Long non-coding RNA(lncRNA)is a type of non-protein-coding RNA with a length of at least 200 nucleotides.Ex-isting evidence shows that lncRNA affects the growth and development of humans and the occurrence of diseases through various mech-anisms,and plays an irreplaceable role in the differentiation and activation of immune cells and the development process of autoim-mune diseases.In recent years,lncRNA H19 has been found to play a unique regulatory function in pathological processes related to autoimmune diseases,such as inflammation and fibrosis.Therefore,the molecular mechanism involved in H19 is expected to become a potential target for the treatment of autoimmune diseases.In this review,we discussed the related mechanisms of H19 involved in the pathogenesis of autoimmune diseases based on the known functions of H19 and summarized the research results of H19 in several com-mon autoimmune diseases.

Objective To screen long non-coding RNA(lncRNA)associated with disulfidptosis and investigate the immune landscape between lncRNA and pancreatic cancer,for effective guidance in clinical practice.Methods The normal and pancreatic cancer tissue samples were obtained from The Cancer Genome Atlas database,and the lncRNA associated with disulfidptosis was identified based on the Cox and LASSO regression analyses.A risk prognosis model was constructed,and its predictive performance was verified using comprehensive methods.An accurate nomogram was construted to predict the prognosis of patients with pancreatic cancer.The biological differences were analyzed via Gene Ontology,Gene Set Enrichment Analysis,and an immunoassay.The immunotherapy response was estimated using the tumor mutational burden(TMB)score.Results A total of 251 disulfidptosis-related lncRNAs were successfully identified,and three groups of lncRNAs were selected as the reference for the risk model.Pathway analysis showed that immune-related pathways were associated with disulfidptosis-related lncRNA risk models.The risk score was significantly correlated with immune cell infiltration and the ESTIMATE score.Patients with higher risk scores had elevated TMB,indicating that high-risk patients exhibited a better immune checkpoint blockade response.Conclusion The findings of this study contribute to a deeper understanding of disulfidpto-sis-related lncRNA and provide a potential therapeutic strategy for pancreatic cancer.

【Objective】 To establish RH gene mRNA sequencing method based on nanopores sequencing and to explore the RHD and RHCE mRNA transcripts in D positive and D^el individuals. 【Methods】 From March 2021 to May 2022, 5 RhD positive samples and 5 D^el samples screened out by hospitals in Chengdu were sent to our laboratory for futher examination. The erythrocytes and buff coat were isolated, then DNA and RNA were extracted.All 10 samples were genotyped by PCR-SSP. After the mRNA was reversely transcribed into cDNA, the full-length mRNA of RHD and RHCE genes were simultaneously amplified by a pair of primers. Sanger sequencing and third-generation sequencing technology based on Nanopore were used to sequence the amplified products, and the types and expressions of different splices of RHD and RHCE gene mRNA transcripts were analyzed. 【Results】 The method established in this study can simultaneously amplify the full length transcripts of RHD and RHCE. Ten different RHD gene mRNA transcripts and nine RHCE gene mRNA transcripts were detected in 10 samples. RHD full-length transcript (RHD-201) can be detected in RhD D^el type, but the expression amount was significantly lower than that in RhD positive samples. The expression amount of transcript RHD-207 (Del789) in D^el samples was significantly higher than that in RhD positive samples. The transcript RHD-208 (Del8910+ 213) was only detected in RhD D^el type individuals, and no significant difference was found between other RHD transcripts and all RHCE transcripts in the two phenotypes. 【Conclusion】 In this study, an analytical method for sequencing full-length transcript isomers of RHD and RHCE mRNA via the third generation was successfully established, and complex alternative splicing patterns were found in RHD and RHCE genes, providing a new method for the study of alternative splicing of blood group gene variants mRNA.

Humans ; COVID-19 ; HIV Infections/drug therapy* ; Risk Factors

Pancreaticoduodenectomy (PD) is a major operation of abdominal surgery, with high risk, complex operation, more complications and high mortality. Pancreatic fistula is the main cause of death after PD. Due to its complexity and obstinacy, pancreatic fistula has become the top challenge of pancreatic surgery. The authors review the relevant literature and summarize the prevention and management of pancreatic fistula after PD, such as the optimization strategies for pancreatic anastomosis, the use of external stents, prophylactic drains in surgical field, the applica-tion of somatostatin and its analogues, and whole-course nutrition management, based on the precise and comprehensive opinion, in order to provide reference for improving the prevention and treatment of pancreatic fistula after PD.

Primary liver cancer is one of the most severe cancer burdens around the world. Metabolic reprogramming is one phenotype of cancer， and blood metabolic markers are closely associated with metabolic reprogramming and can predict the risk of recurrence and survival or assess the treatment response of liver cancer， with important significance in the stratified management of patients， the development of rational treatment strategies， and the improvement of patient prognosis. By reviewing the recent studies on blood metabolomics in assessing the treatment response or predicting the prognosis of liver cancer， this article summarizes the blood metabolites with predictive significance and their mechanism of action and analyzes the current research status， existing problems， and prospects of this field. It is believed that the metabolites， such as aromatic amino acids， lipids， and bile acids， have an important clinical value in predicting the prognosis of liver cancer， and metabolomics technology has great potential in finding useful metabolites， but there are still many issues to be solved， such as technical limitations， insufficient studies， and multiple influencing factors.

