Objective To investigate the inhibitory effect of antimicrobial peptide WK-13-3D on the proliferation of triple negative breast cancer MDA-MB-231 cells and its potential mechanism.Methods The effect of antimicrobial peptide WK-13-3D at concentrations of 0,10,15,20,25,30,35,and 40 μmol/L on MDA-MB-231 cells proliferation was assessed using the CCK-8 assay.A pull-down assay was conducted to identify interacting proteins of antimicrobial peptide WK-13-3D with MDA-MB-231 cells.MDA-MB-231 cells were obtained and divided into the following groups:(1)control group and treatment groups with 10 and 20 μmol/L antimicrobial peptide WK-13-3D.Apoptosis was evaluated using flow cytometry and Western blotting was conducted to detect the expression change of heavy chain binding protein(BiP),protein kinase R-like endoplasmic reticulum kinase(PERK),eukaryotic translation initiation factor 2α(eIF2α),phosphorylated eIF2α(p-eIF2α),and Bax proteins within the cells.(2)Control group(transfected with no-load plasmid),si-BiP-592 group(transfected with si-BiP-592 interference plasmid)and si-BiP-592+WK-13-3D group(co-treated with si-BiP-592 interference plasmid and 10 μmol/L antimicrobial peptide WK-13-3D).Western blotting was used to detect the expression changes of BiP,PERK,eIF2α,p-eIF2α and Bax proteins.Twelve BALB/c mice were randomly divided into PBS group(n=4),taxol(TAX)group(n=4)and WK-13-3D group(n=4).All mice were subcutaneously injected with MDA-MB-231 cells to establish a triple-negative breast cancer transplant tumor model.WK-13-3D group received local injections of antimicrobial peptide WK-13-3D[200 mg/(kg·d)],TAX group was administered TAX intraperitoneally at the same dose[200 mg/(kg·d)],and PBS group was injected with an equivalent volume of PBS.Two weeks post-injection,the mice were killed,and the tumor weight and volume were measured and photographed.Immunohistochemistry staining was performed to evaluate the expressions of BiP and Ki-67 proteins in the tumor tissues.Results CCK-8 assay showed a gradual decrease in MDA-MB-231 cell survival rates with increasing concentrations of WK-13-3D,with an inhibitory concentration 50(IC50)of 19.82 μmol/L.The pull-down assay identified 268 interacting proteins of antimicrobial peptides and MDA-MB-231 cells,mainly including heavy-chain binding protein(BiP),heat shock protein 90 beta family member 1(HSP90B1),valerin-containing protein(VCP),heat shock cognate 71 kD protein(HSPA8).Compared with control group,treatment with 10 and 20 μmol/L antimicrobial peptide WK-13-3D significantly increased the apoptosis rate of MDA-MB-231 cells(P<0.05 or P<0.01),decreased BiP protein expression(P<0.05),and increased the expression levels of PERK,p-eIF2α,and Bax(P<0.05 or P<0.01),with no significant change in eIF2α protein expression(P>0.05).Compared with control group,si-BiP-592 group showed BiP protein expression significantly decreased(P<0.05),and the expression of PERK,p-eIF2α,and Bax proteins was significantly increased(P<0.05),with no significant change in eIF2α protein expression(P>0.05);Compared with si-BiP-592 group,si-BiP-592+WK-13-3D group showed a decrease in BiP protein expression(P<0.05)and an increase in PERK,p-eIF2α,and Bax protein expression(P<0.05 or P<0.01),with no significant change in eIF2α protein expression(P>0.05).Tumor volumes in mice treated with antimicrobial peptide WK-13-3D and TAX were significantly smaller than those in PBS group(P<0.05),and the immunohistochemical staining showed that the proportion of Ki-67 and BiP positive cells in tumor tissues of WK-13-3D treated mice was significantly lower than that in PBS group(P<0.01).Conclusion Antimicrobial peptide WK-13-3D could inhibit the proliferation of MDA-MB-231 cells and its mechanism may involve the activation of endoplasmic reticulum stress and the induction of cell apoptosis.

