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C1q tumor necrosis factor-related peptide 8 (CTRP8) is the least studied member of the C1Q-TNF-related peptide family. Relacorilant We identified CTRP8 as a ligand of the G protein-coupled receptor relaxin family peptide receptor 1 (RXFP1) in glioblastoma multiforme (GBM). The CTRP8-RXFP1 ligand-receptor system protects human GBM cells against the DNA-alkylating damage-inducing temozolomide (TMZ), the drug of choice for the treatment of patients with GBM. The DNA protective role of CTRP8 was dependent on a functional RXFP1-STAT3 signaling cascade and targeted the monofunctional glycosylase N-methylpurine DNA glycosylase (MPG) for more efficient base excision repair of TMZ-induced DNA-damaged sites. CTRP8 also improved the survival of GBM cells by upregulating anti-apoptotic BCl-2 and BCL-XL. Here, we have identified Janus-activated kinase 3 (JAK3) as a novel member of a novel CTRP8-RXFP1-JAK3-STAT3 signaling cascade that caused an increase in cellular protein content and activity of the small Rho GTPase Cdc42. This is associated with significant F-actin remodeling and increased GBM motility. Cdc42 was critically important for the upregulation of the actin nucleation complex N-Wiskott-Aldrich syndrome protein/Arp3/4 and actin elongation factor profilin-1. The activation of the RXFP1-JAK3-STAT3-Cdc42 axis by both RXFP1 agonists, CTRP8 and relaxin-2, caused extensive filopodia formation. This coincided with enhanced activity of ezrin, a key factor in tethering F-actin to the plasma membrane, and inhibition of the actin filament severing activity of cofilin. The F-actin remodeling and pro-migratory activities promoted by the novel RXFP1-JAK3-STAT3-Cdc42 axis were blocked by JAK3 inhibitor tofacitinib and STAT3 inhibitor STAT3 inhibitor VI. This provides a new rationale for the design of JAK3 and STAT3 inhibitors with better brain permeability for clinical treatment of the pervasive brain invasiveness of GBM.Mucopolysaccharidosis type II (MPS II) is an X-linked inherited disease caused by pathogenic variants in the IDS gene, leading to deficiency of the lysosomal enzyme iduronate-2-sulfatase and consequent widespread storage of glycosaminoglycans, leading to several clinical consequences, with progressive manifestations which most times includes cognitive decline. MPS II has wide allelic and clinical heterogeneity and a complex genotype-phenotype correlation. We evaluated data from 501 Brazilian patients diagnosed with MPS II from 1982 to 2020. We genotyped 280 of these patients (55.9%), which were assigned to 206 different families. Point mutations were present in 70% of our patients, being missense variants the most frequent. We correlated the IDS pathogenic variants identified with the phenotype (neuronophatic or non-neuronopathic). Except for two half-brothers, there was no discordance in the genotype-phenotype correlation among family members, nor among MPS II patients from different families with the same single base-pair substitution variant. Mothers were carriers in 82.0% of the cases. This comprehensive study of the molecular profile of the MPS II cases in Brazil sheds light on the genotype-phenotype correlation and helps the better understanding of the disease and the prediction of its clinical course, enabling the provision of a more refined genetic counseling to the affected families.
This article presents the clinical trial protocol for a phase I open label dose-escalation study to evaluate the tolerability, safety and immunological efficacy of sub-urothelial durvalumab injection in adults with muscle-invasive or high-risk non-muscle-invasive bladder cancer (NMIBC), the SUB-urothelial DUrvalumab injection-1 study (SUBDUE-1). The primary objectives of this study are to assess the safety of sub-urothelial injection of durvalumab using patient reported outcome measures and observed local or systemic adverse events. The secondary objectives are to examine the local immunological efficacy of sub-urothelial administration of durvalumab.
The SUBDUE-1 trial will include adult patients with either high-risk NMIBC or MIBC, who are scheduled for radical cystectomy or who have refused or are unsuitable for systemic neoadjuvant chemotherapy. Three fixed total dose levels of durvalumab (25, 75, 150mg) will be studied to identify a dose suitable to be taken forward into phase II trials. The primary sociated with a reduced rate of immunological side-effects and lower costs when compared to systemic delivery.
