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The primordial and primary follicles were increased in the Aged+Res group (p less then 0.05). The Sirt1 was increased and caspase-3 was decreased in the Aged+Res group (p less then 0.05). These results indicate that resveratrol can delay ovarian aging, probably by reducing oxidative damage and increasing Sirt1.Inflammatory bowel disease (IBD) is a common chronic inflammatory gastrointestinal disease. The therapeutic strategies of IBD are limited. IBD mouse models were established by administering 4% dextran sodium sulfate (DSS), which were further treated with Leonurine (7.5, 15, 30 mg/kg). The disease phenotypes, cell apoptosis, inflammation factors and oxidative stress related chemicals were evaluated. In addition, the potential related mechanism was also explored. Consequently, Leonurine ameliorated IBD-associated disease phenotypes and increase colon lengths and inhibited intestinal cell apoptosis in DSS-induced IBD mice. In addition, Leonurine reduced the expression of inflammation factors and oxidative stress level in DSS-induced IBD mice. Finally, Leonurine inhibited TLR4/NF-κB signaling pathway and activated of Nrf2/HO-1 signaling pathway. Leonurine can ameliorate IBD-induced apoptosis, inflammation response and oxidative stress via the activation of Nrf2/HO-1 signaling pathway and suppression of TLR4/ NF-κB pathway.Nucleotide-binding and oligomerization domain (NOD) receptor is a member of inherent immunity recognition receptor family. We investigated the NOD1/Rip2 signalling pathway on carotid arterial remodelling in spontaneously hypertensive rats (SHRs). SHRs were treated with NOD1 agonist (iE-DAP), inhibitor (ML130), or normal saline. We determined the NOD1 and Rip2 expression in carotid artery tissues, serum tumour necrosis factor-α (TNF-α) and monocyte chemotactic protein-1 (MCP-1). The carotid artery remodelling in 16-week SHRs was higher than that of 8-week SHRs and 16-week Wistar-Kyoto (WKY) rats. Expression of NOD1, Rip2, MCP-1 and TNF-α in 16-week SHRs was higher than that of 8-week SHRs and 16-week WKY rats. Blood pressure in iE-DAP-treated SHRs was higher than SHR-C group (no treatment), together with MCP-1, TNF-α, NOD1 and Rip2 expression, as well as carotid artery remodelling. In ML130-treated group, these aspects were completely the opposite. Taken together, inhibition of NOD1/Rip2 signalling pathway could delay the vascular remodelling process.Chronic pancreatitis (CP), a fibroinflammatory disease, is a potential risk factor for pancreatic cancer. This study attempted to identify and analyze the key genes involved in CP development and their association with pancreatic cancer. The GSE41418 dataset was obtained from the Gene Expression Omnibus database. Gene ontology and Kyoto Encyclopedia of Genes and Genomes pathway analyses were performed on common differentially expressed genes. A protein-protein interaction network was constructed by using the STRING database. The expression and prognostic value of hub genes in pancreatic cancer were analyzed by Gene Expression Profiling Interactive Analysis (GEPIA) and UALCAN databases. The results showed that the upregulated genes primarily focused on the cell cycle, DNA replication, and phagosome activity. The PPI network was composed of 184 nodes and 925 edges. The 10 hub genes were screened by CytoHubba, of which CCNB2, CDC6, CDK1 and CKS2 were observed to be differentially expressed in pancreatic cancer with CP, and all of them were detrimental to overall survival and recurrence-free survival of pancreatic cancer. In this study, we employed bioinformatic analysis to determine that CCNB2, CDC6, CDK1 and CKS2 may be key genes in the development of CP and pancreatic cancer.Symptoms of spinal disease frequently accompany altered or damaged spine and vertebral structures resulting from endogenous and exogenous factors. Back braces, therapeutic agents, and surgery remain the main treatments for spinal diseases. However, the efficacy of currently available therapeutic agents is limited due to their side effects, whereas back braces and surgeries are less effective for certain patients. The significant effect of spinal disease on patients' morbidity and mortality emphasizes the necessity to develop novel and more effective therapeutic agents that mitigate the consequences of spinal disease. Accumulating research acknowledges that non-coding RNAs (ncRNAs), including miRNAs, lncRNAs, circRNAs, etc., are involved in the pathogenesis of spinal disease, their pronounced therapeutic potential and significant regulatory functions in spinal diseases. Hence, this review focuses on summarizing the latest advances in studies of ncRNAs in the progression and recovery of spinal diseases, as well as highlighting the collaboration of ncRNA networks in treating spinal disease.The stochastic expression of fewer than 60 clustered protocadherin (cPcdh) isoforms provides diverse identities to individual vertebrate neurons and a molecular basis for self-/nonself-discrimination. cPcdhs form chains mediated by alternating cis and trans interactions between apposed membranes, which has been suggested to signal self-recognition. Such a mechanism requires that cPcdh cis dimers form promiscuously to generate diverse recognition units, and that trans interactions have precise specificity so that isoform mismatches terminate chain growth. However, the extent to which cPcdh interactions fulfill these requirements has not been definitively demonstrated. Here, we report biophysical experiments showing that cPcdh cis interactions are promiscuous, but with preferences favoring formation of heterologous cis dimers. Trans homophilic interactions are remarkably precise, with no evidence for heterophilic interactions between different isoforms. A new C-type cPcdh crystal structure and mutagenesis data help to explain these observations. 8-Cyclopentyl-1,3-dimethylxanthine in vivo Overall, the interaction characteristics we report for cPcdhs help explain their function in neuronal self-/nonself-discrimination.The acylation of sugars, most commonly via acetylation, is a widely used mechanism in bacteria that uses a simple chemical modification to confer useful traits. For structures like lipopolysaccharide, capsule and peptidoglycan, that function outside of the cytoplasm, their acylation during export or post-synthesis requires transport of an activated acyl group across the membrane. In bacteria this function is most commonly linked to a family of integral membrane proteins - acyltransferase-3 (AT3). Numerous studies examining production of diverse extracytoplasmic sugar-containing structures have identified roles for these proteins in O-acylation. Many of the phenotypes conferred by the action of AT3 proteins influence host colonisation and environmental survival, as well as controlling the properties of biotechnologically important polysaccharides and the modification of antibiotics and antitumour drugs by Actinobacteria. Herein we present the first systematic review, to our knowledge, of the functions of bacterial AT3 proteins, revealing an important protein family involved in a plethora of systems of importance to bacterial function that is still relatively poorly understood at the mechanistic level. By defining and comparing this set of functions we draw out common themes in the structure and mechanism of this fascinating family of membrane-bound enzymes, which, due to their role in host colonisation in many pathogens, could offer novel targets for the development of antimicrobials.
