Dynamic11 c-methionine pet-ct: Prognostic factors for disease progression and survival in patients with suspected glioma recurrence

Purpose: The prognostic evaluation of glioma recurrence patients is important in the therapeutic management. We investigated the prognostic value of11 C-methionine PET-CT (MET-PET) dynamic and semiquantitative parameters in patients with suspected glioma recurrence. Methods: Sixty-seven consecutive patients who underwent MET-PET for suspected glioma recurrence at MR were retrospectively included. Twenty-one patients underwent static MET-PET; 46/67 underwent dynamic MET-PET. In all patients, SUVmax, SUVmean and tumour-to-background ratio (T/B) were calculated. From dynamic acquisition, the shape and slope of time-activity curves, time-to-peak and its SUVmax (SUVmaxTTP ) were extrapolated. The prognostic value of PET parameters on progression-free (PFS) and overall survival (OS) was evaluated using Kaplan–Meier survival estimates and Cox regression. Results: The overall median follow-up was 19 months from MET-PET. Recurrence patients (38/67) had higher SUVmax (p = 0.001), SUVmean (p = 0.002) and T/B (p < 0.001); deceased patients (16/67) showed higher SUVmax (p = 0.03), SUVmean (p = 0.03) and T/B (p = 0.006). All static parameters were associated with PFS (all p < 0.001); T/B was associated with OS (p = 0.031). Regarding kinetic analyses, recurrence (27/46) and deceased (14/46) patients had higher SUVmaxTTP (p = 0.02, p = 0.01, respectively). SUVmaxTTP was the only dynamic parameter associated with PFS (p = 0.02) and OS (p = 0.006). At univariate analysis, SUVmax, SUVmean, T/B and SUVmaxTTP were predictive for PFS (all p < 0.05); SUVmaxTTP was predictive for OS (p = 0.02). At multivariate analysis, SUVmaxTTP remained significant for PFS (p = 0.03). Conclusion: Semiquantitative parameters and SUVmaxTTP were associated with clinical outcomes in patients with suspected glioma recurrence. Dynamic PET-CT acquisition, with static and kinetic parameters, can be a valuable non-invasive prognostic marker, identifying patients with worse prognosis who require personalised therapy

Bioassays to Monitor Taspase1 Function for the Identification of Pharmacogenetic Inhibitors

Background: Threonine Aspartase 1 (Taspase1) mediates cleavage of the mixed lineage leukemia (MLL) protein and leukemia provoking MLL-fusions. In contrast to other proteases, the understanding of Taspase1's (patho)biological relevance and function is limited, since neither small molecule inhibitors nor cell based functional assays for Taspase1 are currently available. Methodology/Findings: Efficient cell-based assays to probe Taspase1 function in vivo are presented here. These are composed of glutathione S-transferase, autofluorescent protein variants, Taspase1 cleavage sites and rational combinations of nuclear import and export signals. The biosensors localize predominantly to the cytoplasm, whereas expression of biologically active Taspase1 but not of inactive Taspase1 mutants or of the protease Caspase3 triggers their proteolytic cleavage and nuclear accumulation. Compared to in vitro assays using recombinant components the in vivo assay was highly efficient. Employing an optimized nuclear translocation algorithm, the triple-color assay could be adapted to a high-throughput microscopy platform (Z'factor = 0.63). Automated high-content data analysis was used to screen a focused compound library, selected by an in silico pharmacophor screening approach, as well as a collection of fungal extracts. Screening identified two compounds, N-[2-[(4-amino-6-oxo-3H-pyrimidin-2-yl)sulfanyl]ethyl]benzenesulfonamideand 2-benzyltriazole-4,5-dicarboxylic acid, which partially inhibited Taspase1 cleavage in living cells. Additionally, the assay was exploited to probe endogenous Taspase1 in solid tumor cell models and to identify an improved consensus sequence for efficient Taspase1 cleavage. This allowed the in silico identification of novel putative Taspase1 targets. Those include the FERM Domain-Containing Protein 4B, the Tyrosine-Protein Phosphatase Zeta, and DNA Polymerase Zeta. Cleavage site recognition and proteolytic processing of these substrates were verified in the context of the biosensor. Conclusions: The assay not only allows to genetically probe Taspase1 structure function in vivo, but is also applicable for high-content screening to identify Taspase1 inhibitors. Such tools will provide novel insights into Taspase1's function and its potential therapeutic relevance

