Post-event Processing Predicts Cortisol Recovery

There is growing evidence that individuals with social anxiety show impaired cortisol recovery after experiencing social evaluative stressors. Yet, little is known regarding the cognitive processes underlying such impaired cortisol recovery. The present study examined the effect of post-event processing (PEP), referred to as repetitive thinking about social situations, on cortisol recovery following a social stressor. Forty-two non-clinical university students (23 women, 19 men, mean age = 22.0 ± 2.0 years) completed the Trier Social Stress Test (TSST), followed by a thought sampling procedure which assessed the frequency of PEP reflecting the TSST. A growth curve model showed PEP and social anxiety interactively predicted cortisol recovery. In particular, PEP predicted impaired cortisol recovery in those with low levels of social anxiety but not in those with high levels of social anxiety, which contradicted the initial hypothesis. These findings suggest that PEP is differentially associated with cortisol recovery depending on levels of social anxiety. The possible mechanisms underlying these findings were discussed in terms of protective inhibition framework

Long-term Evolution of a Supernova Remnant Hosting a Double Neutron Star Binary

An ultra-stripped supernova (USSN) is a type of core-collapse supernova explosion proposed to be a candidate formation site of a double neutron star (DNS) binary. We investigate the dynamical evolution of an ultra-stripped supernova remnant (USSNR), which should host a DNS at its center. By accounting for the mass-loss history of the progenitor binary using a model developed by a previous study, we construct the large-scale structure of the circumstellar medium (CSM) up to a radius ∼100 pc, and simulate the explosion and subsequent evolution of a USSN surrounded by such a CSM environment. We find that the CSM encompasses an extended region characterized by a hot plasma with a temperature ∼10⁸ K located around the termination shock of the wind from the progenitor binary (∼10 pc), and the USSNR blast wave is drastically weakened while penetrating through this hot plasma. Radio continuum emission from a young USSNR is sufficiently bright to be detectable if it inhabits our galaxy but faint compared to the observed Galactic supernova remnants (SNRs), and thereafter declines in luminosity through adiabatic cooling. Within our parameter space, USSNRs typically exhibit a low radio luminosity and surface brightness compared to the known Galactic SNRs. Due to the small event rate of USSNe and their relatively short observable life span, we calculate that USSNRs account for only ∼0.1%–1% of the total SNR population. This is consistent with the fact that no SNR hosting a DNS binary has been discovered in the Milky Way so far

TAT-dextran-mediated mitochondrial transfer enhances recovery from models of reperfusion injury in cultured cardiomyocytes

Acute myocardial infarction is a leading cause of death among single organ diseases. Despite successful reperfusion therapy, ischaemia reperfusion injury (IRI) can induce oxidative stress (OS), cardiomyocyte apoptosis, autophagy and release of inflammatory cytokines, resulting in increased infarct size. In IRI, mitochondrial dysfunction is a key factor, which involves the production of reactive oxygen species, activation of inflammatory signalling cascades or innate immune responses, and apoptosis. Therefore, intercellular mitochondrial transfer could be considered as a promising treatment strategy for ischaemic heart disease. However, low transfer efficiency is a challenge in clinical settings. We previously reported uptake of isolated exogenous mitochondria into cultured cells through co-incubation, mediated by macropinocytosis. Here, we report the use of transactivator of transcription dextran complexes (TAT-dextran) to enhance cellular uptake of exogenous mitochondria and improve the protective effect of mitochondrial replenishment in neonatal rat cardiomyocytes (NRCMs) against OS. TAT-dextran-modified mitochondria (TAT-Mito) showed a significantly higher level of cellular uptake. Mitochondrial transfer into NRCMs resulted in anti-apoptotic capability and prevented the suppression of oxidative phosphorylation in mitochondria after OS. Furthermore, TAT-Mito significantly reduced the apoptotic rates of cardiomyocytes after OS, compared to simple mitochondrial transfer. These results indicate the potential of mitochondrial replenishment therapy in OS-induced myocardial IRI

Mineralocorticoid receptor stimulation induces urinary storage dysfunction via upregulation of epithelial sodium channel expression in the rat urinary bladder epithelium

