A selective ATP-competitive sphingosine kinase inhibitor demonstrates anti-cancer properties

The dynamic balance of cellular sphingolipids, the sphingolipid rheostat, is an important determinant of cell fate, and is commonly deregulated in cancer. Sphingosine 1-phosphate is a signaling molecule with anti-apoptotic, pro-proliferative and pro-angiogenic effects, while conversely, ceramide and sphingosine are pro-apoptotic. The sphingosine kinases (SKs) are key regulators of this sphingolipid rheostat, and are attractive targets for anti-cancer therapy. Here we report a first-in-class ATP-binding site-directed small molecule SK inhibitor, MP-A08, discovered using an approach of structural homology modelling of the ATP-binding site of SK1 and in silico docking with small molecule libraries. MP-A08 is a highly selective ATP competitive SK inhibitor that targets both SK1 and SK2. MP-A08 blocks pro-proliferative signalling pathways, induces mitochondrial-associated apoptosis in a SK-dependent manner, and reduces the growth of human lung adenocarcinoma tumours in a mouse xenograft model by both inducing tumour cell apoptosis and inhibiting tumour angiogenesis. Thus, this selective ATP competitive SK inhibitor provides a promising candidate for potential development as an anti-cancer therapy, and also, due to its different mode of inhibition to other known SK inhibitors, both validates the SKs as targets for anti-cancer therapy, and represents an important experimental tool to study these enzymes.Melissa R. Pitman, Jason A. Powell, Carl Coolen, Paul A.B. Moretti, Julia R. Zebol, Duyen H. Pham, John W. Finnie, Anthony S. Don, Lisa M. Ebert, Claudine S. Bonder, Briony L. Gliddon, Stuart M. Pitso

The North of England Newspaper Company, 1903-1939 The declining political importance of a Liberal newspaper company

SIGLEAvailable from British Library Document Supply Centre-DSC:DXN040278 / BLDSC - British Library Document Supply CentreGBUnited Kingdo

The processing and interpretation of feedback by PhD candidates

This study takes a close look at the characteristics of the feedback received by PhD candidates and explores how they then interpret that feedback. Over 200 PhD candidates participated in the study by providing data over a six month period using a custom-built Internet-interfaced database. Each candidate completed a self-concept test both at the beginning and again at the end of this period. In between, they completed an \u27e-diary\u27 in which they recorded data about every feedback interaction that they experienced over the six months. From the data collected, the Researcher developed a model showing how feedback is processed and the effect that this process has on PhD candidates

Effect of low body temperature during unilateral labyrinthectomy on vestibular compensation in the guinea pig.

Objectives - Vestibular compensation, the recovery that follows unilateral vestibular deafferentation (UVD), is a model for central nervous system plasticity. Recovery from the static symptoms of UVD may involve temperature-dependent processes that modulate the immediate effects of UVD and/or the capability of the central nervous system to undergo adaptive plasticity. In this study we investigated changes in oculomotor and postural vestibular symptoms resulting from low body temperature during UVD. Material and methods - To study the effect of low temperatures at the time of UVD on vestibular compensation, we compared the rate of compensation and peak values for postural [roll head tilt (RHT) and yaw head tilt (YHT)] and oculomotor [spontaneous nystagmus (SN)] symptoms in three groups of guinea pigs. Animals in Group 1 (n=6) were maintained at 38°C throughout unilateral labyrinthectomy (UL). Animals in Group 2 (n=6) were not temperature-controlled and animals in Group 3 (n=4) were cooled with ice to 25°C throughout UL. Results - Cooled animals showed significantly higher rates of SN upon recovery from anaesthesia and took a significantly longer time to compensate. Cooled animals were also slower to compensate for postural symptoms (RHT and YHT), with 2 animals showing no compensation for RHT 52 h after UL. Conclusion - Hypothermia (25°C) during UVD surgery exacerbates postural and oculomotor symptoms following UL and significantly slows recovery