Cooking traces on Copper Age pottery from central Italy: An integrated approach comprising use wear analysis, spectroscopic analysis and experimental archaeology

This contribution discusses the results of an integrated approach of use wear analysis, spectroscopic analysis and experimental archaeology, applied for the investigation of the actual use of selected ceramic vessels, taken from domestic Copper Age contexts in the modern Rome area. This study is based upon the consideration of a vessel as a tool, used during everyday life and thus reflecting human activities and social behaviours. To this end, the paper here presented proposes an interpretation of the actual use activities which led to the modification of prehistoric vessels. The methodology of this study integrates the traditional approach to ceramic use wear studies, based on experimental and ethnoarchaeological studies, with principles of tribology, along with the application of a dedicated experimental framework which enabled the development of a detailed collection of comparative use wear. Moreover, the application of spectroscopic analysis provided preliminary data related to the charred encrustations found inside the archaeological specimens. These data, when combined with use wear, palaeobotanical remains and archaeological preserved structures, aided interpretation of the archaeological ceramic vessels as cooking pots

Protein Disulfide Isomerase Regulates Endoplasmic Reticulum Stress and the Apoptotic Process during Prion Infection and PrP Mutant-Induced Cytotoxicity

<div><h3>Background</h3><p>Protein disulfide isomerase (PDI), is sorted to be enzymatic chaperone for reconstructing misfolded protein in endoplasmic reticulum lumen. Recently, PDI has been identified as a link between misfolded protein and neuron apoptosis. However, the potential for PDI to be involved in the pathogenesis of prion disease remains unknown. In this study, we propose that PDI may function as a pleiotropic regulator in the cytotoxicity induced by mutated prion proteins and in the pathogenesis of prion diseases.</p> <h3>Methodology/Principal Findings</h3><p>To elucidate potential alterations of PDI in prion diseases, the levels of PDI and relevant apoptotic executors in 263K infected hamsters brain tissues were evaluated with the use of Western blots. Abnormal upregulation of PDI, Grp78 and Grp58 was detected. Dynamic assays of PDI alteration identified that the upregulation of PDI started at the early stage and persistently increased till later stage. Obvious increases of PDI and Grp78 levels were also observed in cultured cells transiently expressing PrP mutants, PrP-KDEL or PrP-PG15, accompanied by significant cytotoxicities. Excessive expression of PDI partially eased ER stress and cell apoptosis caused by accumulation of PrP-KDEL, but had less effect on cytotoxicity induced by PrP-PG15. Knockdown of endogenous PDI significantly amended cytotoxicity of PrP-PG15, but had little influence on that of PrP-KDEL. A series of membrane potential assays found that apoptosis induced by misfolded PrP proteins could be regulated by PDI via mitochondrial dysfunction. Moreover, biotin-switch assays demonstrated active <em>S</em>-nitrosylted modifications of PDI (SNO-PDI) both in the brains of scrapie-infected rodents and in the cells with misfolded PrP proteins.</p> <h3>Conclusion/Significance</h3><p>Current data in this study highlight that PDI and its relevant executors may function as a pleiotropic regulator in the processes of different misfolded PrP proteins and at different stages during prion infection. SNO-PDI may feed as an accomplice for PDI apoptosis.</p> </div

The N-Terminal, Polybasic Region Is Critical for Prion Protein Neuroprotective Activity

Several lines of evidence suggest that the normal form of the prion protein, PrPC, exerts a neuroprotective activity against cellular stress or toxicity. One of the clearest examples of such activity is the ability of wild-type PrPC to suppress the spontaneous neurodegenerative phenotype of transgenic mice expressing a deleted form of PrP (Δ32–134, called F35). To define domains of PrP involved in its neuroprotective activity, we have analyzed the ability of several deletion mutants of PrP (Δ23–31, Δ23–111, and Δ23–134) to rescue the phenotype of Tg(F35) mice. Surprisingly, all of these mutants displayed greatly diminished rescue activity, although Δ23–31 PrP partially suppressed neuronal loss when expressed at very high levels. Our results pinpoint the N-terminal, polybasic domain as a critical determinant of PrPC neuroprotective activity, and suggest that identification of molecules interacting with this region will provide important clues regarding the normal function of the protein. Small molecule ligands targeting this region may also represent useful therapeutic agents for treatment of prion diseases

Identificazione di difetti con il Metodo degli Elementi di Contorno

Dottorato in Ingegneria delle Strutture, IX Ciclo. Università di Napoli Federico I

Cooking traces on Copper Age pottery from central Italy: An integrated approach comprising use wear analysis, spectroscopic analysis and experimental archaeology

This contribution discusses the results of an integrated approach of use wear analysis, spectroscopic analysis and experimental archaeology, applied for the investigation of the actual use of selected ceramic vessels, taken from domestic Copper Age contexts in the modern Rome area. This study is based upon the consideration of a vessel as a tool, used during everyday life and thus reflecting human activities and social behaviours. To this end, the paper here presented proposes an interpretation of the actual use activities which led to the modification of prehistoric vessels. The methodology of this study integrates the traditional approach to ceramic use wear studies, based on experimental and ethnoarchaeological studies, with principles of tribology, along with the application of a dedicated experimental framework which enabled the development of a detailed collection of comparative use wear. Moreover, the application of spectroscopic analysis provided preliminary data related to the charred encrustations found inside the archaeological specimens. These data, when combined with use wear, palaeobotanical remains and archaeological preserved structures, aided interpretation of the archaeological ceramic vessels as cooking pots