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  Original articles

  Positively charged ferritin nanoparticles enhance cellular delivery efficiency of adenovirus vectors

  WANG Di, LI Jihong, ZHANG Jun, XU Junjie, YANG Yilong

  2026, 50(3): 161-169. https://doi.org/10.7644/j.issn.1674-9960.2026-00006

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  Objective To develop positively charged human ferritin nanoparticles capable of modulating the surface properties of adenovirus vectors via electrostatic interaction-mediated self-assembly in order to enhance the cellular delivery efficiency of adenovirus vectors. Methods Based on structure-guided rational design, combinatorial amino acid mutations were introduced into wild-type human ferritin heavy chain（hF-wt）to generate a panel of positively charged ferritin mutants [（+）hFm]. The particle size and electrostatic binding capacity of （+）hFm were characterized using dynamic light scattering （DLS） and agarose gel electrophoresis, respectively, to identify the optimal （+） hFm that could self-assemble into nanoparticles and exhibit a high affinity for negatively charged biomacromolecules. Furthermore, the properties of the complex formed by the adenovirus type 5 vector （Ad5） and （+）hFm [Ad5@（+）hFm] were determined. The efficacy with which target transgene expressions were enhanced and the potential cytotoxicity of Ad5@（+）hFm were subsequently evaluated in HeLa cells. Results The positively charged ferritins constructed by combinatorial amino acid mutations successfully self-assembled into nanoparticles with size distributions ranging from 10 to 70 nm. Among these mutants,（+）hFm-2 showed strong electrostatic binding to plasmid DNA at a migration retardation rate of up to 95.59%. At a molar ratio of 1∶1000 [Ad5 to（+）hFm-2], the two components formed a complex with modulated surface properties, which significantly improved Ad5-mediated transgene expressions in the cellular model without inducing detectable cytotoxicity. Conclusion The positively charged engineered ferritin variant（+）hFm-2 can efficiently bind to Ad5 via electrostatic interaction, enhance Ad5-mediated transgene expressions, and possess high biocompatibility.
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  Original articles

  Keratinocyte-associated protein 2 alleviates ricin-induced apoptosis by regulating autophagy

  LI Jiamei, WAN Hongzhi, WANG Yuhui, CHEN Jiahui, LI Yanping, DUAN Xiaotao, WANG Bo

  2026, 50(3): 170-176. https://doi.org/10.7644/j.issn.1674-9960.2025-00268

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  Objective To explore the effect of knockdown of keratinocyte associated protein 2 （KRTCAP2） on ricin-induced apoptosis and the related mechanism. Methods Small interfering RNA （siRNA） transfection was used to establish siNC and siKRTCAP2 cell lines in the cervical cancer cell line HeLa. Real-time quantitative polymerase chain reaction （RT-qPCR） was performed to detect the mRNA expression level of KRTCAP2. Western blot assay was used to evaluate the levels of autophagy and apoptosis. The monodansylcadaverine （MDC） staining kit for cellular autophagy was applied to detect the formation of autophagosomes in siRNA-transfected cells. Cell Counting Kit-8 （CCK-8） assay and colony formation assay were conducted to determine cell viability. Terminal deoxynucleotidyl transferase-mediated dUTP nick end labeling （TUNEL） staining was used to assess cell apoptosis. Results Knockdown of KRTCAP2 significantly enhanced autophagy. Compared with the siNC group, the mRNA expression level of KRTCAP2 was markedly decreased in the siKRTCAP2 group, in which autophagy was significantly elevated, along with significant upregulation of fluorescent signals of autophagosomes. Ricin induced the death of wild-type HeLa cells in a concentration-dependent manner and inhibited cellular autophagy. Knockdown of KRTCAP2 improved cellular resistance to ricin by enhancing autophagy.Compared with the siNC group, autophagy kept increasing while cell viability was enhanced under ricin induction in the siKRTCAP2 group. Chloroquine （CQ）, an autophagy inhibitor, partially blocked the resistance of siKRTCAP2-transfected cellsto ricin, accompanied by reduced autophagy and cell viability. In addition, knockdown of KRTCAP2 mitigated ricin-induced cell apoptosis. Conclusion Knockdown of KRTCAP2 can enhance autophagy while ameliorating cell apoptosis induced by ricin, thereby exerting a protective effect on cells.
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  Original articles

  Expression and function of a fusion protein comprising a scFv against West Nile virus and the rabies virus glycoprotein-derived mutant peptide 2D3

  WU Lingli, ZHU Wanlu, LI Xingzhou, SHEN Beifen, FENG Jiannan, LÜ Mengdie, XIAO He

