Bakarne Urzelai scite author profile

Background: Rac 1 GTPase mediates glycogen phosphorylase activation and controls IL-2-stimulated T cell proliferation. Results: PKC activates ␣PIX by serine phosphorylation and now this Rho-GEF activates Rac 1. Conclusion: IL-2-stimulated T cells migration and proliferation require the involvement of the PKC/␣PIX/Rac 1/PYGM pathway. Significance: This new signaling cascade may be a viable therapeutic target to block the inflammatory response mediated by T cells.

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PHD3-SUMO conjugation optimizes HIF1 repression independently of PHD3 catalytic activity

Núñez-O'Mara

Gerpe-Pita

Pozo

et al. 2014

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By controlling HIFa hydroxylation and stability, the prolyl hydroxylase domain (PHD)-containing proteins are essential to the maintenance of oxygen homeostasis; therefore these enzymes are tightly regulated. Small ubiquitin-like modifier (SUMO) is a 10-kDa protein readily conjugated to lysine residues of the targeted proteins in a process termed SUMOylation. In this study, we introduce SUMO conjugation as a novel regulator of PHD3 (also known as EGLN3). PHD3 SUMOylation occurs at a cluster of four lysines at the C-terminal end of the protein. Furthermore, PHD3 SUMOylation by SUMO2 or SUMO3 contributes to PHD3-mediated repression of HIF1-dependent transcriptional activity. Interestingly, PHD3-SUMO conjugation does not affect PHD3 hydroxylase activity or HIF1a stability, providing new evidence for a dual role of PHD3 in HIF1 regulation. Moreover, we show that hypoxia modulates PHD3-SUMO conjugation and that this modification inversely correlates with HIF1 activation. PHD3 SUMOylation highlights a new and additional layer of regulation that is likely required to fine-tune HIF function.

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The effects of N-acyl chain methylations on ceramide molecular properties in bilayer membranes

2011

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Long-chain saturated ceramides possess the ability to form gel domains in fluid bilayer membranes. Such domains may also contain sphingomyelin, but generally exclude cholesterol. We studied the effect of N-acyl chain methylations on the ability of ceramide to form ceramide- and sphingomyelin-containing gel domains that displace sterol. Fluorescence quenching of probes displaying different lateral partitioning in heterogeneous lipid bilayers showed that the methyl branches induced position-dependent changes in the lateral distribution of the ceramides. Distally monomethylated ceramides interacted with sphingomyelin and displaced sterol, whereas proximally monomethylated and polymethylated ceramides appeared to be located outside of sterol/sphingomyelin-enriched domains. The branched ceramides also markedly reduced the bilayer affinity for sterol as determined from the equilibrium partitioning of sterol between lipid vesicles and cyclodextrin. Altogether, alterations in intermolecular interactions induced by the methyl branches markedly affected the molecular properties of ceramide in artificial bilayers.

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The effect of ceramide N-acyl chain methyl-branching on sphingomyelin-enriched domains—thermal stability and sterol displacement

Maula

Urzelai

Slotte

2010

Chemistry and Physics of Lipids

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Bakarne Urzelai

Guanine Nucleotide Exchange Factor αPIX Leads to Activation of the Rac 1 GTPase/Glycogen Phosphorylase Pathway in Interleukin (IL)-2-stimulated T Cells

PHD3-SUMO conjugation optimizes HIF1 repression independently of PHD3 catalytic activity

The effects of N-acyl chain methylations on ceramide molecular properties in bilayer membranes

The effect of ceramide N-acyl chain methyl-branching on sphingomyelin-enriched domains—thermal stability and sterol displacement

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