Mechanisms of HCF protein proteolytic maturation

Abstract : Post-translational modifications such as proteolytic processing, phosphorylation, and glycosylation, add extra layers of complexity to proteomes and allow a finely tuned regulation of the activity of many proteins. The evolutionarily conserved cell-cycle and transcriptional regulator HCP-] is regulated by proteolytic maturation via which a stable heterodirneric complex of two cleaved subunits is formed from a single precursor protein. The human HCF-1 precursor is cleaved at six nearly identical 26 amino acid sequence repeats, called HCF-1pro repeats, which represent uncommon protease recognition sites dedicated to human HCF-1 proteolysis. This proteolytic maturation process is conserved in vertebrate HCF-1 homologues and is essential for the functions of the human protein in cell-cycle regulation; the mechanisms that execute and control HCF-1 proteolysis, however, remain poorly understood. In this dissertation I investigate the mechanisms of proteolytic maturation of HCF-1 proteins in different species. I show that the Drosophila homolog of human HCF-1, called dHCP, is proteolytically cleaved via a different mechanism than human HCF-1. dHCP is processed by the same protease, called Taspase], which cleaves one of the key developmental regulators in flies, the Trithorax protein. Maturation of HCP proteins via Taspase] cleavage is probably not particular to dHCP as many invertebrate HCP proteins, particularly insects and flatworms, possess Taspase] recognition sites. In contrast, the vertebrate HCF-1 proteins lack Taspase] recognition sites and the HCF-1pro repeats are not Taspase1 substrates, suggesting that multiple mechanisms for HCF-1 proteolytic maturation have appeared during evolution. I also show that the proteolytic activity responsible for the cleavage of the HCP- 1pro repeats is very difficult to characterize, being resistant to most protease inhibitors and very sensitive to biochemical fractionation. Moreover, the HCF-1pro repeats represent complex protease recognition sites and I demonstrate that, in addition to be the HCF-1 cleavage sites, these repeated sequences, also recruit the OG1cNAc transferase OGT. The OGT protein and the OG1cNAc modification of HCF-1 are both important for HCF-1pro repeat proteolysis. Interestingly, a human recombinant OGT purified from insect cells is able to induce cleavage of a HCF-1pro-repeat precursor in vitro, indicating that OGT either (i) induces HCF-1 autoproteolysis,(ii) is the HCF-1pro- repeat proteolytic activity itself, or (iii) physically associates with a proteolytic activity that is conserved in insect cells. In any case, OGT plays an important role in HCF-1 proteolytic maturation and perhaps a broader role in HCF-1 biological function. Résumé : Les modifications post-traductionelles pomme le clivage protéolytique, la phosphorylation, et la glycosylation, augmentent significativement la complexité des protéomes et permettent une régulation fine de l'activité de beaucoup de protéines. La protéine HCF-1, qui est un régulateur du cycle cellulaire et de la transcription, est elle- même régulée par clivage protéolytique. La protéine HCF-1 est en effet coupée en deux sous-unités qui s'associent l'une a l'autre pour former la protéine mature. Le précurseur de la protéine HCF-1 humaine est clivé à six sites correspondant à six séquences répétées nommées les HCF-1pro repeats, chacune composée de 26 acide aminés. Les HCF-1pro- repeats ne ressemblent ai aucune séquence de clivage protéolytique connue et sont présentes seulement dans les protéines HCF-1 chez les vertébrés. Bien que la maturation protéolytique d'HCF-1 soit essentielle pour les activités de cette protéine pendant le cycle cellulaire, les mécanismes qui la contrôlent restent inconnus. Au cours de mon travail de thèse, j'ai analysé les mécanismes de clivage protéolytique des protéines HCF dans différentes espèces. J'ai montré que la protéine de Drosophile homologue d'HCF-1 humaine nommée dHCF est clivée par une protéase nommée Taspase1. Ainsi, dHCF est clivé par la même protéase que celle qui induit la maturation protéolytique d'un des principaux facteurs du développement chez la mouche, la protéine Trithorax. La maturation de dHCF via le clivage par la Taspase1 n'est pas spécifique à la mouche, mais est probablement étendu à plusieurs protéines HCF chez les invertébrés, surtout dans les familles des insectes et des plathehninthes, car ces protéines HCF présentent des sites de reconnaissance pour la Taspasel. Par contre, les protéines HCF-1 chez les vertébrés n'ont pas de sites de reconnaissance pour la Taspasel et cela suggère que différents mécanismes de maturation des protéines HCF- ls ont apparu au cours de l'évolution. J'ai montré aussi que les HCF-1pro-repeats sont clivés par une activité protéolytique très difficile a identifier, car elle est résistante à la plupart des inhibiteurs de protéases, mais elle est très sensible au fractionnement biochimique. En plus, les HCF-1pro-repeats sont un site de protéolyse complexe qui ne sert pas seulement au clivage des protéines HCF- chez les vertébrés mais aussi à recruter l'enzyme responsable de la O- GlcNAcylation nommée OGT. La protéine OGT et la O-GlcNAcylatio d'HCF-1 sont toutes les deux importantes pour le clivage protéolytique des HCF1pro-repeats. Curieusement, la protéine OGT humaine produite dans des cellules d'insectes est capable de cliver les HCF-1pro repeats in vitro et cela suggère que OGT soit (i) induit le clivage autocatalytique cl'HCF-1, soit (ii) est elle-même l'activité protéolytique qui clive HCF4, soit (iii) est associée à une activité protéolytique conservée dans les cellules d'insectes qui a été co-purifiée avec OGT. En conclusion, OGT joue un rôle important dans la maturation protéolytique d'HCF-1 et peut-être aussi un rôle plus large dans les fonctions biologiques de la protéine HCF-1