  2026, 50(3): 177-181. https://doi.org/10.7644/j.issn.1674-9960.2025-00264

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  Objective To evaluate the ability of mutant 2D3（derived from the rabies virus glycoprotein （RVG）-derived peptide, RDP） to deliver the anti-West Nile virus （WNV） single-chain variable fragment （scFv） into human neuroblastoma SH-SY5Y cells. Methods The cell-penetrating ability of 2D3 was tested using a green fluorescent protein （GFP） reporter system. The anti-West Nile virus single-chain variable fragment-2D3 fusion protein （single-chain variable fragment-2D3, scFv-2D3） was designed and expressed via genetic engineering. The antigen-binding activity and cell penetration into the target cells were assessed using enzyme linked immunosorbent assay （ELISA） and flow cytometry. Results The 2D3 mutant showed stronger neurotropism and could more effectively mediate the uptake of the GFP reporter plasmid into SH-SY5Y cells than the parental RDP. The scFv-RDP could bind to West Nile virus envelope protein domain Ⅲ （WNV EDⅢ） in a concentration-dependent manner and the binding activity was comparable to that of the parental scFv without the penetrating peptide. scFv was detected intracellularly in SH-SY5Y cells treated with scFv-2D3, suggesting that 2D3 could efficiently deliver scFv into neuronal cells. Conclusion 2D3 can more effectively deliver reporter plasmids and the anti-West Nile virus scFv into human neuroblastoma cells. This finding is expected to facilitate subsequent in vivo functional evaluation of the scFv-2D3 fusion protein.
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  Development and application of an optimized human PBMC-derived lymphoid organoid model for immune evaluation of recombinant TeNT-Hc protein

  SHAO Fangze, ZHANG Zhang, LIAO Weinian, LÜ Peng, YU Rui, XU Junjie, ZHANG Jun

  2026, 50(3): 182-191. https://doi.org/10.7644/j.issn.1674-9960.2025-00289

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  Objective To establish a lymphoid organoid model based on human peripheral blood mononuclear cells （PBMCs） and characterize the antigen-specific immune responses induced by the recombinant tetanus neurotoxin heavy chain （TeNT-Hc） protein based on this model. Methods Using viability and apoptosis of in vitro cultured PBMCs as indicators, the effects of key parameters,including different organoid culture methods, extracellular matrix, serum components and seeding densities,on the construction of lymphoid organoid model were compared. Recombinant TeNT-Hc protein was used as the model antigen to stimulate the organoids. Histological staining, flow cytometry and enzyme-linked immunosorbent assay （ELISA） were applied to evaluate the formation of germinal center-like structures, dynamic changes in specific immune cell subsets, and levels of antibody secretion. Results Under the optimized culture conditions, the cell viability of the constructed lymphoid organoids was 65.1% after 16 days of culture. Stimulation of lymphoid-like organoids with the model antigen resulted in marked activation and differentiation of B cell and T cell subsets, accompanied by the expansion of follicular helper T cell subsets. Germinal center-like structures were observed on day 8. Lymphoid organoids mounted B and T cell immune responses upon antigen stimulation, and antigen-specific antibody secretion was detected by day 6. PBMC-derived organoids from five healthy volunteers trended towards immune activation in response to antigen stimulation while retaining inter-individual differences in immune response intensity. Conclusion This established PBMC-derived lymphoid organoid model can effectively induce antigen-specific immune responses and possesses the dual ability to conduct standardized analysis and reflect the immune heterogeneity of the population. It provides a novel research tool for screening of vaccine candidate antigens and for the exploration of humoral immune mechanisms.
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  Original articles

  Microbiome diversity of cerebrospinal fluid in patients with central nervous system infections

  FANG Xiaofeng, CAO Yinghao, WANG Yunfei, CUI Yujun, FAN Hang, LI Yanjun

  2026, 50(3): 192-198. https://doi.org/10.7644/j.issn.1674-9960.2025-00236

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  Objective To characterize the cerebrospinal fluid （CSF） microbiome in patients with central nervous system （CNS） infections and to compare its diversity with healthy controls using metagenomic next-generation sequencing （mNGS）. Methods Forty-six patients with CNS infections were enrolled as the infection group while 16 healthy individuals served as the control group. CSF samples were collected and subjected to mNGS. The sequencing data was processed via host sequence depletion, taxonomic profiling, and alpha/beta diversity analyses. Alpha diversity was assessed using the Chao1, Shannon, Simpson, and Pielou indices while beta diversity was explored using principal coordinates analysis （PCoA） combined with permutational multivariate analysis of variance （PERMANOVA）. Results A total of 143 microbial species were identified from 46 sequencing samples. Proteobacteria, Actinobacteria, Firmicutes, and Ascomycota were the predominant phyla. Alpha diversity indices were significantly different between the infection group and control group （Chao1, Shannon, and Simpson, all P<0.05）, suggesting altered microbial richness and diversity in CNS infections. Beta diversity analysis revealed a clear separation in community structure between the two groups via PCoA and PERMANOVA（P<0.05）. Conclusion The diversity and composition of the CSF microbiome differ significantly between those with CNS infections and healthy individuals, suggesting correlations between CNS infections and CSF microbiome features.
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  Original articles

