Activation of Ras-ERK pathway by Fgf8 and its downregulation by Sprouty2 for the isthmus organizing activity

In the previous studies, we showed that strong Fgf8 signaling activates the Ras-ERK pathway to induce cerebellum. Here, we show importance of negative regulation of this pathway. 'Prolonged' activation of ERK by misexpression of _Fgf8b_ and dominant-negative _Sprouty2_ (_dnSprouty2_) did not change the fate of the mesencephalic alar plate. Downregulation of ERK activity using a MEK inhibitor, U0126, or by tetracycline dependent Tet-off system after co-expression of _Fgf8b_ and _dnSprouty2_, forced the mesencephalic alar plate to differentiate into cerebellum. We then paid attention to Mkp3. After misexpression of _dnMkp3_ and _Fgf8b_, slight downregulation of ERK activity occurred, which may be due to Sprouty2, and the mesencephalon transformed to the isthmus-like structure. The results indicate that ERK must be once upregulated and then be downregulated for cerebellar differentiation, and that differential ERK activity level established by negative regulators receiving Fgf8 signal may determine regional specificity of mesencephalon and metencephalon

Modular law through GKM theory

The solution of Shareshian-Wachs conjecture by Brosnan-Chow and Guay-Paquet tied the graded chromatic symmetric functions on indifference graphs (or unit interval graphs) and the cohomology of regular semisimple Hessenberg varieties with the dot action. A similar result holds between unicellular LLT polynomials and twins of regular semisimple Hessenberg varieties. A recent result by Abreu-Nigro enabled us to prove these results by showing the modular law for the geometrical objects, and this is indeed done by Precup-Sommers and Kiem-Lee. In this paper, we give elementary and simpler proofs to the modular law through GKM theory.Comment: 17 page, 5 figure

Acute inflammatory response to contrast agent aspiration and its mechanisms in the rat lung.

Objectives/hypothesisContrast agent (CA) aspiration is an established complication of upper gastrointestinal and videofluoroscopic swallow studies. The underlying molecular biological mechanisms of acute response to CA aspiration in the respiratory organs remain unclear. The aims of this study were to elucidate the histological and biological influences of three kinds of CAs on the lung and to clarify the differences in acute responses.Study designAnimal model.MethodsEight-week-old male Sprague Dawley rats were divided into five groups (n = 6 in each group). Three groups underwent tracheal instillation of one of three different CAs: barium (Ba) sulfate, nonionic contrast agents (NICAs), and ionic contrast agents (ICAs). A control group was instilled with saline and a sham group was instilled with air. All animals were euthanized on day 2 after treatment and histological and gene analysis was performed.ResultsNo animal died after CA or control/sham aspiration. Ba caused severe histopathologic changes and more prominent inflammatory cell infiltration in the lungs compared with the two other iodinated contrast agents. Increases in expressions of inflammatory cytokines (tumor necrosis factor [Tnf], interleukin-1β [Il1b], and interferon-γ [Ifng]) were observed in Ba aspiration rats, and upregulation of Il1b was seen in ICA aspiration rats. NICA did not cause obvious histologic changes or expressions of inflammatory cytokines and fibrosis-related genes in the lungs.ConclusionsBa caused significantly more acute lung inflammation in a rodent model than did ioinic and nonionic iodinated CAs. Nonionic contrast did not cause any discernible inflammatory response in the lungs, suggesting that it may be the safest contrast for videofluoroscopic swallow studies.Level of evidenceNA Laryngoscope, 129:1533-1538, 2019

Effect of Interfacial Shear Strength on Mechanical Property of SiC/SiC

In order to quantitatively evaluate mechanical properties of fibers, matrices and their interfaces in fiber reinforced SiC/SiC composites, nano-indentation tests have been carried out. Using the same technique, fiber push-out test was performed. The specimens were analyzed by means of scanning electron microscopy (SEM), before and after indentation tests. From the indentation load vs. displacement relations, the fiber pushed out process has been discussed and the initiation loads of interfacial debonding and those of interfacial sliding were defined and were discussed in comparison with the C/C composites. The load of interfacial debonding initiation was likely to increase in proportion to the fiber circumference. The initiation load of interfacial sliding increased with increment of contact area between fiber and matrix. The relation between bending strength and interfacial shear strength of SiC_/SiC_ is preliminary postulated together with crack initiation and propagation characteristics and microstructural characteristics of the composites

Kinetic Analysis and Prediction of Thermal Decomposition Behavior of Tertiary Pyridine Resin in the Nitrate Form

AbstractThe thermal decomposition behavior of the tertiary pyridine resin, which was used during the nuclide-separation process in the Advanced Optimization by Recycling Instructive Elements (Advanced ORIENT) cycle, was investigated in its nitrate form (TPR-NO3), in order to determine ways of preventing its runaway reaction. A thermal analysis of TPR-NO3 and an analysis of the gases produced during decomposition were employed for the purpose. In addition, the kinetics parameters were evaluated via a kinetic analysis of the empirical thermal data. Finally, the validity of the reaction model was assessed by comparing the thermal behavior predicted by the estimated reaction model with that determined by the results of a gram-scale heating test performed in our previous study. We found that, when TPR-NO3 was heated, first, nitric acid was removed. Subsequently, TPR-NO3 was oxidized by the removed nitric acid. Under the assumption that it took place an autocatalytic oxidation and nth order thermal decomposition in parallel, the thermogravimetric analysis data could be fitted very well using a nonlinear regression model. The thermal behavior of TPR-NO3 could be predicted by the reaction model determined in this study under conditions where the cooling effect owing to evaporation was ignored. In addition, the maximum temperature and time to maximum rate of a runaway reaction predicted using the determined reaction model gave the result on the side of prudence