Yushu Deng scite author profile

Coxsackievirus B (CVB) is one of the major viral pathogens of human myocarditis and cardiomyopathy without any effective preventive measures; therefore, it is necessary to develop a safe and efficacious vaccine against CVB. Immunoinformatics methods are both economical and convenient as in-silico simulations can shorten the development time. Herein, we design a novel multi-epitope vaccine for the prevention of CVB by using immunoinformatics methods. With the help of advanced immunoinformatics approaches, we predicted different B-cell, cytotoxic T lymphocyte (CTL), and helper T lymphocyte (HTL) epitopes, respectively. Subsequently, we constructed the multi-epitope vaccine by fusing all conserved epitopes with appropriate linkers and adjuvants. The final vaccine was found to be antigenic, non-allergenic, and stable. The 3D structure of the vaccine was then predicted, refined, and evaluated. Molecular docking and dynamics simulation were performed to reveal the interactions between the vaccine with the immune receptors MHC-I, MHC-II, TLR3, and TLR4. Finally, to ensure the complete expression of the vaccine protein, the sequence of the designed vaccine was optimized and further performed in-silico cloning. In conclusion, the molecule designed in this study could be considered a potential vaccine against CVB infection and needed further experiments to evaluate its safety and efficacy.

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New Insights into Molecular Mechanisms Underlying Neurodegenerative Disorders

Liu¹,

Duan²,

Deng³

et al. 2023

J. Integr. Neurosci.

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As a large and heterogeneous group of disorders, neurodegenerative diseases are characterized by the progressive loss of structure or function in neurons, finally leading to neuronal death. Neurodegenerative diseases cause serious threat to a patient’s quality of life and the most common are Alzheimer’s disease and Parkinson’s disease. Currently, little is known of the detailed etiology of these disorders; as such, there are no effective treatments available. Furthermore, the lack of targeted, effective, and resolvable therapy for neurodegenerative diseases, represents an expanding research field for the discovery of new therapeutic strategies. Investigations of the potential pathogenesis of neurodegenerative diseases will become the basis of preventing the occurrence and development of neurodegenerative diseases and finding effective therapies. Existing theories and mechanisms, such as genetic and environmental factors, abnormal protein accumulation, and oxidative stress, are intricately associated with each other. However, there is no molecular theory that can entirely explain the pathological processes underlying neurodegenerative diseases. Due to the development of experimental technology and the support of multidisciplinary integration, it has been possible to perform more in-depth research on potential targets for neurodegenerative diseases and there have been many exciting discoveries in terms of original theories and underlying mechanisms. With this review, we intend to review the existing literature and provide new insights into the molecular mechanisms underlying neurodegenerative diseases.

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The Effect of SARS-CoV-2 on the Spleen and T Lymphocytes

et al. 2021

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Comparison of ketamine/xylazine and isoflurane anesthesia on the establishment of mouse middle cerebral artery occlusion model

Liu

Zhang

et al. 2023

Exp. Anim.

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The middle cerebral artery occlusion model (MCAO) is one of the most common stroke models in neuroscience research. The establishment of the mouse MCAO model in terms of animal survival depends on anesthesia, which is an important part of the entire surgical process. The 7-day survival rate of the MCAO model under isoflurane (ISO) anesthesia (35%) was lower than ketamine/xylazine (KX) anesthesia (70%), which demonstrated that the success rate of the MCAO model under KX anesthesia would be significantly higher than that under ISO anesthesia. As confirmed by TTC staining and MRI, the cerebral infarction area of mice successfully modeled under ISO anesthesia was significantly smaller than that of KX anesthesia. The diameter of cerebral blood vessels under ISO anesthesia was significantly larger than that under KX, and the blood perfusion volume was also significantly increased in the same area. ISO has proven to delay the coagulation time and affect the activation of coagulation factors. ISO anesthesia may cause bleeding, vasodilation, respiratory depression, and other phenomena that affect the success rate and death of diseased animal models. In conclusion, compared with ISO anesthesia, KX anesthesia is a safer and more suitable method for the establishment of a mouse MCAO model. The data will inform safer and more detailed anesthesia recommendations for the establishment of animal models of vascular-related major injury diseases.

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Yushu Deng

Technological Advances of 3D Scaffold-Based Stem Cell/Exosome Therapy in Tissues and Organs

Designing a multi-epitope vaccine against coxsackievirus B based on immunoinformatics approaches

New Insights into Molecular Mechanisms Underlying Neurodegenerative Disorders

The Effect of SARS-CoV-2 on the Spleen and T Lymphocytes

Comparison of ketamine/xylazine and isoflurane anesthesia on the establishment of mouse middle cerebral artery occlusion model

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