272 amino acid residues of vWF. This fragment reacted with monoclonal antibody C3 and inhibited the binding of FVIII to vWF in a dose dependent manner. The other major fragment obtained from this digestion was a two chain hetero-dimer composed of amino acid residues 273-511 and 674-728. This fragment did not inhibit FVIII binding. These studies demonstrate that a major FVIII binding site resides within the first 272 amino acid residues of vWF.

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Intracellular trafficking of factor VIII to von Willebrand factor storage granules.

Rosenberg

Foster²,

Kaufman³

et al. 1998

J. Clin. Invest.

109

114

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In plasma, von Willebrand factor (vWf) associates with Factor VIII (FVIII); however, the site at which these proteins first interact has not been defined. Administration of 1-desamino-8-D-arginine vasopressin (DDAVP) causes a rapid, concomitant elevation in plasma levels of both vWf and FVIII, suggesting the existence of a DDAVP-releasable storage pool for both proteins. To determine whether vWf and FVIII can associate intracellularly and colocalize to storage vesicles, we transfected AtT-20 cells with vWf and FVIII expression plasmids. FVIII alone was not detectable within storage granules; however, transfection of vWf cDNA into the same cell caused FVIII to alter its intracellular trafficking and to undergo granular storage, colocalizing to the vWf-containing granules. In contrast, colocalization of FVIII was not observed when these cells were transfected with plasmids encoding defective FVIII-binding vWf mutants. Transfection of bovine endothelial cells with FVIII further demonstrated vesicular storage of FVIII with vWf in Weibel-Palade bodies. Since gene therapy of hemophilia A may ultimately target endothelium or hematopoietic stem cells, the interaction between vWf and FVIII within a secretory cell is important. Thus, vWf can alter the intracellular trafficking of FVIII from a constitutive to a regulated secretory pathway, thereby producing an intracellular storage pool of both proteins.

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Paul A. Foster

The Regulation of Steroid Action by Sulfation and Desulfation

Antiinflammatory activity of soluble guanylate cyclase: cGMP-dependent down-regulation of P-selectin expression and leukocyte recruitment

A Factor Viii Binding Domain Resides Within the Amino-Terminal 272 Amino Acid Residues of Von Willebrand Factor

Intracellular trafficking of factor VIII to von Willebrand factor storage granules.

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