Objective:To investigate the role of the CD38/p53/ME1 axis in regulating T cell mitochondrial function and senescence during HIV infection.Methods:The expression of CD38 on T cells was examined in HIV-infected individuals receiving antiretroviral therapy(ART), untreated HIV-infected individuals, and HIV-negative healthy controls. Flow cytometry was used to compare senescence markers and mitochondrial function between CD38 + and CD38 - T cells. Malic enzyme 1(ME1) mRNA levels were measured by qRT-PCR in T cells treated with the CD38 inhibitor 78c. Mitochondrial function and senescence were assessed in T cells treated with an ME1 inhibitor. The regulatory mechanism of CD38-mediated ME1 downregulation was further explored. Results:Compared to healthy controls, T cells from HIV-infected individuals exhibited significantly elevated CD38 expression, which persisted despite ART. CD38 + T cells showed increased senescence (CD28 -CD57 + subset) and mitochondrial dysfunction[depolarization and reactive oxygen species(ROS) accumulation]. CD38 inhibition upregulated ME1 mRNA level ( P<0.05). ME1 suppression led to mitochondrial impairment (reduced membrane potential and elevated ROS) and senescence in T cells. Mechanistically, CD38 depletion increased NAD + levels and SIRT1 activity, while SIRT1/p53 inhibition rescued ME1 expression, suggesting CD38 regulates ME1 via the NAD + /SIRT1/p53 axis. Conclusions:The CD38/p53/ME1 axis drives T cell senescence in HIV infection by disrupting mitochondrial function. Targeting this pathway may ameliorate CD38-associated T cell dysfunction and immune aging.

Hungary, as the first European country to legislate TCM, its legislation experience has significant implications for the international development of TCM. This article reviewed the historical process of TCM legislation in Hungary, summarized its legislative achievements, and analyzed the problems encountered during the implementation process. It was found that the current challenges faced by TCM legislation in Hungary mainly include constraints from the dominance of modern medicine, restrictions from strict qualification requirements, insufficient public awareness, difficulties in TCM registration, and challenges in policy coordination and cooperation. Based on these findings, the article proposed countermeasures such as improving the legal framework, strengthening educational cooperation, enhancing public awareness, promoting the mutual recognition of standards between China and Europe, and deepening China-Hungary collaboration. These measures aim to further improve the legislation and implementation of TCM in Hungary, thereby promoting the healthy development of TCM in Hungary and the global service trade of TCM.

To review the clinical characteristics, short-term outcomes, and risk factors of patients with infective endocarditis(IE) who underwent surgical treatment at a single center, and to summarize treatment experience.

BACKGROUND:The energy metabolism and polarization state of macrophages play a crucial role in the progression of atherosclerosis.Traditional Chinese Medicine(TCM)has shown significant therapeutic potential for prevention and treatment of atherosclerosis by regulating macrophage metabolic pathways.OBJECTIVE:To review the research progress in AMP-activated protein kinase regulation of macrophage energy metabolism and polarization and explore the mechanism of TCM in the prevention and treatment of atherosclerosis.METHODS:A computerized search was conducted on the databases including Web of Science,PubMed,and CNKI,covering relevant literature up to June 2024.The search terms were"AMPK,fatty acid oxidation,macrophage polarization,Traditional Chinese Medicine,atherosclerosis,coronary heart disease"in Chinese and English.A total of 62 articles were finally included for review.RESULTS AND CONCLUSION:The shiftin macrophage energy metabolism from oxidative phosphorylation to glycolysis plays a key role in the progression of atherosclerosis.The activation of AMP-activated protein kinase in macrophages promotes fatty acid oxidation and M2 polarization,exerting anti-inflammatory effects and stabilizing arterial plaques.TCM monomers(such as ginseng,astragalus,and polygonatum)and compounds(such as Huanglian Jiedu Decoction,Yangxin Shumai Granules,and Tiaogan Daozhuo Formula)influence macrophage metabolism and cellular function by regulating the AMP-activated protein kinase pathway and intervening in multiple signaling pathways,such as nuclear factor-κB,peroxisome proliferator-activated receptor γ,and mammalian target of rapamycin,thereby achieving therapeutic effects.Future research should focus on the interactions between AMP-activated protein kinase,metabolism,and polarization pathways,as well as how TCM exerts its therapeutic effects through these pathways,providing new strategies for the treatment of atherosclerosis.

