The relationship between sleep quality and occupational fatigue in endoscopy nurses: mediating role of positive coping style.

Background: Nursing occupational fatigue has emerged as a critical issue affecting the safety and health of nurses. This phenomenon not only impairs nurses' performance and mental well-being but also poses risks to patient safety and the quality of care provided. This study focuses on endoscopic nurses to explore the mediating role of positive coping styles between sleep quality and occupational fatigue, aiming to identify effective strategies to alleviate fatigue, thereby improving the work environment and enhancing healthcare quality. Methods: From July to August 2023, a cross-sectional design was used to select 258 endoscopy nurses from 25 top-three hospitals in 14 cities across 5 provinces in China. Data was collected through general information questionnaires, Fatigue assessment instrument, Pittsburgh sleep quality index, and Simple Coping Style Questionnaire. A structural equation model of sleep quality - positive coping style - occupational fatigue was constructed using Amos 26.0, and Bootstrap was employed to test the mediating effect. Results: The results showed that the mean scores of sleep quality, occupational fatigue, and positive coping style for endoscopy nurses were 8.89 ± 4.13, 17.73 ± 5.64, and 18.32 ± 10.46, respectively. Positive coping style were negatively correlated with sleep quality and occupational fatigue (p < 0.001). Positive coping style partially mediated the relationship between sleep quality and occupational fatigue, with a mediating effect value of 0.253, accounting for 42.10% of the total effect. Conclusion: Sleep quality can indirectly affect the level of occupational fatigue through positive coping style. Nursing managers should enhance nurses' positive coping skills, improve nurses' sleep quality, and reduce occupational fatigue among nurses.

Prognostic Value and the Immune Microenvironment-associated Role of SMAD4 in Pancreatic Adenocarcinoma.

BACKGROUND/AIM: SMAD4 is a well-known cancer suppressor gene that regulates cell proliferation, differentiation, autoimmunity, pluripotency, and immune responses in pancreatic adenocarcinoma (PAAD). We herein investigated a novel involvement of SMAD4 within the PAAD microenvironment. MATERIALS AND METHODS: Transcriptome data, derived from The Cancer Genome Atlas and Genotype-Tissue Expression Using TIMER 2.0, CIBERSORT, and ImmuCellAI, were used to identify the immune cell infiltration pattern of PAAD. We then knocked-down SMAD4 in the PANC-1 cell line and acquired RNA-seq data through the Illumina microarray technology. Kyoto Encyclopedia of Genes and Genomes was utilized along with Gene Ontology enrichment analyses, and protein-protein interaction network analysis to screen for genes that were differentially expressed. We constructed a miRNA-mRNA regulatory network and analyzed SMAD4 copy number variation (CNV) data. RESULTS: In PAAD, decreased levels of SMAD4 expression were found to be connected to an unfavorable prognosis. There was a significantly higher infiltration level of DC cells, CD8+ T cells, TgD, Tc, and Tex cells and a lower level of B cells and Th2 in the SMAD4-high group. The expression of SMAD4 and immune cell infiltration including CD8+ T cells, myeloid dendritic cells, neutrophils, and macrophages are significantly positively correlated. DEGs were found enriched in the hypoxia response pathway. The six hypoxia-related genes exhibited a significant correlation with immune cell infiltration and survival rates. SMAD4 CNV levels were associated with MSI, stemness, infiltration of immune cells, and survival rates. CONCLUSION: A statistically significant correlation was found between SMAD4 expression and immune cell infiltration. SMAD4 could mediate hypoxia response in pancreatic cancer. The CNV levels of SMAD4 were associated with prognosis. SMAD4 has potential as a prognostic biomarker and provides a new orientation for the immunotherapy of PAAD.

Somatic IDH1 Hotspot Variants in Chinese Patients With Pheochromocytomas and Paragangliomas.

CONTEXT: IDH1 is a pheochromocytoma/paraganglioma (PPGL) susceptibility gene; however, its role, especially in the Chinese population, has not been characterized. OBJECTIVE: To determine the prevalence of somatic IDH1 hotspot variants in a large cohort of Chinese patients with PPGLs and to summarize associated phenotypes. METHODS: This retrospective cross-sectional study was based on a main cohort of 1141 patients with PPGLs from 2 tertiary-care centers in China. We included 50 cases with urinary bladder paragangliomas (UBPGLs), of whom 29 were part of the main cohort and 21 were from other centers. Two additional cases with IDH1 hotspot variants not part of the main cohort were also included for summarizing IDH1-associated phenotypes. Next-generation sequencing of tumor DNA was used to analyze a customized panel of genes. RESULTS: The overall prevalence of IDH1 hotspot variants in the main cohort was 0.5% (6/1141). Among those PPGLs without mutations in 15 common driver genes, the prevalence of IDH1 variants was 0.9% (4/455). When restricted to paraganglioma (PGL) without mutations, the prevalence reached 4.7% (4/86). Among UBPGLs, IDH1 hotspot variants accounted for 8% (4/50). Together, all 10 patients (9 PGLs and 1 pheochromocytoma) with IDH1 hotspot variants, including 3 females with concurrent EPAS1 hotspot variants, had apparently sporadic tumors, without metastasis or recurrence. There were 3 patients with biochemical data, all showing a non-adrenergic phenotype. CONCLUSIONS: The somatic IDH1 hotspot variants cause PPGL development in some Chinese patients, especially among those apparently sporadic PGLs with a non-adrenergic phenotype and without mutations in major PPGL driver genes.

Direct immunoactivation by chemotherapeutic drugs in cancer treatment.

The immune system plays a crucial role in recognizing and eliminating pathogenic substances and malignant cells in the body. For cancer treatment, immunotherapy is becoming the standard treatment for many types of cancer and is often combined with chemotherapy. Although chemotherapeutic agents are often reported to have adverse effects, including immunosuppression, they can also play a positive role in immunotherapy by directly stimulating the immune system. This has been demonstrated in preclinical and clinical studies in the past decades. Chemotherapeutics can activate immune cells through different immune receptors and signaling pathways depending on their chemical structure and formulation. In this review, we summarize and discuss the direct immunoactivation effects of chemotherapeutics and possible mechanisms behind these effects. Finally, we prospect chemo-immunotherapeutic combinations for the more effective and safer treatment of cancer.

Phosphorylation of MAD2 at Ser195 Promotes Spindle Checkpoint Defects and Sensitizes Cancer Cells to Radiotherapy in ATM Deficient Cells.

The spindle assembly checkpoint (SAC) is a critical monitoring device in mitosis for the maintenance of genomic stability. Specifically, the SAC complex comprises several factors, including Mad1, Mad2, and Bub1. Ataxia-telangiectasia mutated (ATM) kinase, the crucial regulator in DNA damage response (DDR), also plays a critical role in mitosis by regulating Mad1 dimerization and SAC. Here, we further demonstrated that ATM negatively regulates the phosphorylation of Mad2, another critical component of the SAC, which is also involved in DDR. Mechanistically, we found that phosphorylation of Mad2 is aberrantly increased in ATM-deficient cells. Point-mutation analysis further revealed that Serine 195 mainly mediated Mad2 phosphorylation upon ATM ablation. Functionally, the phosphorylation of Mad2 causes decreased DNA damage repair capacity and is related to the resistance to cancer cell radiotherapy. Altogether, this study unveils the key regulatory role of Mad2 phosphorylation in checkpoint defects and DNA damage repair in ATM-deficient cells.