If proven safe and effective, this novel strategy comprising sub-urothelial durvalumab injections aimed at promoting an anti-tumour immune reaction, will provide additional treatment options for reducing tumour recurrence and progression in treatment-naïve patients with high-risk NMIBC or in patients with bacille Calmette-Guérin-refractory NMIBC. Local administration of durvalumab may be associated with a reduced rate of immunological side-effects and lower costs when compared to systemic delivery.This research attempted to elucidate the molecular components are involved in the pathogenesis of recurrent implantation failure (RIF). We initially identified that 386 mRNAs, 144 miRNAs and 2548 circRNAs were differentially expressed (DE) in RIF and then investigated the genetic cause of the observed abnormal expression by constructing a circRNA-miRNA-mRNA network considering the competing endogenous RNA theory. We further analysed the upstream transcription factors and related kinases of DEmRNAs (DEMs) and demonstrated that SUZ12, AR, TP63, NANOG, and TCF3 were the top five TFs binding to these DEMs. Besides, protein-protein interaction analysis disclosed that ACTB, CXCL10, PTGS2, CXCL12, GNG4, AGT, CXCL11, SST, PENK, and FOXM1 were the top 10 hub genes in the acquired network. Finally, we performed the functional enrichment analysis and found that arrhythmogenic right ventricular cardiomyopathy (ARVC), hypertrophic cardiomyopathy (HCM), pathways in cancer, TNF signalling pathway and steroid hormone biosynthesis were the potentially disrupted pathways in RIF patients. Optimistically, our findings may deepen our apprehensions about the underlying molecular and biological causes of RIF and provide vital clues for future laboratory and clinical experiments that will ultimately bring a better outcome for patients with RIF.Community treatment orders (CTOs) require individuals with a mental illness to accept treatment from mental health services. CTO legislation in South Australia states that treatment and care should be recovery-focused, although justification for use is predominantly risk-based, and care often coercive. Although CTOs are contested, individuals, families, and clinicians frequently engage in care planning within this context. This paper examines how the concepts of risk and risk management impact care planning from the perspectives of individuals on CTOs, their families, and clinicians. Ethnographic methods of observation and interview provided a detailed account of the perspectives of each group over an 18-month period from two community mental health teams in South Australia. Findings show that care planning occurred within a culture of practice dominated by risk. Risk, however, was understood differently by each participant group, with the dominant narrative informed by biogenetic understandings of mental illness. This dominance impacted on the positioning of participant groups in care planning, focus of care contacts, and care options available. To improve care experiences and outcomes for individuals on CTOs, narrow conceptualizations of risk and recovery need to broaden to include an understanding of personal and social adversities individuals face. A broader understanding should reposition participants in the care planning context and rebalance care discussions, from a focus on clinical recovery to recovering citizenship.The quest to determine the function of a protein can represent a profound challenge. Although this task is the mandate of countless research groups, a general framework for how it can be approached is conspicuously lacking. Moreover, even expectations for when the function of a protein can be considered to be 'known' are not well defined. In this review, we begin by introducing concepts pertinent to the challenge of protein function assignments. We then propose a framework for inferring a protein's function from four data categories 'inheritance', 'distribution', 'interactions' and 'phenotypes' (IDIP). We document that the functions of proteins emerge at the intersection of inferences drawn from these data categories and emphasise the benefit of considering them in an evolutionary context. We then apply this approach to the cellular prion protein (PrPC ), well known for its central role in prion diseases, whose function continues to be considered elusive by many investigators. We document that available data converge on the conclusion that the function of the prion protein is to control a critical post-translational modification of the neural cell adhesion molecule in the context of epithelial-to-mesenchymal transition and related plasticity programmes. Finally, we argue that this proposed function of PrPC has already passed the test of time and is concordant with the IDIP framework in a way that other functions considered for this protein fail to achieve. We anticipate that the IDIP framework and the concepts analysed herein will aid the investigation of other proteins whose primary functional assignments have thus far been intractable.Porphyrin nanotapes (Por NTs) are promising structures for their use as molecular wires thanks to a high degree of π-conjugation, low HOMO-LUMO gaps, and exceptional conductance. Such structures have been prepared in solution, but their on-surface synthesis remains unreported. Here, meso-meso triply fused Por NTs have been prepared through a two-step synthesis on Au(111). The diradical character of the on-surface formed building block PorA2 , a phenalenyl π-extended ZnII Por, facilitates intermolecular homocoupling and allows for the formation of laterally π-extended tapes. The structural and electronic properties of individual Por NTs are addressed, both on Au(111) and on a thin insulating NaCl layer, by high-resolution scanning probe microscopy/spectroscopy complemented by DFT calculations. These Por NTs carry one unpaired electron at each end, which leads to magnetic end states. Our study provides a versatile route towards Por NTs and the atomic-scale characterization of such tapes.This study aimed to explore the relationship between stressful life events, coping styles, and schizophrenia relapse. The sample for this study included 248 patients with schizophrenia from a psychiatric outpatient clinic in Hunan Province, China. Stressful life events, occurrence of schizophrenia relapse, and coping style were assessed by the Scale for the Social Readjustment Rating, Brief Psychiatric Rating Scale, and Simplified Coping Style Questionnaire, respectively. Spearman correlation analysis and binary logistic regression analysis were adopted to explore the relationships among coping styles, schizophrenia relapse, and stressful life events. Stressful life events and negative coping exhibited significant positive association with schizophrenia relapse, while positive coping exhibited a significant negative association with schizophrenia relapse. Stressful life events and positive coping exerted significant effects on schizophrenia relapse, while negative coping did not. We also found that both positive coping and negative coping have moderating effects on the relationship between stressful life events and schizophrenia relapse, but the relationship is weak.