Objective To establish a model of indirectly induced respiratory tract infection with influenza A subtypes H1N1 and H3N2 in animals,to screen influenza virus hosts,and to provide theoretical support for the clinical control of influenza viruses.Methods Fifty BALB/c mice and 50 Hartley guinea pigs were randomly divided into five groups(10 animals/group for each species):normal control group,virus infects 1 group,virus infects 2 group,close transmission 1 group,and close transmission 2 group.Mice and guinea pigs in virus infects 1 and 2 groups were administered influenza A(H1N1)and influenza A(H3N2)viruses via nasal drip.For both virus infects 1 and 2 groups,animals were housed together with those in the close transmission group at a 1∶1 ratio on the following day.On day 7,the lung function,viral titer and viral load of the nasal tissue,trachea,and lung tissue of each group were measured,and pathological changes of the trachea and lung tissue of animals in the close transmission group were evaluated.Results In mice,the viral titers and viral loads of nasal,tracheal,and lung tissues of virus infects 1 and 2 and the closely transmitted groups 1 and 2 were significantly higher(P＜0.01),pathological scores of the trachea and lung tissues were significantly higher(P＜0.01),and the FVC and FEV20 of virus infects l and 2 groups were significantly lower(P＜0.01)than those in the normal control group.The nasal tissue,trachea and lung tissues of guinea pigs in virus infects 1 and 2 groups and close transmission groups 1 and 2 showed significantly higher viral titers and viral loads(P＜0.01),significantly higher trachea and lung histopathological scores(P＜0.01),and significantly lower FVC and FEV200(P＜0.01)than those of the normal control group.Conclusions In this study,influenza A subtypes H1N1 and H3N2 were used to indirectly induce respiratory tract infections in mice and guinea pigs for analyses of animal lung function,respiratory viral titers,viral load,and pathology.The animal models of the indirect transmission of influenza viruses in the respiratory tract had certain limitations;for example,influenza viruses were transmitted less efficiently among mice than among guinea pigs.The guinea pig model was stable.These findings confirm that guinea pigs are suitable hosts for efficient virus replication and transmission.

Depression,as a severe psychological and psychiatric disorder,significantly impairs the long-term physical and mental health of patients.Current depression detection methods are plagued by strong subjectivity,limited techniques,and inadequate intelligence.Previous studies have mostly relied on single-modal signal analysis,making it difficult to comprehensively reflect the multidimensional characteristics of depression.Based on the independently developed intelligent depression detection system,wearable devices are used to collect prefrontal dual-lead EEG signals,PPG signals,and single-lead ECG signals.Data from 30 patients with depression and 40 healthy controls are collected and analyzed.A multimodal depression recognition model named RBLF-Net is proposed,which integrates spatiotemporal features,weighted attention,and random forests to utilize the multi-signal features for depression recognition.The model exhibits superior performance in the five-fold cross-validation,achieving a classification accuracy of 81.43%,a precision of 81.02%,and a recall rate of 81.25%,outperforming other comparative models,and thus providing an intelligent analysis approach for depression recognition from the perspective of multi-modal fusion.

Objective To establish a model of indirectly induced respiratory tract infection with influenza A subtypes H1N1 and H3N2 in animals,to screen influenza virus hosts,and to provide theoretical support for the clinical control of influenza viruses.Methods Fifty BALB/c mice and 50 Hartley guinea pigs were randomly divided into five groups(10 animals/group for each species):normal control group,virus infects 1 group,virus infects 2 group,close transmission 1 group,and close transmission 2 group.Mice and guinea pigs in virus infects 1 and 2 groups were administered influenza A(H1N1)and influenza A(H3N2)viruses via nasal drip.For both virus infects 1 and 2 groups,animals were housed together with those in the close transmission group at a 1∶1 ratio on the following day.On day 7,the lung function,viral titer and viral load of the nasal tissue,trachea,and lung tissue of each group were measured,and pathological changes of the trachea and lung tissue of animals in the close transmission group were evaluated.Results In mice,the viral titers and viral loads of nasal,tracheal,and lung tissues of virus infects 1 and 2 and the closely transmitted groups 1 and 2 were significantly higher(P＜0.01),pathological scores of the trachea and lung tissues were significantly higher(P＜0.01),and the FVC and FEV20 of virus infects l and 2 groups were significantly lower(P＜0.01)than those in the normal control group.The nasal tissue,trachea and lung tissues of guinea pigs in virus infects 1 and 2 groups and close transmission groups 1 and 2 showed significantly higher viral titers and viral loads(P＜0.01),significantly higher trachea and lung histopathological scores(P＜0.01),and significantly lower FVC and FEV200(P＜0.01)than those of the normal control group.Conclusions In this study,influenza A subtypes H1N1 and H3N2 were used to indirectly induce respiratory tract infections in mice and guinea pigs for analyses of animal lung function,respiratory viral titers,viral load,and pathology.The animal models of the indirect transmission of influenza viruses in the respiratory tract had certain limitations;for example,influenza viruses were transmitted less efficiently among mice than among guinea pigs.The guinea pig model was stable.These findings confirm that guinea pigs are suitable hosts for efficient virus replication and transmission.