HCF-1 self-association via an interdigitated Fn3 structure facilitates transcriptional regulatory complex formation.

Host-cell factor 1 (HCF-1) is an unusual transcriptional regulator that undergoes a process of proteolytic maturation to generate N- (HCF-1(N)) and C- (HCF-1(C)) terminal subunits noncovalently associated via self-association sequence elements. Here, we present the crystal structure of the self-association sequence 1 (SAS1) including the adjacent C-terminal HCF-1 nuclear localization signal (NLS). SAS1 elements from each of the HCF-1(N) and HCF-1(C) subunits form an interdigitated fibronectin type 3 (Fn3) tandem repeat structure. We show that the C-terminal NLS recruited by the interdigitated SAS1 structure is required for effective formation of a transcriptional regulatory complex: the herpes simplex virus VP16-induced complex. Thus, HCF-1(N)-HCF-1(C) association via an integrated Fn3 structure permits an NLS to facilitate formation of a transcriptional regulatory complex

Use of a CMOS image sensor for beta-emitting radionuclide measurements

Radio-Guided Surgery enables the surgeon to identify tumor residuals in real time, with millimetric resolution. This technique takes advantage of a radiopharmaceutical as tracer and a probe as detector. The employment of β - emitters as tracers, instead of γ or β + , reduces the background from the healthy tissues and the medical exposition risk. The performances of a CMOS sensor, the MT9V011, originally designed for visible light imaging, as β - radiation detector have been investigated. In particular, we have studied the impact of an infra-red filter placed in front of the sensor in the existing commercial devices, and we have determined the sensitivity and spatial resolution of the sensor, in the presence of a localized ionization source of variable size. Finally, by evaluating the sensitivity to clinical-like activities and geometries we conclude that even with the small size of the sensor, that can potentially be increased, the acquisition time required to discriminate a tumor residual from healthy tissues is of a few seconds for transverse dimensions greater than 3 mm

Populism and Government: Continuity and Paradoxes in the Yellow-Green Experiment

Domestic and comparative constitutional analyses routinely describe the government as the most under-theorised among constitutional organs. This chapter aims to consider whether and how the Italian government has been affected by the rise of populist parties and movements or, more vaguely, by populist arguments and discourse. At first glance, an obvious starting point is the link between the trend towards the presidentialisation of the executives and the institutional programmes of populism. What has been described as the first experiment in purely populist government in Europe seems to contradict such claims and to have revived some long-term characters of the Italian executive. As scholars have put it, electoral laws and European integration are the factors that have most contributed to defining and shaping the role of government over the last three decades: in a nutshell, they have contributed, among other things, to strengthening the institutional role and visibility of the Prime Minister. Still, the Italian government which was formed in 2018 was based on a “contract” signed by the leaders of the Five Star Movement and the League, and to whose drafting Giuseppe Conte, who later went on to be appointed to the premiership, was largely foreign