Autophagy-related lncRNA and its related mechanism in colon adenocarcinoma

Objective Colon cancer is a type of cancer with high morbidity and mortality,of which adenocarcinoma is the most common type.Numerous studies have found that long noncoding RNAs(lncRNAs)are related to the occurrence and development of colon cancer.Autophagy is a key metabolic process in the human body and has a role in affecting cancer growth.In this study,our aim was to explore the correlation between lncRNAs and colon adenocarcinoma(COAD)from the perspective of autophagy.Methods A series of bioinformatics methods were used to explore the correlation between lncRNA and COAD from the perspective of autophagy.Results Four autophagy-related lncRNAs related to the prognosis of COAD were identified:EB1-AS1,LINC02381,AC011462.4,and AC016876.1.These four lncRNAs may act as oncogenes involved in the occurrence and development of COAD.The prognostic model was established,and the accuracy of the model was verified by the receiver operating characteristic curve.The risk score of the model could independently predict the prognosis of patients and was preferable to other clinical indicators,with higher values indicating a worse prognosis of the patients.Gene Set Enrichment Analysis was performed for these four lncRNAs,which showed that the high expression group of these were enriched in the basal cell carcinoma pathway.To make it more convenient for clinicians to use,we constructed a nomogram based on age and risk score,which can be used to evaluate the one-,three-,and five-year survival rates of patients.Conclusion These results can help us understand the mechanism of action of lncRNA on COAD from the perspective of autophagy and may provide new directions for the diagnosis and treatment of COAD.The EB1-AS1 gene in this study is a potential candidate biological target for COAD treatment in the future.

Research and development of a novel subunit vaccine for the currently circulating pseudorabies virus variant in China

Pseudorabies(PR)is a devastating viral disease which leads to fatal encephalitis and respiratory disorders in pigs.Commercial gE-deleted live pseudorabies virus(PRV)vaccine has been widely used to control this disease in China.However,the new-emerging variants of PRV compromises the protection provided by current vaccines and lead to the outbreak of PR in vaccinated pig herds.Several killed and live vaccine candidates based on current PRV variants have been reported to be effective to control the disease.A subunit vaccine based on gB protein,one major PRV glycoprotein which elicits strong humoral and cellular immune responses,however,was never evaluated for protection against the current circulating PRV variants.In this study,full-length PRV gB protein was successfully expressed in baculovirus/insect cells in the soluble format and was tested on 3-week-old piglets as a subunit vaccine.Compared with unvaccinated pigs,the gB-vaccinated pigs developed specific antibody-mediated responses and were protected from the virulent PRV HN1201 challenge.All vaccinated pigs survived without showing any PRV-specific respiratory and neurological signs,but all unvaccinated pigs died within 7 days after HN1201 challenge.Hence,this novel gB-based vaccine could be applied as an effective subunit vaccine to control PRV variant in China.

RR1 and RR2 gene deletion affects the immunogenicity of a live attenuated pseudorabies virus vaccine candidate in natural pig host

As virulence-determining genes, RR1 and RR2 encode the small subunit and large subunit of viral ribonucleotide reductase(RR) in pseudorabies virus which have been extensively studied in mice. However,their role in pigs has not been adequately investigated. In this study, we deleted RR1 and RR2 genes based on a TK/g E/g I triple gene-deleted pseudorabies virus and tested its efficacy in pigs as a vaccine candidate. The rescued virus showed similar growth properties and plaque size in vitro as its parent strain. In an animal study, the virus could elicit humoral immune responses shown by generation of g B-specific antibodies and virus neutralizing antibodies.However, vaccination could not provide protection against virulent pseudorabies virus challenge since vaccinated pigs showed clinical pseudorabies-specific syndromes. The deficiency in protection may due to the generation of late and low levels of gB antibodies and virus neutralizing antibodies.