Objective To comparatively analyze the clinical characteristics of primary bilateral macronodular adrenal hyperplasia(PBMAH)and adrenal cortisol-producing Adenoma(CPA),and enhance the understanding of two diseases.Methods The clinical data of 85 PBMAH patients(PBMAH group)and 195 CPA patients(CPA group)diagnosed at Department of Endocrinology,the First Medical Center of Chinese PLA General Hospital,from September 2014 to August 2024 were retrospectively analyzed.The demographic characteristics,comorbidities,biochemical indicators,adrenocorticotropic hormone-cortisol(ACTH-F)levels,and adrenal imaging features and treatment conditions were compared between the two groups.Results(1)General characteristics:Compared with CPA group,PBMAH group had older age at diagnosis and a higher proportion of male patients.(2)Clinical characteristics:Compared with CPA group,PBMAH group had a longer disease duration,a higher proportion of subclinical Cushing's syndrome(CS),and a higher proportion of hypertension,impaired glucose tolerance/diabetes,bone mass reduction or osteoporosis,with higher serum potassium levels,and the differences were statistically significant(P<0.01).(3)Hormone levels:Both PBMAH and CPA groups showed ACTH-F rhythm disorder,significantly increased cortisol levels and suppressed ACTH.Compared with PBMAH group,CPA group had stronger autonomous cortisol secretion ability,manifested by increased midnight serum cortisol(F0:00),16:00 serum cortisol(F16:00),24-hour urinary free cortisol(24 h UFC)levels and lower 8:00 serum ACTH(ACTH8:00)and 16:00 serum ACTH(ACTH16:00)(P<0.01).After low-dose dexamethasone suppression test(LDDST),CPA group showed lower suppression rates of ACTH and cortisol,and higher proportions of paradoxical elevation in serum cortisol and 24 h UFC compared with PBMAH(P<0.01).Conclusions PBMAH has a longer disease course and higher proportions of comorbid metabolic disorders than CPA,mostly manifested as subclinical Cushing's syndrome.CPA has stronger autonomous cortisol secretion ability,with cortisol less likely to be suppressed after LDDST and more obvious paradoxical elevation of cortisol and 24 h UFC.

Objective To explore the effects of different glucose concentrations on the synthesis and secretion of bone collagen in osteoblasts and the impact of diabetes on bone quality in mice.Methods(1)Primary osteoblasts were extracted from the skulls of neonatal mice via collagenase digestion and cultured in four groups under different glucose concentrations:normal glucose(5.5 mmol/L),moderate glucose(11.5 mmol/L),moderate-high glucose(16.5 mmol/L),and high glucose(25 mmol/L).EdU staining was performed to evaluate cell proliferation,while the Transwell assay was used to assess cell migration.Immunofluorescence and Western blotting were performed to detect and quantitatively analyze the content of type Ⅰ collagen(Col-1).Alizarin red S(ARS)staining and alkaline phosphatase(ALP)staining were applied to assess the effects of different glucose concentrations on osteogenic differentiation.(2)Six-week-old male C57BL/6 mice were randomly divided into control group and model group(5 in each group).The model group was fed a high-fat diet for 4 weeks followed by streptozotocin(STZ)injection to establish a diabetic mouse model.The osteogenic differentiation capacity of primary osteoblasts from both groups was assessed.(3)Micro-computed tomography(Micro-CT)was employed to analyze femoral bone mineral density(BMD),bone volume/tissue volume(BV/TV),trabecular number(Tb.N),and trabecular separation(Tb.Sp).Three-point bending test was conducted to evaluate mechanical parameters including maximum load,Young's modulus,fracture energy,and stiffness.RT-qPCR was employed to assess the expression of osteogenic differentiation genes(Alp,Opn,Col1a1,and Lox).Masson staining and Mallory staining were used to evaluate Col-1 content in trabecular bone.Results(1)EdU and Transwell assay results demonstrated that with the gradual increase in glucose concentration,the proliferation and migration abilities of osteoblasts were significantly decreased(P<0.001),and the protein expression levels of Col-1 and lysyl oxidase(LOX)were significantly reduced(P<0.01 or P<0.001).ARS and ALP staining revealed that calcium salt deposition and ALP activity in osteoblasts were significantly decreased with increasing glucose concentration(P<0.05 or P<0.001).(2)Compared with control group,mice in model group exhibited typical"three polies and one weight loss"symptoms(polyuria,polydipsia,polyphagia,and weight loss)of diabetes,and ARS and ALP staining showed a significant reduction in osteoblasts(P<0.001).(3)Micro-CT and three-point bending test results indicated that,compared with control group,mice in model group showed microarchitectural deterioration of bone,decreased Tb.N,increased Tb.Sp,and significantly reduced maximum load,Young's modulus,fracture energy,and stiffness(P<0.05).RT-qPCR results showed that the relative mRNA expression levels of osteogenic differentiation genes(Alp,Opn,Col1a1,and Lox)were significantly decreased in model group compared with control group(P<0.01 or P<0.001).Masson and Mallory staining indicated a significant reduction in collagen content in model group compared with control group(P<0.01).Conclusions High-glucose environment inhibits osteoblast proliferation,differentiation,and migration.Diabetic mice exhibit reduced bone quality and increased bone fragility,potentially mediated by decreased lysyl oxidase and collagen levels.

