Liver ischemia-reperfusion injury (LIRI) is a pathological process involving multiple injury factors and cell types, with different stages. Currently, protective drugs targeting a single condition are limited in efficacy, and interventions on immune cells will also be accompanied by a series of side effects. In the current bottleneck research stage, the multi-target and obvious clinical efficacy of Chinese medicine (CM) is expected to become a breakthrough point in the research and development of new drugs. In this review, we summarize the roles of reactive oxygen species (ROS) and reactive nitrogen species (RNS) in various stages of hepatic ischemia-reperfusion and on various types of cells. Combined with the current research progress in reducing ROS/RNS with CM, new therapies and mechanisms for the treatment of hepatic ischemia-reperfusion are discussed.
Reperfusion Injury/drug therapy* ; Reactive Oxygen Species/metabolism* ; Reactive Nitrogen Species/metabolism* ; Humans ; Liver/drug effects* ; Animals ; Medicine, Chinese Traditional ; Drugs, Chinese Herbal/pharmacology*

Objective To investigate the anatomical and microscopic structures of interstitial fluid flow channels in the skin tissue of hand dorsum in human cadavers.Methods Totally 7 fresh cadavers within 12 hours post-mortem were included.MRI was used to observe the distribution of interstitial fluid flow from the first phalanx of the fingers to the wrist,precisely locating the flow channels.Based on imaging results,histological analyses were conducted to determine the histological characteristics of the flow channels.Furthermore,multi-immunofluorescence and microcomputed tomography(Micro-CT)techniques were employed to analyze the channels,and image post-processing was used to elucidate their anatomical structures at the microscopic level.Results After injecting a contrast agent into the first phalanx of ten finger specimens and applying repeated pressure,MRI image revealed centripetal long-range interstitial fluid flow along channels distinct from blood vessels and lymphatic vessels.Histological analysis and Micro-CT further confirmed that the flow primarily occurred within the fibrous connective tissue and adventitia of the skin.Conclusion The orderly fibrous connective tissue and adventitia in the skin form the interstitial fluid flow channels in the human hand dorsum skin,named as"stromal membrane channels"in the skin.

Aim To generate a dual-reporter mouse model for tracing microglia and neurons to analyze their dynamic changes in real-time and to investigate the functional role of microglia-neuron interactions through microglial depletion.Methods Mi-croglia reporter mice were crossed with neuron reporter mice to generate Tmem119-e(2A-tdTomato-2A-DTR);Thy1-GFP dual-reporter mice.Genotyping was performed using tail DNA.Con-focal and two-photon microscopy were used to examine neuronal morphology.In vivo two-photon imaging was employed to observe the distribution of microglia and neurons in the brain.Diphtheria toxin(DT)was intraperitoneally injected to deplete microglia.Results The dual-reporter mice were successfully generated with the correct genotype.Both microglia and neurons were visu-alized,and microglia were specifically depleted by DT.Conclu-sions The successful establishment of a dual-reporter mouse model for tracing neurons and microglia will facilitate real-time in vivo observation of microglial and neuronal changes under physiological or pathological conditions,elucidating their specific roles in brain homeostasis.

Cannabidiol(CBD),a major pharmacologically active phytocannabinoid found in cannabis,exhibits potent anti-inflam-matory activity through its multi-target actions.Furthermore,CBD derivatives with enhanced activity through structural modifi-cations are gaining increasing attention for their potential thera-peutic benefits.While reviews have explored the targets and pharmacological effects of CBD and its derivatives,and the struc-ture-activity relationship(SAR)of cannabinoid quinones regard-ing anticancer activity,a systematic summary of the SAR of CBD and its derivatives concerning anti-inflammatory activity is cur-rently lacking.This review therefore summarizes the research progress on the anti-inflammatory activity of CBD and its deriva-tives,focusing on their mechanisms of action,the impact of dif-ferent structural modifications on anti-inflammatory activity,and their potential applications in the treatment of inflammatory dis-eases.

Numerous studies have shown that depression is main-ly associated with the abnormal expression of connexin 43(Cx43)in astrocytes(Astro)and its mediated dysfunction of gap junction(GJ).However,the molecular mechanism of post-translational modifications targeting Cx43 to regulate neuroin-flammation-associated depression is still unclear.Post-transla-tional modifications of Cx43 mainly include phosphorylation of specific amino acid sites by PKC,PKA,PKG,MAPK and PTK,and protein degradation of Cx43 through the K48/K63 polyubiq-uitylation and deubiquitination pathways,which ultimately lead to protein degradation through K48/K63 polyubiquitination and deubiquitination.These modifications are ultimately involved in the regulation of neuroinflammatory responses through the associ-ation of GJ function.In this paper,we systematically review the role of Cx43 post-translational modifications in neuroinflamma-tion,with the aim of further exploring the potential application of targeting these modifications to modulate the inflammatory re-sponse mechanism in improving depressive symptoms.

