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  Original articles

  Liver aging induced by γ-ray irradiation and partial hepatectomy in mice

  WU Qinlu, HAN Zixuan, XIANG Shensi, WAN Yue, WANG Xiaofang, DONG Diandian, CHEN Hui, YU Miao

  2024, 48(10): 721-729. https://doi.org/10.7644/j.issn.1674-9960.2024.10.001

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  Objective To establish a mouse model of liver aging induced by irradiation combined with hepatectomy. Methods A model was established via single irradiation combined with hepatectomy. The survival rate, body weight, liver index and liver function of the mice were detected. The expressions of senescence-associated secretory phenotype factors in serum were detected with enzyme-linked immunosorbent assay （ELISA） and flow cytometry. The mRNA levels of senescence-associated secretory phenotype factors and telomerase in liver tissue were detected by real-time quantitative PCR （qPCR）. The expressions of cyclin dependent kinase inhibitor 1A （CDKN1A） and cyclin dependent kinase inhibitor 2A （CDKN2A） were determined by Western blotting. ELISA was used to calculate senescence-associated β-galactosidase （SA-β-Gal） and lipofuscin levels. Tissue malondialdehyde levels were measured using the thiobarbituric acid （TBA） method. The size of hepatocyte nuclei and lipid accumulation were detected by hematoxylin-eosin （HE） stainingand oil-red-O while triglyceride levels in the liver were studied with the weighing method. Results After irradiation combined with hepatectomy, the body weight of mice was significantly reduced, the liver index was not significantly affected, but the transaminase level was significantly increased. The levels of SA-β-Gal and lipofuscin increased while telomerase activity decreased significantly, and the nucleus size increased. The expressions of cyclin dependent protein kinase inhibitors CDKN1A and CDKN2A increased. The levels of senescence-associated secretory phenotype factors were significantly increased. Hepatic lipid deposition and oxidative damage were aggravated. Results A mouse model of liver aging induced by irradiation combined with hepatectomy has been established.
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  Original articles

  Infectiousness of isolates of respiratory syncytial virus subtype B strains

  TANG Wei, ZHANG Rongrong, CHEN Qi, YE Qing, HUANG Shenghai

  2024, 48(10): 730-736. https://doi.org/10.7644/j.issn.1674-9960.2024.10.002

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  Objective To determine the infectiousness of the respiratory syncytial virus （RSV） 18537 strain of subtype B in different host cell lines and evaluate its pathogenicity and pathological damage in various animal models. Methods The cytopathic features, viral plaque morphology, viral protein expression, and in vitro proliferation efficiency were assessed to determine the basic biological characteristics of such infections. Nasal drops were used to infect 10-month-old BALB/c mice and 6-week-old cotton mice. The viral load in lung tissue after infection was detected, and the pathological injury was analyzed to assess the pathogenicity. Results The RSV 18537 strain of subtype B strain induced polynuclear fusion in Hep-2 cells, and typical viral plaques were formed in BHK-21 cells. In addition, viral proteins could be detected in Hep-2 and A549 cells. In BALB/c and cotton mice infected with nasal drops, viral nucleic acids were detectable in lung tissue on day 5 post-infection. This dose caused mild thickening of alveolar walls with scattered lymphocytes and neutrophil infiltration. Results The RSV 18537 strain of subtype B can be effectively proliferated in Hep-2 and A549 cells while infecting BALB/c mice and cotton mice, resulting in pathological injury to lung tissue. The 18537 strain of RSV subtype B is less contagious than the A2 strain of subtype A both in cells and animals.
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  Original articles