Southeast Asia is the second biggest region in the world in terms of the total number of natural disasters since 1900. Therefore, the Association of Southeast Asian Nations (ASEAN) initiated regional challenges toward strengthening regional collaboration for disaster prevention and response since the earthquake of Sumatra in Indonesia occurred in 2004. Moreover, ASEAN Leaders signed "the ASEAN Declaration on One ASEAN, One Response" in 2016. Under these circumstances, ASEAN decided to implement the Project for Strengthening the ASEAN Regional Capacity on Disaster Health Management (ARCH Project).
The objective of the ARCH Project is to strengthen coordination on disaster health management (DHM) for rapid and effective response to disasters occurring in the ASEAN region and to enhance the capacity of each ASEAN Member State (AMS) on DHM. This article aims to overview the outline and its strategy, and review the progress of the project.
ARCH Project is an ASEAN official project supported by Japan's officiability, and Effectiveness, while some improvements in Efficiency are needed.
ARCH Project is the first-ever successful regional cooperation mechanism and standardization of DHM in ASEAN, one of the most disaster-prone regions. It also contributes to the capacity building of AMS. The ARCH Project has a remarkable impact on the resilience and flexible medical response to disasters, although continuous efforts of stakeholders to make this initiative sustainable are necessary.
ARCH Project is the first-ever successful regional cooperation mechanism and standardization of DHM in ASEAN, one of the most disaster-prone regions. It also contributes to the capacity building of AMS. The ARCH Project has a remarkable impact on the resilience and flexible medical response to disasters, although continuous efforts of stakeholders to make this initiative sustainable are necessary.
This paper aims to clarify how the Project for Strengthening the ASEAN Regional Capacity on Disaster Health Management (ARCH Project) strengthened regional collaboration mechanisms on disaster health management (DHM) in ASEAN.
The political process and the relevant documents of the ARCH Project were reviewed.
The ARCH Project established the Regional Coordination Committee as a coordination platform for providing strategic direction to the project and strengthening the regional coordination of DHM. Also, the Project Working Groups and Sub-Working Groups were set up as implementation bodies for the project activities with representatives of ASEAN Member States (AMS). With support from DHM experts of Japan and Thailand, a series of discussions were conducted for the development of a Standard Operating Procedure (SOP) for the Coordination of International Emergency Medical Teams (I-EMTs), regional tools, and collective measures supporting AMS to overcome challenges, and thereby meeting the minimum requirem the RCCDHM was established as one of the mechanisms to operationalize the Plan of Action to implement the ASEAN Leaders' Declaration on DHM.
The contribution of the ARCH Project to strengthen the ASEAN regional capacity in DHM has enhanced the regional coordination platform, with a formalization of RCCDHM as ASEAN's official regional mechanism, and of the on-going integration process of the SOP for EMT coordination into the ASEAN SASOP.
The contribution of the ARCH Project to strengthen the ASEAN regional capacity in DHM has enhanced the regional coordination platform, with a formalization of RCCDHM as ASEAN's official regional mechanism, and of the on-going integration process of the SOP for EMT coordination into the ASEAN SASOP.
The prime aim of Project for Strengthening the ASEAN Regional Capacity on Disaster Health Management (ARCH Project) is to strengthen the disaster health management (DHM) capacity in the context of personal level, Emergency Medical Team (EMT), and the regional collaboration. The ARCH Project was implemented with reference to international trends of DHM and seeks to contribute to the development of global standards.
The project established the Project Working Groups that consisted of representatives of ASEAN Member States (AMS) to develop standard operating procedures (SOP) for international EMT (I-EMT) coordination. Furthermore, it aimed to organize training sessions along with implementation of the regional collaboration drill (RCD) in accordance with I-EMT minimum requirements and in line with coordination standards set by the WHO.
The ARCH Project developed the SOP and common platform for I-EMT coordination, organized training, and conducted RCDs with reference to the WHO's EMT initiative. Furthermore, it also contributed to the development of the EMT Minimum Data Set (MDS), an international standard DHM tool that underwent testing at the RCDs before the WHO endorsement and its utilization in actual disaster response.