Cannabidiol(CBD),a major pharmacologically active phytocannabinoid found in cannabis,exhibits potent anti-inflam-matory activity through its multi-target actions.Furthermore,CBD derivatives with enhanced activity through structural modifi-cations are gaining increasing attention for their potential thera-peutic benefits.While reviews have explored the targets and pharmacological effects of CBD and its derivatives,and the struc-ture-activity relationship(SAR)of cannabinoid quinones regard-ing anticancer activity,a systematic summary of the SAR of CBD and its derivatives concerning anti-inflammatory activity is cur-rently lacking.This review therefore summarizes the research progress on the anti-inflammatory activity of CBD and its deriva-tives,focusing on their mechanisms of action,the impact of dif-ferent structural modifications on anti-inflammatory activity,and their potential applications in the treatment of inflammatory dis-eases.

Numerous studies have shown that depression is main-ly associated with the abnormal expression of connexin 43(Cx43)in astrocytes(Astro)and its mediated dysfunction of gap junction(GJ).However,the molecular mechanism of post-translational modifications targeting Cx43 to regulate neuroin-flammation-associated depression is still unclear.Post-transla-tional modifications of Cx43 mainly include phosphorylation of specific amino acid sites by PKC,PKA,PKG,MAPK and PTK,and protein degradation of Cx43 through the K48/K63 polyubiq-uitylation and deubiquitination pathways,which ultimately lead to protein degradation through K48/K63 polyubiquitination and deubiquitination.These modifications are ultimately involved in the regulation of neuroinflammatory responses through the associ-ation of GJ function.In this paper,we systematically review the role of Cx43 post-translational modifications in neuroinflamma-tion,with the aim of further exploring the potential application of targeting these modifications to modulate the inflammatory re-sponse mechanism in improving depressive symptoms.

Aim To generate a dual-reporter mouse model for tracing microglia and neurons to analyze their dynamic changes in real-time and to investigate the functional role of microglia-neuron interactions through microglial depletion.Methods Mi-croglia reporter mice were crossed with neuron reporter mice to generate Tmem119-e(2A-tdTomato-2A-DTR);Thy1-GFP dual-reporter mice.Genotyping was performed using tail DNA.Con-focal and two-photon microscopy were used to examine neuronal morphology.In vivo two-photon imaging was employed to observe the distribution of microglia and neurons in the brain.Diphtheria toxin(DT)was intraperitoneally injected to deplete microglia.Results The dual-reporter mice were successfully generated with the correct genotype.Both microglia and neurons were visu-alized,and microglia were specifically depleted by DT.Conclu-sions The successful establishment of a dual-reporter mouse model for tracing neurons and microglia will facilitate real-time in vivo observation of microglial and neuronal changes under physiological or pathological conditions,elucidating their specific roles in brain homeostasis.

Central nervous system(CNS)degenerative disorders refer to a spectrum of pathological alterations triggered by struc-tural damage to cerebral neural tissues,clinically manifested as diverse neurological dysfunction syndromes,including multiple sclerosis(MS),neurodegenerative diseases(NDs),and ische-mic stroke.The hallmark pathological features of these disorders involve irreversible neuronal damage and decompensation of functional neural networks,ultimately leading to progressive neurological deficits.Notably,with the accelerating global popu-lation aging,the incidence of these diseases has surged signifi-cantly.According to WHO statistics,they now rank among the top three global causes of disability and mortality.Current re-search has confirmed that the pathogenesis of CNS degenerative disorders exhibits high heterogeneity,encompassing multifaceted pathophysiological processes such as genetic predisposition,oxi-dative stress,protein misfolding,and metabolic dysregulation.This intricate pathogenic network not only complicates clinical differential diagnosis but also poses substantial challenges to the development of precision therapeutic strategies.Importantly,re-cent studies have revealed that mitochondrial homeostasis disrup-tion-induced inflammatory cascades(termed mitochondrial in-flammation)play a pivotal regulatory role in neurodegenerative progression.Key molecular mechanisms include impaired mito-phagy,aberrant mitochondrial DNA(mtDNA)release and NL-RP3 inflammasome activation.This review systematically deci-phers the molecular regulatory network of mitochondrial inflam-mation,with a focus on its biological effects in critical pathologi-cal events such as blood-brain barrier disruption,microglial hy-peractivation and neuronal apoptosis.The overarching aim is to provide a theoretical foundation for developing innovative thera-peutic strategies targeting mitochondrial homeostasis restoration.

Depression,characterized by high incidence,high re-lapse rate and high suicide rate,is an affective disorder mainly characterized by low mood and often accompanied by suicidal tendency,which seriously endangers human health.In recent years,more and more evidence suggests that microglia regulate synaptic plasticity and play an important role in depression.Here we outline the recent research progress of microglia regula-ting synaptic plasticity to exert antidepressant effects,focusing on three main types of molecular signals regulating synaptic pruning in microglia,including"Find Me"signaling,"Eat Me"signaling and"Don't Eat Me"signaling.By reviewing recent studies on how microglia regulate synaptic plasticity in depression,hopeful-ly,the understanding of microglia-mediated synaptic plasticity can be strengthened,which can help to provide new strategies for the treatment of depression by targeting microglia or microglia-associated signaling pathways.