  Genetic diversity and recombination events of human infections with Sapovirus

  LIU Wanqiu, HU Mingda, HU Xiaofeng, REN Hongguang, WANG Xin, HE Yaqing

  2024, 48(10): 737-743. https://doi.org/10.7644/j.issn.1674-9960.2024.10.003

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  Objective To investigate the genetic characteristics and recombination of human-infected sapoviruses （SaVs） worldwide using bioinformatics. Methods The complete genome sequences of SaVs were downloaded from the National Center for Biotechnology Information （NCBI） while high-quality complete genomes were retained for analysis. Molecular phylogenetic trees of SaVs were constructed to analyze their genetic characteristics, followed by recombination analysis of human-infected SaV strains genetype Ⅰ,Ⅱ,Ⅳ, andⅤ （GⅠ, GⅡ, GⅣ, and GⅤ） with recombination analysis software. Results SaVs exhibited substantial genetic diversity worldwide and infected a wide range of hosts. Human-associated SaVs included GⅠ, GⅡ, GⅣ, and GⅤ, with GⅤ shared between human and swine hosts. Genetype recombination analysis of SaVs revealed a high frequency of recombination in SaV GⅡ strains that involved diverse hosts in the field of SaV GⅤstrains. Recombination breakpoints of the virus were concentrated in the major viral proteins 1 （VP1） and minor viral proteins 2 （VP2）. Results Based on systematic analysis of the genetic characteristics of human-infected SaVs, the genotype distribution and prevalence of SaVs are investigated, the recombination patterns of SaV revealed, and its genetic dynamics highlighted. These findings can offer insights into epidemiological trends of viruses and help devise effective prevention and control strategies.
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  Original articles

  Neural region features of rapid serial visual presentation （RSVP） for target detection

  ZHOU Qian, WANG Baozeng, YUAN Zijian, YANG Yang, LI Siwei, ZHOU Jin, WANG Changyong

  2024, 48(10): 744-752. https://doi.org/10.7644/j.issn.1674-9960.2024.10.004

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  Objective To study the differences in features of event-related potentials （ERPs） and target detection accuracy between five brain regions （frontal,temporal,central,parietal,and occipital） in target detection tasks based on rapid serial visual presentation （RSVP） brain computer interface （BCI） under six target concealment conditions. Methods Twelve participants were selected for the study,whose scalp electroencephalogram （EEG） signals were collected under the six concealment conditions using a NeuroScan SynAmps2 EEG acquisition system.The ERP waveforms,P300 amplitudes and latencies,among other things,were compared across the five brain regions.The hierarchical discriminant component analysis （HDCA） algorithm was used to classify the EEG signals while the differences in classification accuracy were probed across the five brain regions. Results （1） Under the six concealment conditions,target images elicited distinct ERP waveforms in all the five brain regions; （2） For P300 amplitudes,the temporal region exhibited the smallest values; （3） Regarding P300 latencies,the parietal and central regions showed longer durations than other brain regions （except for small camouflage and small occlusion conditions）; （4） In terms of classification accuracy,the parietal and central regions outperformed other brain regions （except for the large camouflage condition）. Results The selection of parietal and central channels can offer a new perspective for enhancing the performance in concealed target detection based on RSVP-BCI,and is expected to spark new ideas for the design of miniaturized,simple and wearable BCI devices.
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  Original articles

  Effect of pH value of reaction system on properties of pegylated bovine hemoglobin conjugate

  CHANG Chen, YOU Guoxing, WANG Wei, LI Weidan, WANG Ying, ZHU Kai, ZHOU Hong, ZHAO Lian, CHEN Yuzhi

  2024, 48(10): 753-759. https://doi.org/10.7644/j.issn.1674-9960.2024.10.005

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  Objective To explore the impact of pH value of the reaction system on the properties of bovine hemoglobin modified with aldehydeated polyethylene glycol （PEG-bHb）. Methods PEG-bHb conjugates were synthesized under varying pH conditions（6.0, 6.5, 7.4 and 8.0 ） of the reaction system while consistent molar ratios, temperature, and reaction time were maintained. The structural and functional attributes of PEG-bHb were characterized. Results The proportion of methemoglobin decreased with an increase in pH. In a weakly acidic reaction environment, the PEG-bHb was found to be relatively highly modified. At pH 6.5, the average number of PEG chains attached to the bHb surface was 6.86±0.38. Selective PEG modification of the N-terminal α-NH2 groups was more pronounced under weakly acidic conditions. Specifically, at pH 6.5, the modification efficiency of the N-terminal α-NH2 groups of bHb by aldehyde-activated PEG reached 95.4% for the α-chains and 99.3% for the β-chains. The PEG modification influenced the heme region microenvironment of bHb, with minimal structural impact observed at pH 6.5. After modification, the oxygen affinity of PEG-bHb was enhanced, the Hill coefficient was reduced, and there were significant increases in colloid osmotic pressure, viscosity, and particle size, all of which differed markedly from the unmodified bHb group （P<0.001）. Results The synthesis of PEG-bHb under weakly acidic conditions can result in a high degree of selective modification of the N-terminal α-NH2 groups and an overall high degree of modification.
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  Original articles

