Built heritage vulnerability: synergies between the Universities of Naples and Tokyo

The occurrence of natural disasters and their extraordinary impact on built heritage are the foundations of a research synergy started since 2008, between the Recovery and Maintenance Laboratory, University of Naples Federico II, and the Matsumura and Fujita Laboratory, Tokyo University. Broadening the idea of vulnerability to the relationship between buildings and environment, several Unesco sites are assumed as case studies. The scientific synergy flows into the promotion of a learning network among the actors of local management processes, rethinking procedures and priorities for mitigating the vulnerability of settlements. The originality of the outcomes can be traced in creating a dedicated community, able to acquire competence by doing. The learning network brings into play an active approach towards site's management, rethinking the dynamics of interaction between people and places, through the recovery of  local sedimented cultures

Carbon-Ion Irradiation Suppresses Migration and Invasiveness of Human Pancreatic Carcinoma Cells MIAPaCa-2 via Rac1 and RhoA Degradation

PurposeTo investigate the mechanisms underlying the inhibition of cancer cell migration and invasion by carbon (C)-ion irradiation.Methods and MaterialsHuman pancreatic cancer cells MIAPaCa-2, AsPC-1, and BxPC-3 were treated by x-ray (4 Gy) or C-ion (0.5, 1, 2, or 4 Gy) irradiation, and their migration and invasion were assessed 2 days later. The levels of guanosine triphosphate (GTP)-bound Rac1 and RhoA were determined by the active GTPase pull-down assay with or without a proteasome inhibitor, and the binding of E3 ubiquitin ligase to GTP-bound Rac1 was examined by immunoprecipitation.ResultsCarbon-ion irradiation reduced the levels of GTP-bound Rac1 and RhoA, 2 major regulators of cell motility, in MIAPaCa-2 cells and GTP-bound Rac1 in AsPC-1 and BxPC-3 cells. Proteasome inhibition reversed the effect, indicating that C-ion irradiation induced Rac1 and RhoA degradation via the ubiquitin (Ub)-proteasome pathway. E3 Ub ligase X-linked inhibitor of apoptosis protein (XIAP), which directly targets Rac1, was selectively induced in C-ion–irradiated MIAPaCa-2 cells and coprecipitated with GTP-bound Rac1 in C-ion–irradiated cells, which was associated with Rac1 ubiquitination. Cell migration and invasion reduced by C-ion radiation were restored by short interfering RNA–mediated XIAP knockdown, indicating that XIAP is involved in C-ion–induced inhibition of cell motility.ConclusionIn contrast to x-ray irradiation, C-ion treatment inhibited the activity of Rac1 and RhoA in MIAPaCa-2 cells and Rac1 in AsPC-1 and BxPC-3 cells via Ub-mediated proteasomal degradation, thereby blocking the motility of these pancreatic cancer cells

Changes in acetyl-CoA mediate Sik3-induced maturation of chondrocytes in endochondral bone formation

The maturation of chondrocytes is strictly regulated for proper endochondral bone formation. Although recent studies have revealed that intracellular metabolic processes regulate the proliferation and differentiation of cells, little is known about how changes in metabolite levels regulate chondrocyte maturation. To identify the metabolites which regulate chondrocyte maturation, we performed a metabolome analysis on chondrocytes of Sik3 knockout mice, in which chondrocyte maturation is delayed. Among the metabolites, acetyl-CoA was decreased in this model. Immunohistochemical analysis of the Sik3 knockout chondrocytes indicated that the expression levels of phospho-pyruvate dehydrogenase (phospho-Pdh), an inactivated form of Pdh, which is an enzyme that converts pyruvate to acetyl-CoA, and of Pdh kinase 4 (Pdk4), which phosphorylates Pdh, were increased. Inhibition of Pdh by treatment with CPI613 delayed chondrocyte maturation in metatarsal primordial cartilage in organ culture. These results collectively suggest that decreasing the acetyl-CoA level is a cause and not result of the delayed chondrocyte maturation. Sik3 appears to increase the acetyl-CoA level by decreasing the expression level of Pdk4. Blocking ATP synthesis in the TCA cycle by treatment with rotenone also delayed chondrocyte maturation in metatarsal primordial cartilage in organ culture, suggesting the possibility that depriving acetyl-CoA as a substrate for the TCA cycle is responsible for the delayed maturation. Our finding of acetyl-CoA as a regulator of chondrocyte maturation could contribute to understanding the regulatory mechanisms controlling endochondral bone formation by metabolites

Autopsy Case of Bilateral Optic Nerve Aplasia with Microphthalmia: Neural Retina Formation Is Required for the Coordinated Development of Ocular Tissues

Human congenital anomalies provide information that contributes to the understanding of developmental mechanisms. Here we report bilateral optic nerve aplasia (ONA) with microphthalmia in the autopsy of the cadaver of a 70-year-old Japanese female. The gross anatomical inspection of the brain showed a cotton thread-like cord in the presumed location of the optic nerve tract or chiasm. Histologically, no neural retina, optic nerve bundle or retinal central vessels were formed in the eye globe, and the retinal pigment cells formed rosettes. The cornea, iris, and lens were also histologically abnormal. Immunohistochemically, no retinal cells expressed beta III tubulin, and Pax6-immunoreactive cells were present in the ciliary non-pigmented epithelial cells. This case of ONA could be attributed to the agenesis of retinal projection neurons as a sequel to the disruption of neural retina development. The neural retina formation would coordinate the proper development of ocular tissues

