Rabphilin localizes with the cell actin cytoskeleton and stimulates association of granules with F-actin cross-linked by α-actinin

In endocrine cell, granules accumulate within an F-actin-rich region below the plasma membrane. The mechanisms involved in this process are largely unknown. Rabphilin is a cytosolic protein that is expressed in neurons and neuroendocrine cells and binds with high affinity to members of the Rab3 family of GTPases localized to synaptic vesicles and dense core granules. Rabphilin also interacts with alpha-actinin, a protein that cross-links F-actin into bundles and networks and associates with the granule membrane. Here we asked whether rabphilin, in addition to its granule localization, also interacts with the cell actin cytoskeleton. Immunofluorescence and immunoelectron microscopy show that rabphilin localizes to the sub-plasmalemmal actin cytoskeleton both in neuroendocrine and unspecialized cells. By using purified components, it is found that association of rabphilin with F-actin is dependent on added alpha-actinin. In an in vitro assay, granules, unlike endosomes or mitochondria, associate with F-actin cross-linked by alpha-actinin. Rabphilin is shown to stimulate this process. Rabphilin enhances by approximately 8-fold the granule ability to localize within regions of elevated concentration of cross-linked F-actin. These results suggest that rabphilin, by interacting with alpha-actinin, organizes the cell cytoskeleton to facilitate granule localization within F-actin-rich regions

Physiology and pathophysiology of the RANKL/RANK system

The bone resorption activity of osteoclasts is regulated at many levels, including differentiation of their monocytes precursors, fusion into multi-nucleated cells, migration to the resorption site, polarization of the mature osteoclasts and assembly of a podosome-based sealing zone. Another function of osteoclasts is relative to the integrity of the actin cytoskeleton, depending on the substratum upon which the osteoclasts are spread. There are two different structures of actin known as podosomes and sealing zone, actived in specialized matrix contacts and delimiting the membrane domain, where the ruffled border is formed. When a dual coculture of murine osteoblasts and murine mononuclear monocytes, in absolute absence of exogenous cytokines and other growth factors, was cultured on glass, the basic architecture of podosomes units and ruffled border was maintained regularly (1). We studied the osteoclast morphology and its behaviour in adhesion and in vesicle traffic by combination of light microscopy immunohistochemistry and transmission electron microscopy (TEM) immunolabeling. The adhesion and the fusion of preosteoclasts were observed by scanner electron microscopy (SEM). The osteoclasts produced by our physiological dual co-culture (without interaction of specific cytokines) are functionally and biologically active TRAP + and multinucleated cells. In fact the role of RANK, expressed by osteoblasts, controls the modulation of OPG bioavailability in the extracellular compartment. The fusion of monocytes is influenced by the presence of osteoblasts, that is based on RANK-RANKL interaction and communication between osteoblasts and preosteoclasts mediated by several molecules (2). Osteoclasts and osteoblasts can make direct contact, allowing membrane-bound ligands and receptors to interact and initiate intracellular signalling. RANKL-RANK complexes are likely internalized via rafts and then degraded in lysosomes. A recent study has shown that membrane-bound RANKL complexes to OPG is internalized by endocytosis process. A potential interaction of RANKL with clathrin components prior to the OPG binding, as shown by the kinetic results, OPG is intracellularly degraded after being internalized: our observation of osteoclast membrane at TEM has shown that immunogold labelled RANKL colocalizes with immunoglod labelled clathrin via the clathrin-coated-pit-mediated (3) pathway and both proteins are degraded by lysosome and proteasome pathway. 1) Nicolin V. et al.,. 2006 J.Mol.Histol.37 :171-177 2) Narducci P., et al.,. Acta Histochem.113(2):73-81. 3) Narducci P., et al., 2010, Eur J Histochem 54(1):e6