BACKGROUND:The energy metabolism and polarization state of macrophages play a crucial role in the progression of atherosclerosis.Traditional Chinese Medicine(TCM)has shown significant therapeutic potential for prevention and treatment of atherosclerosis by regulating macrophage metabolic pathways.OBJECTIVE:To review the research progress in AMP-activated protein kinase regulation of macrophage energy metabolism and polarization and explore the mechanism of TCM in the prevention and treatment of atherosclerosis.METHODS:A computerized search was conducted on the databases including Web of Science,PubMed,and CNKI,covering relevant literature up to June 2024.The search terms were"AMPK,fatty acid oxidation,macrophage polarization,Traditional Chinese Medicine,atherosclerosis,coronary heart disease"in Chinese and English.A total of 62 articles were finally included for review.RESULTS AND CONCLUSION:The shiftin macrophage energy metabolism from oxidative phosphorylation to glycolysis plays a key role in the progression of atherosclerosis.The activation of AMP-activated protein kinase in macrophages promotes fatty acid oxidation and M2 polarization,exerting anti-inflammatory effects and stabilizing arterial plaques.TCM monomers(such as ginseng,astragalus,and polygonatum)and compounds(such as Huanglian Jiedu Decoction,Yangxin Shumai Granules,and Tiaogan Daozhuo Formula)influence macrophage metabolism and cellular function by regulating the AMP-activated protein kinase pathway and intervening in multiple signaling pathways,such as nuclear factor-κB,peroxisome proliferator-activated receptor γ,and mammalian target of rapamycin,thereby achieving therapeutic effects.Future research should focus on the interactions between AMP-activated protein kinase,metabolism,and polarization pathways,as well as how TCM exerts its therapeutic effects through these pathways,providing new strategies for the treatment of atherosclerosis.

Depression,as a severe psychological and psychiatric disorder,significantly impairs the long-term physical and mental health of patients.Current depression detection methods are plagued by strong subjectivity,limited techniques,and inadequate intelligence.Previous studies have mostly relied on single-modal signal analysis,making it difficult to comprehensively reflect the multidimensional characteristics of depression.Based on the independently developed intelligent depression detection system,wearable devices are used to collect prefrontal dual-lead EEG signals,PPG signals,and single-lead ECG signals.Data from 30 patients with depression and 40 healthy controls are collected and analyzed.A multimodal depression recognition model named RBLF-Net is proposed,which integrates spatiotemporal features,weighted attention,and random forests to utilize the multi-signal features for depression recognition.The model exhibits superior performance in the five-fold cross-validation,achieving a classification accuracy of 81.43%,a precision of 81.02%,and a recall rate of 81.25%,outperforming other comparative models,and thus providing an intelligent analysis approach for depression recognition from the perspective of multi-modal fusion.

Objective:To investigate the role of the CD38/p53/ME1 axis in regulating T cell mitochondrial function and senescence during HIV infection.Methods:The expression of CD38 on T cells was examined in HIV-infected individuals receiving antiretroviral therapy(ART), untreated HIV-infected individuals, and HIV-negative healthy controls. Flow cytometry was used to compare senescence markers and mitochondrial function between CD38 + and CD38 - T cells. Malic enzyme 1(ME1) mRNA levels were measured by qRT-PCR in T cells treated with the CD38 inhibitor 78c. Mitochondrial function and senescence were assessed in T cells treated with an ME1 inhibitor. The regulatory mechanism of CD38-mediated ME1 downregulation was further explored. Results:Compared to healthy controls, T cells from HIV-infected individuals exhibited significantly elevated CD38 expression, which persisted despite ART. CD38 + T cells showed increased senescence (CD28 -CD57 + subset) and mitochondrial dysfunction[depolarization and reactive oxygen species(ROS) accumulation]. CD38 inhibition upregulated ME1 mRNA level ( P<0.05). ME1 suppression led to mitochondrial impairment (reduced membrane potential and elevated ROS) and senescence in T cells. Mechanistically, CD38 depletion increased NAD + levels and SIRT1 activity, while SIRT1/p53 inhibition rescued ME1 expression, suggesting CD38 regulates ME1 via the NAD + /SIRT1/p53 axis. Conclusions:The CD38/p53/ME1 axis drives T cell senescence in HIV infection by disrupting mitochondrial function. Targeting this pathway may ameliorate CD38-associated T cell dysfunction and immune aging.