【Objective】 To understand the memory phenotype and function of SARS-CoV-2 reactive CD4+ T cells in healthy individuals. 【Methods】 In this study, SARS-CoV-2-derived peptides were used to stimulate PBMC from participants.SARS-CoV-2 reactive memory T cells were detected by intracellular staining and flow cytometry, and memory phenotype analysis was performed.CBA was used to detect cytokine secretion after SARS-CoV-2-derived peptides stimulation to evaluate the function of SARS-CoV-2 reactive memory T cells. 【Results】 We found that SARS-CoV-2 reactive CD4+ memory T cells could be detected in 40% (6/15) healthy donors.Phenotypic analysis of memory showed that these T cells were mainly composed of central memory T cells(82.2%), and other memory cells accounted for 17.8%.Compared with negative control, IL-10 was significantly decreased after stimulation of SARS-CoV-2-derived peptides (P<0.05), while the secretion of IFNγ, TNFα, IL-2 and IL-4 showed no significant difference. 【Conclusions】 SARS-CoV-2 reactive CD4+ memory T cells are present in healthy individuals from China.

Accurate tumor targeting, deep penetration and superb retention are still the main pursuit of developing excellent nanomedicine. To achieve these requirements, a stepwise stimuli-responsive strategy was developed through co-administration tumor penetration peptide iRGD with shape-transformable and GSH-responsive SN38-dimer (d-SN38)-loaded nanoparticles (d-SN38@NPs/iRGD). Upon intravenous injection, d-SN38@NPs with high drug loading efficiency (33.92 ± 1.33%) could effectively accumulate and penetrate into the deep region of tumor sites with the assistance of iRGD. The gathered nanoparticles simultaneously transformed into nanofibers upon 650 nm laser irradiation at tumor sites so as to promote their retention in the tumor and burst release of reactive oxygen species for photodynamic therapy. The loaded d-SN38 with disulfide bond responded to the high level of GSH in tumor cytoplasm, which consequently resulted in SN38 release and excellent chemo-photodynamic effect on tumor.

Radiation-induced bowel injury is a common complication of radiation therapy for pelvic malignancy. Given the huge number of patients diagnosed with pelvic malignancy, the number of patients diagnosed with radiation-induced bowel injury increased year by year, which put a great burden on the clinical diagnosis and treatment of radiation-induced bowel injury. In particular, chronic radiation-induced bowel injury, which is manifested in the process of prolonged, repeated and progressive aggravation, seriously affects the physical and mental health of patients and makes clinical diagnosis and treatment difficult. However, due to insufficient attention and understanding from doctors and patients, standardized diagnosis and treatment of radiation-induced bowel injury still have a long way to go. Radiation-induced bowel injury is self-limited but irreversible. During diagnosis, we should pay attention to overall evaluation of the stage of disease based on clinical symptoms, endoscopic examination, imaging examination, pathology and nutritional risk. The treatment methods include health education, drug therapy, enema therapy, formalin local treatment, endoscopic treatment and surgical treatment, etc. The treatment decision-making should be based on clinical symptoms, endoscopic or imaging findings to alleviate the clinical symptoms of patients as the primary goal and to improve the long-term quality of life of patients as the ultimate goal.

Objective To investigate the effect of cyclosporine A (CsA) on autophagylysosomal pathway in tubular epithelial cells.Methods Human renal tubular epithelial cell line (HK-2 cell) was treated with different concentrations (3,5 and 10 μmol/L) of CsA for 24 h.Then the viability and apoptosis of cells were measured by MTT assay or AnnexinV-PI staining followed by flow cytometry analysis,respectively.Autophagy-related protein LC3-Ⅱ and p62 were detected by immunofluorescence assay.Autophagic flux was analyzed in HK-2 cells transfected with a tandem mRFP-GFP fluorescent-tagged LC3 (ffLC3) plasmid by laser confocal microscope.The lysosomal degradation was evaluated by DQ-ovalbumin staining followed by flow cytometry analysis.Results The viability of HK-2 cells was significantly decreased with CsA stimulation when compared with control group (P ＜ 0.01),but the number of apoptotic cells was markedly increased by CsA treatment (P ＜ 0.05).Compared with the control group,different doses of CsA dramatically increased the expressions of LC3-Ⅱ (P ＜ 0.01) and p62 (P ＜ 0.05) in HK-2 cells.Moreover,HK-2 cells treated with CsA displayed a significant increase in autophagosomes but a marked decrease in autolysosomes.In HK-2 cells,exposured to CsA caused a decrease in lysosomal degradation by DQ-ovalbumin staining when compared with control group (P ＜ 0.01).Conclusion Blockade of autophagy via disrupting lysosome degradation may represent a novel mechanism of CsA-induced tubular epithelial cells injury.