Re‐examination of the mechanisms regulating nuclear inositol lipid metabolism

Although inositol lipids constitute only a very minor proportion of total cellular lipids, they have received immense attention by scientists since it was discovered that they play key roles in a wide range of important cellular processes. In the late 1980s, it was suggested that these lipids are also present within the cell nucleus. Albeit the early reports about the intranuclear localization of phosphoinositides were met by skepticism and disbelief, compelling evidence has subsequently been accumulated convincingly showing that a phosphoinositide cycle is present at the nuclear level and may be activated in response to stimuli that do not activate the inositol lipid metabolism localized at the plasma membrane. Very recently, intriguing new data have highlighted that some of the mechanisms regulating nuclear inositol lipid metabolism differ in a substantial way from those operating at the cell periphery. Here, we provide an overview of recent findings regarding the regulation of both nuclear phosphatidylinositol 3‐kinase and phosphoinositide‐specific phospholipase C‐β1

Prodromal angina and risk of 2-year cardiac mortality in patients with ST-segment elevation myocardial infarction undergoing primary percutaneous intervention

We sought to investigate the prognostic significance of prodromal angina (PA) in unselected patients with ST-segment elevation myocardial infarction (STEMI) undergoing primary percutaneous coronary intervention (PPCI) and its additive predictive value to the GRACE score.We prospectively enrolled 3015 consecutive STEMI patients undergoing PPCI. Patients were divided in 2 groups according to the presence or absence of PA. Multivariable Cox regression was used to establish the relation to 2-year cardiac mortality of PA.The mean age of the study population was 68 (±14) years; 2178 patients (72%) were male. During follow-up, 395 (13%) patients died with 278 of these (9.2%) suffering from cardiac mortality. Kaplan-Meier estimates showed a survival rate of 95% and 87% for patients with PA and no PA, respectively (log rank test < 0.001). After multivariable analysis, patients with PA had still a lower risk of 2 years' cardiac mortality compared with patients without PA (adjusted hazard ratio = 0.50; 95% confidence interval [CI] 1.06-1.81, P = .001). Evaluation of net reclassification improvement showed that reclassification improved by 0.16% in case patients, whereas classification worsened in control patients by 1.08% leading to a net reclassification improvement of -0.93% (95% CI: -0.98, -0.88).In patients with STEMI undergoing PPCI the presence of PA is independently associated with a lower risk of 2-year cardiac mortality. However, the incorporation of this variable to the GRACE score slightly worsened the classification of risk. Accordingly, it seems unlikely that the evaluation of PA may be useful in clinical practice

SAFFO: A SIFT based approach for digital Anastylosis For Fresco recOnstruction

Anastylosis is an archaeological technique which focuses on the reconstruction of collapsed building and destroyed artworks, starting from the original pieces. Many digital approaches have been developed in the last decade, mainly based on 2D and 3D analysis of the structure of the fragments. These techniques aim at supporting the priceless work of the involved operators, mainly in the decision processes and in the resolution of positioning ambiguities. Techniques acting with this scope lie in the field of the digital anastylosis. In this paper we present SAFFO, a digital approach to 2D reconstruction of frescoes, based on the extraction of SIFT features from a painting. The approach appears to be very robust to false positives, resulting optimal in scenarios involving fragment sets containing spurious elements. The experiments have been performed on the DAFNE (Digital Anastylosis for Fresco challeNgE) dataset, which gathers more than 30 2D artworks and provides several tessellation for each. For its robustness against spurious fragments, SAFFO won the third place in the rank list of DAFNE Challenge 2019

Clustering facial attributes: Narrowing the path from soft to hard biometrics

Despite the success obtained in face detection and recognition over the last ten years of research, the analysis of facial attributes still represents a trend topic. Keeping the full face recognition aside, exploring the potentials of soft biometric traits, i.e. singular facial traits like the nose, the mouth, the hair and so on, is yet considered a fruitful field of investigation. Being able to infer the identity of an occluded face, e.g. voluntary occluded by sunglasses or accidentally due to environmental factors, can be useful in a wide range of operative fields where user collaboration cannot be considered as an assumption. This especially happens when dealing with forensic scenarios in which is not unusual to have partial face photos or partial fingerprints. In this paper, an unsupervised clustering approach is described. It consists in a neural network model for face attributes recognition based on transfer learning whose goal is grouping faces according to common facial features. Moreover, we use the features collected in each cluster to provide a compact and comprehensive description of the faces belonging to each cluster and deep learning as a mean for task prediction in partially visible faces