  Effects of rosemary essential oil inhalation on memory function of sleep-deprived mice and underlying mechanisms

  ZHU Wei, WU Haowei, FU Wenliang, ZHANG Chao, JIN Peng, XING Weiwei, XU Donggang

  2024, 48(10): 760-766. https://doi.org/10.7644/j.issn.1674-9960.2024.10.006

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  Objective To study the influence of rosemary essential oil inhalation on the memory of mice experiencing sleep deprivation and to delineate the possible mechanisms involved. Methods C57BL/6J mice were randomly divided into four experimental groups in this study： a control group （Con）, a control group with rosemary essential oil inhalation （Con+REO）, a sleep deprivation group （SD） and a sleep deprivation group with rosemary essential oil inhalation （SD+REO）. A 72-hour sleep deprivation model was induced using the multiple platform water environment method, with the Con+REO and SD+REO groups exposed to rosemary essential oil inhalation. Cognitive function was evaluated through Y-maze and novel object recognition tests. The hippocampal tissue was analyzed for superoxide dismutase （SOD） activity and the concentrations of malondialdehyde （MDA） and glutathione （GSH）. ELISA was used to determine the levels of norepinephrine （NE）, dopamine （DA）, and serotonin 5-hydroxytryptamine（5-HT） in the hippocampus. The expression levels of postsynaptic density 95 （PSD95） and brain-derived neurotrophic factor （BDNF） in the hippocampus were determined using immunoblotting techniques. Results Compared with the Con and Con+REO groups, the SD group demonstrated a significant reduction in the spontaneous alternation percentage in the Y-maze as well as the novel object recognition index. Additionally, there was a pronounced decrease in hippocampal SOD activity and GSH content, a substantial elevation in MDA levels, and a decrease in the levels of DA, NE, and 5-HT. The expressions of PSD95 and BDNF proteins also decreased. In comparison with the SD group, the SD+REO group exhibited a significant increase in the spontaneous alternation percentage in the Y-maze and the novel object recognition index. There was also a marked increase in hippocampal SOD activity and GSH content, a reduction in MDA levels and elevated levels of NE and DA. Moreover, the expressions of PSD95 and BDNF proteins were upregulated. Results The inhalation of rosemary essential oil enhances the memory of sleep-deprived mice, and the underlying mechanism may involve the mitigation of oxidative stress within the hippocampal tissue, the modulation of neurotransmitter levels, and the facilitation of synaptic plasticity.
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  Original articles

  Design, synthesis and activity evaluation of novel 5-HT_2A receptor antagonists

  HAN Luobing, SUN Shiyang, ZHAO Yu, YU Gang, SU Ruibin, ZHENG Zhibing, LI Song

  2024, 48(10): 767-777. https://doi.org/10.7644/j.issn.1674-9960.2024.10.007

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  Objective To discover 5-HT_2A receptor antagonist molecules with novel structures and explore their structure-activity relationship through structure- and mechanism-based drug design, synthesis and activity evaluation. Methods The way in which pimovanserin interacted with 5-HT_2A receptor was analyzed via molecular docking, molecular dynamics simulation and binding free energy calculations.Based on the results of this study, the 5-HT_2A receptor antagonist target compounds with novel structures were designed using pimovanserin as the lead molecule. According to the structures of target compounds, corresponding synthetic routes were designed. The heterocyclic methylamine intermediates were obtained by reductive amination or reduction reaction from heterocyclic formaldehyde or heterocyclic methanonitrile before being reacted with 4-（4-fluorobenzylamino）-1-methylpiperidine to obtain the target compounds using CDI urea synthesis method. The inhibitory activity of the target compounds against 5-HT_2A receptor was tested at the cellular level, and the anti-hallucinogenic effects of the target compounds were tested in the mouse head twitch response model. Results Twelvenovel compounds were synthesized and their structures were confirmed by HR-MS, ¹H-NMR and ¹³C-NMR. The results of the activity assay showed that compounds 6a, 6c and 6d exhibited better 5-HT2Areceptor inhibitoryactivity with IC₅₀ values of 120, 152 and 285 nmol/L, respectively while compounds 6c and 6d exhibited better anti-hallucinogenic activity in mice with inhibition rates of 97.0% and 82.9% （10 mg/kg）, respectively. Results The novel compound 6c and 6d have shown strong 5-HT_2A receptor inhibitoryactivity and anti-hallucinogenic activity and deserve more research. Structure-activity relationship analyses of target compounds indicate that the repulsion of the heterocyclic ring with basic N atoms and the accommodation of the heterocyclic ring without basic N atoms by the side extended pocket of the 5-HT2A receptor could significantly affect the ex vivo and in vivo effects of antagonists.
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  Original articles