Objective To explore the neuroprotective effects and mechanisms of the sesquiterpene lactone compound ACT001 on rotenone(ROT)-induced Parkinson's disease(PD)model mouse.Methods SPF C57BL/6 mice were randomly divided into 6 groups,including control group,solvent control group,ROT model group,ACT001 5 mg/kg group(ROT+ACT001-5),ACT001 20 mg/kg group(ROT+ACT001-20),and levodopa(L-dopa)positive control group(ROT+L-dopa),with 9 mice in each group.The control group received an equivalent amount of intraperitoneal injection of saline,the solvent control group received an equivalent amount of rotenone solvent without rotenone,the remaining groups of mice were used to establish a PD mouse model by intraperitoneal injection of rotenone.Mice in different ACT001 dosage groups received intraperitoneal injections of high and low doses of ACT001,while the positive control group received levodopa intraperitoneally for 15 consecutive days.Behavioral changes in mice were assessed using open field,rotarod,pole-climbing,and balance beam tests.Immunofluorescence(IF)assay to detect the expression of tyrosine hydroxylase(TH)neurons,content of TH-positive fibers in the striatum and to detect the activation status of nigrostriatal microglia in the mouse midbrain;Real-time PCR was employed to measure the levels of interleukin(IL)-6,IL-1β,and tumor necrosis factor-α(TNF-α)in the substantia nigra of the mouse brain.Western blotting was used to measure the protein levels of TH,nuclear factor-κB(NF-κB)p65,NF-κB inhibitor α(IκBα),and phosphorylated IκBα(p-IκBα)in the substantia nigra of the mouse brain.Results Compared to the control group and the solvent control group,the rotenone-induced PD model group exhibited motor impairments in behavioral tests,a decrease in the number of TH positive neurons in the substantia nigra(P＜0.0001),decreased levels of TH-positive fibers in the striatum,activation of midbrain substantia microglia,and elevated levels of IL-6,IL-1β,TNF-α,p-IκBα,and NF-κB p65 expression.ACT001 significantly improved the behavioral impairments and substantia nigra damage in PD mice,increased the number of TH-positive neurons in the substantia nigra,increased levels of TH-positive fibers in the striatum,inhibition of microglial cell activation in the midbrain substantia nigra,and elevated the protein expression levels of IκBα while reducing the levels of IL-6,IL-1β,TNF-α,p-IκBα,and NF-κB p65 in the substantia nigra(P＜0.05).At a dose of 5 mg/kg,ACT001 significantly improved behavioral impairments in rotenone-induced PD mice,reduced the loss of dopaminergic neurons,and its mechanism may be related to the inhibition of the NF-κB signaling pathway and the suppression of inflammation.In summary,the intervention of ACT001 in the rotenone-induced PD mouse model inhibited the inflammatory response in the midbrain,increased the number of TH-positive neurons,and augmented the population of dopaminergic neurons in the substantia nigra,exerting a protective effect on neurons.Conclusion ACT001 significantly improves behavioral deficits in ROT-induced PD mice,ameliorates of dopaminergic neuron loss from the midbrain substantia nigra and striatum,inhibits the activation of nigrostriatal microglia in the midbrain,and suppresses inflammatory responses by inhibiting the activation of the NF-κB signaling pathway.