  Mannose-modified PLGA-PEG nanoparticles penetrating the blood-brain barrier and their brain enrichment in a post-traumatic stress disorder model

  XIE Lisi, CHEN Ronglong, CHEN Xueqin, LIN Li, LIU Juan, SONG Chunxue, ZHANG Chao

  2026, 50(3): 199-207. https://doi.org/10.7644/j.issn.1674-9960.2025-00196

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  Objective To design and synthesize a mannose-modified PLGA-PEG nanodrug delivery system capable of brain-targeting accumulation and blood-brain barrier（BBB） permeation. Methods bEnd.3 mouse vascular endothelial cells were used to establish a monolayer cell model using Transwell chambers. The barrier integrity was evaluated by measuring the transendothelial electrical resistance before an in vitro BBB model was established. A post-traumatic stress disorder model was established to find out about the in vivo BBB permeability of nanomaterials. In the in vitro experiment, nanomaterials were delivered to BV2 cells while in the in vivo experiment, nanomaterials were injected into the tail vein of C57BL/6 mice. The ability of nanomaterials to penetrate the blood-brain barrier was detected by a spectrophotometer, laser confocal microscopy and flow cytometry. The distribution and rate of brain enrichment of nanomaterials were dynamically monitored by a small animal in vivo near-infrared fluorescence imaging system. Results In vitro experiments showed that the PPM system loaded with a fluorescent molecule, purpurin 18 （P18）, could effectively penetrate the BBB with a fluorescence permeability of 7%. The system was capable of both prolonged retention in the brain with a brain accumulation rate of 30%, and significant brain enrichment in a post-traumatic stress disorder （PTSD） mouse model with an enrichment efficiency of 54%. Conclusion The newly developed BBB-penetrating nano-delivery system can ensure effective BBB penetration and targeted delivery in PTSD mouse models, with significant implications and translational potential for neuropharmaceutical development.
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  Original articles

  Psychological restoration and cognitive enhancement by interactive biophilic virtual environments： a comparative study of forest, oceanic and urban settings

  JIANG Hao, LI Kang, JIANG Chunlei, TIAN Lei, LIU Huanliang, LAI Wenqing, SHI Yue, XI Zhuge, LIN Bencheng

  2026, 50(3): 208-215. https://doi.org/10.7644/j.issn.1674-9960.2025-00287

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  Objective To construct interactive biophilic virtual environments using the virtual reality （VR） technology and biophilia theory in order to study their effects on psychophysiological restoration and cognitive enhancement in individuals exposed to confined environments. Methods High-fidelity interactive biophilic virtual environments （forests, oceans, and cities） and a neutral control scenario were created. A randomized controlled trial was conducted in 235 healthy participants. Stress-related physiological responses were assessed using wearable sensors to measure heart rate variability （HRV） and skin conductance levels （SCLs）. Cognitive performance was evaluated using the Stroop color-word test and the Alternative Uses Test （AUT）. Results Significant differences were observed between the virtual environments. Exposure to the virtual forests resulted in the most pronounced improvements in perceived restoration and positive effect. Compared with the virtual urban and oceanic environments, the forest environment significantly increased HRV/root mean square of successive differences（RMSSD）（P<0.0001） but decreased SCLs（P<0.0001）. Furthermore, the Stroop reaction time was significantly reduced （P<0.001）, and AUT creativity scores were significantly enhanced （P<0.0001）. Conclusion An interactive virtual biophilic forest environment can effectively mitigate the adverse effects of confinement while delivering dual benefits of psychological restoration and cognitive enhancement. This approach has great implications for maintaining long-term operational capability in individuals exposed to prolonged confinement.
Reviews
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  Reviews

  Research progress in multimodal data-driven evaluation models for plateau adaptability of military personnel

