The death receptor antagonist FAIM promotes neurite outgrowth by a mechanism that depends on ERK and NF-κB signaling

Fas apoptosis inhibitory molecule (FAIM) is a protein identified as an antagonist of Fas-induced cell death. We show that FAIM overexpression fails to rescue neurons from trophic factor deprivation, but exerts a marked neurite growth–promoting action in different neuronal systems. Whereas FAIM overexpression greatly enhanced neurite outgrowth from PC12 cells and sympathetic neurons grown with nerve growth factor (NGF), reduction of endogenous FAIM levels by RNAi decreased neurite outgrowth in these cells. FAIM overexpression promoted NF-κB activation, and blocking this activation by using a super-repressor IκBα or by carrying out experiments using cortical neurons from mice that lack the p65 NF-κB subunit prevented FAIM-induced neurite outgrowth. The effect of FAIM on neurite outgrowth was also blocked by inhibition of the Ras–ERK pathway. Finally, we show that FAIM interacts with both Trk and p75 neurotrophin receptor NGF receptors in a ligand-dependent manner. These results reveal a new function of FAIM in promoting neurite outgrowth by a mechanism involving activation of the Ras–ERK pathway and NF-κB.

Estudio de la patogenia de clostridium perfringens tipo b y d en pequeños rumiantes

Proyecto de investigación realizado a partir de una estancia en la University of California, Davis, Estados Unidos, entre octubre y desembre del 2007. Clostridium perfringens (C. perfringens) tipo C causa enteritis necrotizante en humanos y enterotoxemias en animales domésticos. Esta bacteria produce beta toxina (CPB), alfa toxina (CPA) y perfringolisina (PFO) durante la fase logarítimca de crecimiento. En nuestro estudio se evaluó la relación entre CPB y la virulencia del aislamiento CN3685 de Cl. perfringens tipo C en un modelo caprino con inoculación intraduodenal. De manera similar a la infección natural por C. perfringens tipo C, el cultivo vegetativo del tipo salvaje de CN3685 provocó dolor abdominal, diarrea hemorrágica, enteritis necrotizante, colitis, edema pulmonar, hidropericardio y muerte en 2 cabritos, a las 24 horas postinoculación. Por otro lado, mediante tecnología Targe Tron® se prepararon mutantes isogénicos carentes de toxina CPB, los cuales fueron inoculados siguiendo el modelo anteriormente descrito. Los resultados mostraron que estos mutantes carecían de todo tipo de virulencia, ya que no se observaron signos clínicos durante las primeras 24 h postinoculación ni tampoco lesiones macroscópicas ni histopatológicas. Posteriormente se desarrolló un modelo experimental similar a los anteriores, en los que se había repuesto la capacidad de producción de CPB en los mutantes. Los dos animales inoculados con estos mutantes complementarios presentaron signos clínicos y lesiones similares a las observadas en el caso del tipo salvaje. Estos resultados muestran que la toxina CPB es necesaria y suficiente para inducir la enfermedad causada por CN3685. Esto a su vez, demuestra la importancia de este tipo de toxina en la patogénesis de C. perfringems tìpo C.

Lipid phosphate phosphatase 3 participates in transport carrier formation and protein trafficking in the early secretory pathway

The inhibition of phosphatidic acid phosphatase (PAP) activity by propanolol indicates that diacylglycerol (DAG) is required for the formation of transport carriers at the Golgi and for retrograde trafficking to the ER. Here we report that the PAP2 family member lipid phosphate phosphatase 3 (LPP3, also known as PAP2b) localizes in compartments of the secretory pathway from ER export sites to the Golgi complex. The depletion of human LPP3: (i) reduces the number of tubules generated from the ER-Golgi intermediate compartment and the Golgi, with those formed from the Golgi being longer in LPP3-silenced cells than in control cells; (ii) impairs the Rab6-dependent retrograde transport of Shiga toxin subunit B from the Golgi to the ER, but not the anterograde transport of VSV-G or ssDsRed; and (iii) induces a high accumulation of Golgi-associated membrane buds. LPP3 depletion also reduces levels of de novo synthesized DAG and the Golgi-associated DAG contents. Remarkably, overexpression of a catalytically inactive form of LPP3 mimics the effects of LPP3 knockdown on Rab6-dependent retrograde transport. We conclude that LPP3 participates in the formation of retrograde transport carriers at the ER-Golgi interface, where it transitorily cycles, and during its route to the plasma membrane.