Novel organotypic culture model of cholangiocarcinoma progression.

Aim:   Recent studies have suggested that increased α-smooth muscle-actin positive myofibroblastic cells (α-SMA positive CAF) in the desmoplastic stroma may relate to a more aggressive cancer and worse survival outcomes for intrahepatic cholangiocarcinoma (ICC) patients. To facilitate investigating cellular and molecular interactions between α-SMA positive CAF and cholangiocarcinoma cells related to ICC progression, we developed a novel 3-D organotypic culture model of cholangiocarcinoma that more accurately mimics the stromal microenvironment, gene expression profile and select pathophysiological characteristics of desmoplastic ICC in vivo.

Methods:   This unique model was established by co-culturing within a type I collagen gel matrix, a strain of cholangiocarcinoma cells (derived from an ICC formed in syngeneic rat liver following bile duct inoculation of spontaneously-transformed rat cholangiocytes) with varying numbers of clonal α-SMA positive CAF established from the same tumor type.

Ceramide kinase regulates the production of tumor necrosis factor α (TNFα) via inhibition of TNFα-converting enzyme.

Tumor necrosis factor α (TNFα) is a well known cytokine involved in systemic and acute inflammation. In this study, we demonstrate that ceramide 1-phosphate (C1P) produced by ceramide kinase (CERK) is a negative regulator of LPS-induced TNFα secretion. Specifically, bone marrow-derived macrophages isolated from CERK knock-out mice (CERK(-/-)) generated higher levels of TNFα than the wild-type mice (CERK(+/+)) in response to LPS.

WITHDRAWN: Ceramide kinase regulates the production of TNF{alpha} via inhibition of TNF{alpha}-converting enzyme.

This manuscript was withdrawn by the author.

A ceramide analog inhibits cPLA(2) activity and consequent PGE(2) formation in LPS-stimulated macrophages.

Prostaglandin E(2) (PGE(2)) is an important mediator of the inflammatory response. Phospho-ceramide analogue-1 (PCERA-1), a synthetic phospholipid-like molecule, was previously reported to modulate pro- and anti-inflammatory cytokine production. We show here that PCERA-1 inhibited LPS-stimulated PGE(2) production in RAW264.

hnRNP L regulates the tumorigenic capacity of lung cancer xenografts in mice via caspase-9 pre-mRNA processing.

Caspase-9 is involved in the intrinsic apoptotic pathway and suggested to play a role as a tumor suppressor. Little is known about the mechanisms governing caspase-9 expression, but post-transcriptional pre-mRNA processing generates 2 splice variants from the caspase-9 gene, pro-apoptotic caspase-9a and anti-apoptotic caspase-9b. Here we demonstrate that the ratio of caspase-9 splice variants is dysregulated in non-small cell lung cancer (NSCLC) tumors.

Ceramide 1-phosphate is required for the translocation of group IVA cytosolic phospholipase A2 and prostaglandin synthesis.

Little is known about the regulation of eicosanoid synthesis proximal to the activation of cytosolic phospholipase A(2)alpha (cPLA(2)alpha), the initial rate-limiting step. The current view is that cPLA(2)alpha associates with intracellular/phosphatidylcholine-rich membranes strictly via hydrophobic interactions in response to an increase of intracellular calcium. In opposition to this accepted mechanism of two decades, ceramide 1-phosphate (C1P) has been shown to increase the membrane association of cPLA(2)alpha in vitro via a novel site in the cationic beta-groove of the C2 domain (Stahelin, R.

Chain length specificity for activation of cPLA2alpha by C1P: use of the dodecane delivery system to determine lipid-specific effects.

Previously, our laboratory demonstrated that ceramide-1-phosphate (C1P) specifically activated group IVA cytosolic phospholipase A(2) (cPLA(2)alpha) in vitro. In this study, we investigated the chain length specificity of this interaction. C1P with an acyl-chain of >or=6 carbons efficiently activated cPLA(2)alpha in vitro, whereas C(2)-C1P, was unable to do so.

Ceramide kinase and the ceramide-1-phosphate/cPLA2alpha interaction as a therapeutic target.

Ceramide kinase (CERK) was discovered more than a decade ago. Since then, numerous reports have been published demonstrating a role for CERK in various signal transduction pathways involved in inflammation, immunity or cancer. In this review, the biosynthesis of ceramide-1-phosphate (C1P) and the various roles of CERK and C1P in biological mechanisms will be overviewed.

Ceramide kinase and ceramide-1-phosphate.

It has been over a decade since the sphingolipid ceramide-1-phosphate (C1P) was described. Until recently, only sparse reports on possible biological functions for this lipid have been published. A large number of reports have now surfaced demonstrating distinct biological mechanisms regulated by C1P produced from ceramide kinase (CERK).

Molecular cloning, expression and characterization of ribokinase of Leishmania major.

Ribokinase (EC 2.1.7.

Ceramide kinase uses ceramide provided by ceramide transport protein: localization to organelles of eicosanoid synthesis.

Ceramide kinase (CERK) is a critical mediator of eicosanoid synthesis, and its product, ceramide-1-phosphate (C1P), is required for the production of prostaglandins in response to several inflammatory agonists. In this study, mass spectrometry analysis disclosed that the main forms of C1P in cells were C(16:0) C1P and C(18:0) C1P, suggesting that CERK uses ceramide transported to the trans-Golgi apparatus by ceramide transport protein (CERT). To this end, downregulation of CERT by RNA interference technology dramatically reduced the levels of newly synthesized C1P (kinase-derived) as well as significantly reduced the total mass levels of C1P in cells.

Ceramide kinase regulates growth and survival of A549 human lung adenocarcinoma cells.

Ceramide-1-phosphate (C1P) is emerging as a new addition to the family of bioactive sphingolipid metabolites. At low concentrations, C1P enhanced survival of NIH 3T3 fibroblasts and A549 lung cancer cells, while at high concentrations, it reduced survival and induced apoptosis. Apoptosis correlated with degradation of C1P to pro-apoptotic ceramide.

Ceramide-1-phosphate: the "missing" link in eicosanoid biosynthesis and inflammation.

It has been over a decade since ceramide kinase (CERK) and its product, ceramide-1-phosphate (C1P), were first reported. Since itscloning, in 2002, CERK has been the subject of an explosion of publications concerning various signal transduction pathways. The roles of this previously overlooked enzyme, as well as those of its product C1P, continue to expand, and their regulatory functions in the production of eicosanoid inflammatory mediators are proving essential to fundamental signal transduction pathways.

Proline metabolism in procyclic Trypanosoma brucei is down-regulated in the presence of glucose.

Proline metabolism has been studied in procyclic form Trypanosoma brucei. These parasites consume six times more proline from the medium when glucose is in limiting supply than when this carbohydrate is present as an abundant energy source. The sensitivity of procyclic T.