AbstractWe aimed to evaluate mineralocorticoid receptor (MR) expression in rat bladder and the physiological role of the MR-epithelial sodium channel (ENaC) pathway in controlling bladder function in 10–12-week-old, male Sprague–Dawley rats. First, we examined the mRNA expression of MR and localization of MR and ENaC-α proteins in the urinary bladder. MR mRNA expression was observed in untreated-rat urinary bladders, and MR and ENaC-α proteins were localized in the epithelium. Next, rats were treated with vehicle (controls) or fludrocortisone (an MR agonist) for 3 days, and ENaC-α protein expression levels and bladder function were evaluated on day 4. ENaC-α protein expression was significantly higher in fludrocortisone-treated rats than in controls. In addition, cystometry was performed during intravesical infusion of saline and amiloride (an ENaC inhibitor). While intercontraction intervals (ICIs) during saline infusion were significantly shorter in the fludrocortisone group than in the controls, infusion of amiloride normalized the ICIs in the fludrocortisone group. However, no intra- or inter-group differences in maximum intravesical pressure were observed. Taken together, MR protein is localized in the rat urinary bladder epithelium, and may regulate ENaC expression and bladder afferent input. The MR-ENaC pathway may be a therapeutic target for ameliorating storage symptoms

Transcription factor scleraxis vitally contributes to progenitor lineage direction in wound healing of adult tendon in mice

Tendon is a dense connective tissue that transmits high mechanical forces from skeletal muscle to bone. The transcription factor scleraxis (Scx) is a highly specific marker of both precursor and mature tendon cells (tenocytes). Mice lacking scx exhibit a specific and virtually complete loss of tendons during development. However, the functional contribution of Scx to wound healing in adult tendon has not yet been fully characterized. Here, using ScxGFP-tracking and loss-of-function systems, we show in an adult mouse model of Achilles tendon injury that paratenon cells, representing a stem cell antigen-1 (Sca-1)–positive and Scx-negative progenitor subpopulation, display Scx induction, migrate to the wound site, and produce extracellular matrix (ECM) to bridge the defect, whereas resident tenocytes exhibit a delayed response. Scx induction in the progenitors is initiated by transforming growth factor β (TGF-β) signaling. scx-deficient mice had migration of Sca-1–positive progenitor cell to the lesion site but impaired ECM assembly to bridge the defect. Mechanistically, scx-null progenitors displayed higher chondrogenic potential with up-regulation of SRY-box 9 (Sox9) coactivator PPAR-γ coactivator-1α (PGC-1α) in vitro, and knock-in analysis revealed that forced expression of full-length scx significantly inhibited Sox9 expression. Accordingly, scx-null wounds formed cartilage-like tissues that developed ectopic ossification. Our findings indicate a critical role of Scx in a progenitor-cell lineage in wound healing of adult mouse tendon. These progenitor cells could represent targets in strategies to facilitate tendon repair. We propose that this lineage-regulatory mechanism in tissue progenitors could apply to a broader set of tissues or biological systems in the body

Relationships between Skeletal Muscle Mass and Strength, and Jaw-Opening Force in Japanese Community-Dwelling Elderly