TNFRSF1B A1466G genotype is predictive of clinical efficacy after treatment with a definitive 5-fluorouracil/cisplatin-based chemoradiotherapy in Japanese patients with esophageal squamous cell carcinoma

<p>Abstract</p> <p>Background</p> <p>Currently definitive 5-fluorouracil (5-FU)/cisplatin (CDDP) -based chemotherapy is recognized as one of the most promising treatments for esophageal cancer. A series of studies performed found genetic polymorphisms and the plasma concentration of 5-FU to be predictive of acute severe toxicities and clinical response. Genetic polymorphisms of <it>tumor necrosis factor (TNF) -α </it>and its surface receptors, <it>TNFRSF1A </it>and <it>TNFRSF1B </it>have been examined in terms of susceptibility to various cancers. In this study, genetic polymorphisms of <it>TNFRSF1B </it>gene were evaluated Japanese esophageal squamous cell carcinoma (ESCC) patients treated with the definitive 5-FU/CDDP-based chemoradiotherapy and their predictive values of prognosis or severe acute toxicities were assessed.</p> <p>Methods</p> <p>Forty-six patients with ESCC were treated with the definitive 5-FU/CDDP-based chemoradiotherapy, one course of which consisted of the continuous infusion of 5-FU for days 1-5 and 8-12, the infusion of CDDP on days 1 and 8, and the radiation at 2 Gy/day on days 1-5, 8-12, and 15-19, with a second course repeated after 2-week interval. Genetic polymorphisms of a TNF-α receptor <it>TNFRSF1B </it>gene were determined by a TaqMan^®MGB probe-based polymerase chain reaction.</p> <p>Results</p> <p>The genotype of <it>TNFSR1B </it>A1466G, but not M196R/T587G or C1493T, was found to be predictive of clinical response, i.e., a complete response or not (p = 0.040). Clinical response was predicted by tumor size (p = 0,002), lymph node metastasis (p = 0.007), distant metastasis (p = 0.001) and disease stage (p < 0.001), but <it>TNFRSF1B </it>A1466G genotype was independent of these factors.</p> <p>Conclusions</p> <p>Genetic polymorphism of <it>TNFRSF1B </it>A1466G was found to be predictive response in Japanese ESCC patients with a definitive 5-FU/CDDP-based chemoradiotherapy. Further clinical investigation with a large number of patients or experiments in vitro should be performed to assess the predictive value of <it>TNFRSF1B </it>A1466G genotype after chemoradiotherapy.</p

Characterization of Urate Transport System in JAR and JEG-3 Cells, Human Trophoblast-derived Cell Lines

Urate (uric acid) is the major inert end product of purine metabolism in humans. Since it is water soluble, it requires a membranous protein called transporter for its permeation across the plasma membrane. Increased blood urate level is often seen in preeclampsia, but its precise mechanism remains unknown. Syncytiotrophoblasts function as a barrier between maternal blood and fetal one so called “blood-placental barrier”. So far, the expression of several urate transporters was identified in these cells, but it is still unclear about their contribution to urate handling in blood-placental barrier. In this study, we investigated the expression of urate transporters and the properties of ［14C］urate transport in both JAR and JEG-3, human choriocarcinoma cells as a model of human placenta. Conventional PCR analysis revealed that both JAR and JEG-3 cells express strongly breast cancer resistance protein (BCRP/ABCG2) mRNA. Uptake of ［14C］urate by these cells is time-dependent with Na＋- and Cl－-independent and voltage-insensitive manner and is not inhibited by benzbromarone, a representative renal urate transport inhibitor. Then, we focused on BCRP which shows strong mRNA expression and found that these cells have urate efflux property that is sensitive to fumitremorgin C (FMC), a BCRP inhibitor. These results suggest that BCRP is one of the important components for urate handling in human placenta in pathophysiological condition such as preeclampsia

Microfibril-associated glycoprotein-1 controls human ciliary zonule development in vitro.

The ciliary zonule in the eye, also known as Zinn\u27s zonule, is composed of oxytalan fibers, which are bundles of microfibrils consisting mainly of fibrillin-1. However, it is still unclear which of the microfibril-associated molecules present in the ciliary zonule controls oxytalan fibers. Microfibril-associated glycoprotein-1 (MAGP-1) is the only microfibril-associated molecule identified in the human ciliary zonule. In the present study, we used siRNA against MAGP-1 in cultures of human non-pigmented ciliary epithelial cells to examine the extracellular deposition and appearance of fibrillin-1 employing Western blotting and immunofluorescence. MAGP-1 suppression led to a reduction of fibrillin-1 deposition. Immunofluorescence also confirmed that RNAi-mediated down-regulation of MAGP-1 led to suppression of fiber development. These results suggest that MAGP-1 plays a crucial role in the extracellular deposition of fibrillin-1 during formation of the human ciliary zonule.福岡歯科大学2015年

Urinary Retention as an Initial Symptom of Acute Meningo-Encephalo-Radiculitis in Epstein-Barr Virus Infection

A 48-year-old man presented with urinary retention followed by disturbance of consciousness, areflexia, ophthalmoplegia, muscle weakness, and atrophy. Epstein-Barr virus DNA by PCR was positive in his cerebrospinal fluid. The cerebrospinal fluid revealed elevated myelin basic protein and an oligoclonal band. Magnetic resonance imaging showed high signal intensity in the pons, basal ganglia, and cerebral white matter on T2-weighted imaging and fluid-attenuated inversion recovery imaging. His consciousness, ophthalmoplegia, and muscle weakness almost full recovered. In this patient, the inflammation is thought to have begun as sacral radiculitis, and then extended to encephalitis, and brachial and lumbar radiculoneuritis