  ZHANG Yang, WANG Lexiang, JIANG Mingming, CHENG Naijun, SONG Tingting, HE Kunlun

  2026, 50(3): 216-220. https://doi.org/10.7644/j.issn.1674-9960.2025-00252

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  The plateau environment poses significant challenges to the physiology and operational capability of military personnel,which is also a key contributor to non-combat casualties. Traditional evaluation methods using single-modal indicators lack dynamic monitoring capabilities and fail to capture complex dynamic stress reactions. This paper reviews the research progress in multimodal data-driven evaluation models for plateau adaptability by analyzing the pathological mechanisms and influencing factors of plateau adaptability and outlining the limitations of current standards and single-modal machine learning. The construction of multimodal data-driven models is explored, focusing on both data architectures that combine physiological, behavioral and environmental modalities for military scenarios and cross-modal alignment and fusion techniques. Furthermore, military applications such as dynamic early warning of non-combat casualties, personalized acclimatization and intelligent military health support are described. Finally,future developments in multimodal data-driven evaluation models for plateau adaptability are predicted in hopes of contributing to the combat effectiveness of troops on the plateau.
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  Reviews

  Research progress in mechanisms and applications of microRNA in metabolic associated fatty liver disease related liver fibrosis

  DONG Xu, WANG Chaoqun, LI Chengzhong

  2026, 50(3): 221-225. https://doi.org/10.7644/j.issn.1674-9960.2025-00137

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  Metabolic associated fatty liver disease （MAFLD） can progress to liver fibrosis, leading to an increased risk of related decompensation. Investigation into the mechanisms, early diagnosis, and accurate staging of MAFLD-related liver fibrosis are critical to patient prognosis. MicroRNA, which are involved in post-transcriptional regulation, play significant roles in the initiation and progression of liver fibrosis. They exhibit aberrant expressions across different stages of liver fibrosis and are stably present in body fluids, suggesting their potential as novel circulating biomarkers. This article reviews the research on the mechanisms through which microRNA promote or inhibit MAFLD-related liver fibrosis and on their diagnostic value and therapeutic potential.
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  Reviews

  Research progress in cell-free DNA and neuroinflammation

  JIANG Aoran, MIAO Dandan, LI Yuanyue, WU Wenlin

  2026, 50(3): 226-229. https://doi.org/10.7644/j.issn.1674-9960.2025-00149

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  Cell-free DNA （cf-DNA）, as extracellular nucleic acid fragments present in various human biofluids, 5 including the sources of cf-DNA, its inflammatory pathways, and the association between cf-DNA-induced inflammation and neurodegenerative diseases, are summarized in this reviw. We have also traced the characteristic changes of cf-DNA in neuroinflammation-related diseases such as Alzheimer’s disease, Parkinson’s disease, and multiple sclerosis, and analyzed the latest applications of cf-DNA in early diagnosis of diseases, monitoring of courses of disease, and evaluation of therapeutic efficacy. This review is expected to provide references for related research.
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  Reviews

  Recent advances in the prevention and management of exertional heat stroke and their implications for military health services

  ZHUANG Fengming, LUO Yongjun

  2026, 50(3): 230-236. https://doi.org/10.7644/j.issn.1674-9960.2025-00109

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  The high incidence of exertional heat stroke （EHS） has posed a huge threat to the health and combat capability of military personnel.This paper reviews recent advancements in the prevention and management of EHS in general and three pivotal interventions—heat acclimatization,hydration strategies,and cooling interventions—in particular.An optimized framework for military medical support to EHS is recommended.In terms of heat acclimatization,it is recommended that China’s military learn from short-term training protocols employed inother countries, and that a hybrid model combining basic acclimatization with short-term intensive training be adopted.Moreover, intelligent monitoring technologies are to beused as an alternative to traditional laboratory-based heat tolerance tests. Hydration strategies call for individualized regimensand the adherence to the principle of “high-frequency and small-volumes” of fluid intake. Cooling interventions ought to revolve around the critical “golden 30 minutes” therapeutic window,with cold water immersion（CWI）designated as the first option.Additionally,research that aims to investigate the viability of seawater as a CWI alternative is proposed. Based on foreign experience and the realities in China,this paper recommends a comprehensive,integrated and tripartite strategy that involves acclimatization,hydration,and cooling for the whole-process prevention and control of EHS. This approach is expected to provide data for mitigating EHS during military operations in hot and humid environments and for enhancing the efficiency of military medical support.
Short article
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  Short article

  Analysis of the characteristics of patients evacuated by air transport conducted by Chinese medical teams in Peacekeeping Operation

  GAO Peng, ZHANG Wei, LUO Xiao, NAN Yehui, LIU Yong, YU Min, HU Xuejun

  2026, 50(3): 237-240. https://doi.org/10.7644/j.issn.1674-9960.2025-00246

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