  Immune cell-mediated causal relationship between plasma metabolites and knee osteoarthritis： a Mendelian randomization study

  WANG Zhenyu, ZHANG Hongmei, JING Lin, YAN Qi, TANG Jixiang, GE Qirui

  2024, 48(10): 778-785. https://doi.org/10.7644/j.issn.1674-9960.2024.10.008

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  Objective To evaluate both the causal relationship between plasma metabolites and the risk of knee osteoarthritis （KOA） and the potential mediating or masking effect of immune cells using Mendelian randomization （MR） systems. Methods The GWAS data on 1400 plasma metabolites, 731 immune cell traits and KOA was retrieved from the genome-wide association study （GWAS） database. Two-way MR analysis was used to evaluate the causal relationship between plasma metabolism and KOA. Two-step mediation MR analysis was conducted to evaluate immune cell traits that might have mediating or masking effects. Results After sensitivity analysis and screening, 65 plasma metabolites and 35 immune cell traits were found to have causal relationships with KOA （P<; 0.05）. Mediation analysis found that CD45RA+ CD28- CD8br %CD8br had a mediating effect in the causal relationship between three metabolites （2-hydroxyhippurate, X-07765, X-23739） and the risk of KOA. 2-hydroxyhippurate （salicylic acid） exerted a masking effect, and the effect ratio was 0.0412. Results A variety of plasma metabolites and immune cell traits are causally related to KOA, which should not be regarded as a simple degenerative joint disease. The protective effect of salicylic acid against KOA may be weakened by its role in inducing the differentiation of Treg cells, which is worthy of more studies.
Reviews
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  Reviews

  Progress and trends in COVID-19 vaccine research and development in the post-pandemic era

  ZHOU Wei, YAN Qunjiao, WANG Lei

  2024, 48(10): 786-790. https://doi.org/10.7644/j.issn.1674-9960.2024.10.009

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  As the emergency of the COVID-19 pandemic has come to an end, there have been changes in the global R&D of COVID-19 vaccines. In general, the demand for COVID-19 vaccines in many countries has been diminishing, related R&D is losing steam, the number of ongoing projects that have made no progress or have been terminated has increased, and the remaining projects are turning to innovative technologies such as mRNA vaccines and recombinant protein vaccines. Since 2023, more than ten COVID-19 vaccines have been approved globally, most of which are upgraded versions of the original vaccines developed by research institutions targeting different variants of Omicron. In terms of developments, the R&D of COVID-19 vaccinesis becoming more innovative.Positive progress has been made in some of the next-generation COVID-19 vaccines aimed at providing broad-spectrum and long-lasting protection and in respiratory infectious disease combination vaccine projects. China should formulate workable plans, promote sustainable research and development of COVID-19 vaccines, and make key technical reserves to prevent and addresspandemics and public health emergency risks in the future.
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  Reviews

  Research progress in cognitive assessment and cognitive enhancement strategies and their applications

  YAN Jun, LIN Bencheng, LIU Xiaohua, XI Zhuge

  2024, 48(10): 791-798. https://doi.org/10.7644/j.issn.1674-9960.2024.10.010

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  Cognitive ability assessment and cognitive enhancement techniques play an important role in maintaining and improving human cognitive function, psychological and emotional stability, and in enhancing work efficiency.This paper begins by introducing the theory of cognitive ability, influencing factors and cognitive assessment methods before summarizing the latest progress in current cognitive enhancement strategies and technological paths and analyzing their prospects of applications in order to provide reference for the development and application of personnel cognitive assessment and cognitive enhancement technology in the future.
Short report
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  Short report

  Design and applications of a field medical supplies storage device

  BAI Lixiao, DING Cuicui, YANG Ailing, BAI Wei, YI Subei

  2024, 48(10): 799-800. https://doi.org/10.7644/j.issn.1674-9960.2024.10.011

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