【目的】要介護高齢者の一要因である骨格筋量の低下や筋力低下は，嚥下関連筋にも影響を及ぼし，摂食嚥下機能を低下させることが疑われる．本研究では，地域在宅高齢者の骨格筋量・骨格筋力と，口腔機能・摂食嚥下機能との関連性を明らかにすることを目的として，調査を実施した． 【対象と方法】対象は，65歳以上の地域在宅高齢者24名（男性3名，女性21名，平均年齢77.0±5.0 歳）とした．骨格筋量は骨格筋指数（以下，SMI）を，骨格筋力は握力を評価項目として用いた．口腔機能・摂食嚥下機能は開口力・オーラルディアドコキネシス（以下，OD）/ タ/ と/ カ/・RSST・MWST を測定し，骨格筋量と骨格筋力との関連性を検討した．各項目の相関関係をスピアマンの順位相関係数にて解析した．その後，有意な関連のあった項目に年齢，性別を加え，重回帰分析（ステップワイズ法）を行った．さらに，握力の値から，筋力健常群と筋力低下群（男性＜ 26 kg，女性＜ 18 kg）の2群に分類し，口腔機能・摂食嚥下機能の各項目について比較した．2群間比較には，マン・ホイットニーのU 検定を用いて統計解析した． 【結果と考察】SMI と開口力，握力と開口力・OD / タ/ に有意な相関関係が認められた（r＝0.578，p＝0.003；r＝0.640，p＝0.001；r＝0.447，p＝0.029）．重回帰分析の結果，開口力に影響を与える因子としてSMI が挙げられた．また，筋力低下群の開口力は，筋力健常群よりも有意に低い値を示した（p＝0.011）．全身の骨格筋量，骨格筋力の低下は，開口力やOD / タ/ の低下に関連する可能性が考えられた． 【結論】地域在宅高齢者の骨格筋量と骨格筋力は，開口力や舌運動機能に関連する可能性が示唆された．Skeletal muscle mass decreasing and muscle weakness can cause long-term care needs for elderly people. The relationship between skeletal muscle status and muscles relevant to oral function has been little reported. Therefore, the aim of the present study was to survey skeletal muscle status, oral function, and the relationship between the two in community-dwelling elderly people. Twenty-four community-dwelling elderly from two elderly associations in N city, T prefecture enrolled in the present survey (3 males, 21 females; mean age, 77.0±5.0 years). Skeletal muscle index (SMI) was used to assess skeletal muscle mass, grasping power to assess skeletal muscle strength. Oral function was evaluated in terms of jaw-opening force, diadochokinesis, the repetitive saliva swallowing test (RSST), and the modified water swallowing test (MWST). Correlations between parameters were analyzed using Spearman’s correlation coefficient. Consequently stepwise regression analysis was performed with jaw-opening force as objective variable and SMI, grasping force, age and sex as explanatory variables. The subjects were divided into two groups according to standards for grasping force: healthy and muscle weakness (male: ＜26 kgw; female: ＜18 kgw). Parameters were statistically compared between the two groups using the Mann-Whitney U test. There were statistical relationships between SMI and jaw-opening force (r＝0.578, p＝0.003), grasping force and jaw-opening force (r＝0.640, p＝0.001), grasping force and the number of diadochokinetic movement of /ta/ (r＝0.447, p＝0.029). As a result of stepwise regression analysis, SMI was a factor that affects jaw-opening force. In the muscle weakness group, jaw-opening force was less than the value in the healthy group ( p＝ 0.011). It is reasonable that an overall decrease in muscle mass would evoke decreases in muscle strength in both the extremities and the jaw-opening muscles. We confirmed significant relationships between skeletal muscle mass, skeletal muscle strength, and oral function (i.e., jaw-opening force and tongue skilled movement) in Japanese community-dwelling elderly

Special Relativistic Simulations of Magnetically-dominated Jets in Collapsing Massive Stars

We perform a series of two-dimensional magnetohydrodynamic core-collapse simulations of rapidly rotating and strongly magnetized massive stars. To study the properties of magnetic explosions for a longer time stretch of postbounce evolution, we develop a new code under the framework of special relativity including a realistic equation of state with a multiflavor neutrino leakage scheme. Our results show the generation of the magnetically-dominated jets in the two ways. One is launched just after the core-bounce in a prompt way and another is launched at $\sim 100$ ms after the stall of the prompt shock. We find that the shock-revival occurs when the magnetic pressure becomes strong, due to the field wrapping, enough to overwhelm the ram pressure of the accreting matter. The critical toroidal magnetic fields for the magnetic shock-revival are found to be universal of $\sim 10^{15}\mathrm{G}$ behind the jets. We point out that the time difference before the shock-revival has a strong correlation with the explosions energies. Our results suggest that the magnetically dominated jets are accompanied by the formation of the magnetars. Since the jets are mildly relativistic, we speculate that they might be the origin of some observed X-ray flashes.Comment: 50 pages, 14 figures, Accepted to ApJ, A paper with high-resolution figures available at http://www-utap.phys.s.u-tokyo.ac.jp/~takiwaki/res/index-j.htm