Objective To develop an active monitoring model for adverse drug events(ADEs)related to antimicrobial use in children based on the China hospital pharmacovigilance system(CHPS).Methods Trigger items for the active monitoring model were initially drafted through a review of relevant literature,adverse reaction databases,and drug label warnings,and subsequently refined using the Delphi method.A retrospective analysis was performed on pediatric inpatients who received antibiotics at Anning First People's Hospital between January 1 and December 31,2024.The detection rate and positive predictive value(PPV)of the active monitoring model were calculated and compared with spontaneous ADE reports from the same period.Risk factors for ADEs were further analyzed using logistic regression.Results 25 trigger items were established for the active monitoring model.Among 1,784 cases,233 ADEs were identified,yielding a detection rate of 13.06%(233/1,784).The spontaneous reporting rate of adverse events during the same period was 1.85%(33/1,784).The difference between the two was statistically significant(P<0.001).There were 727 positive trigger events,with 299 cases of ADE detected,resulting in an overall PPV of 41.13%(299/727).Logistic regression revealed that antibiotic use exceeding 3 days(OR=1.454,95%CI:1.012-2.088)was significantly associated with ADE occurrence.Conclusion Compared with conventional spontaneous reporting,the active monitoring model can significantly improve the detection rate of ADEs of pediatric antimicrobial drugs and achieve active and real-time monitoring of drug adverse events.

Aim To investigate the preventive and therapeutic effect of crocetin(Cro)on acute intestinal injury induced by radiation(RT)and its related mech-anism.Methods Forty mice were randomly divided into four groups:control group,radiation group(RT group),low-dose Cro intervention group(RT+Low-dose Cro group)and high-dose Cro intervention group(RT+High-dose Cro group).The RT group was given a single dose of 12Gy radiation to the abdomen.The Cro intervention group was treated with 25 mg·kg-1 and 100 mg·kg-1 Cro by gavage once a day before ra-diation until seven days after radiation.The mice in each group were weighed.The morphology of intestinal tissue was observed by HE staining.The levels of in-testinal inflammatory factors and oxidative stress were detected.The expressions of Lgr5,Ki67,lysozyme,ZO-1 and Occludin in small intestine tissuewere detected by immunohistochemistry.The expressions of Nrf2/HO-1 and NF-κB signaling related proteinswere detected by Western blot.Results Compared to the control group,mice in the RT group exhibited a significant decrease in body weight(P＜0.01).Additionally,they dis-played evident morphological damage to the small in-testine and elevated levels of pro-inflammatory factors(TNF-α,IL-6)as well as oxidative stress markers(in-creased ROS and MDA levels,decreased GSH and SOD activities)(P＜0.01).Moreover,there was an in-crease in Lgr5 and Ki67 positive cells within the crypts(P＜0.01).The expressions of Occludin,lysozyme,ZO-1,and HO-1 were reduced in small intestine while Nrf2,p-p65,and p-IκB expressions increased(P＜0.01).The improvements in the Cro group were sig-nificantly greater than the RT group(P＜0.01),with a more pronounced effect observed in the high-dose group.Conclusions Cro has a preventive and thera-peutic effect on radiation-induced intestinal injury,and its mechanism is related to anti-inflammation,anti-oxi-dation,improvement of intestinal barrier function,pro-motion of intestinal stem cell regeneration,enhance-ment of Nrf2/HO-1 signaling and reduction of NF-κB signaling activity.

Diabetic nephropathy(DN)is a serious complication of diabetes mellitus and a leading cause of end-stage renal diseases.In DN patients,key pathological mechanisms include proteinuria,glomerulo-sclerosis,and fibrosis,largely driven by poor glycemic control and oxidative stress caused by prolonged hyperglycemia.This stress damages renal podocytes and triggers inflammatory mesenchymal infiltration of renal tubular cells,exacerbating the progression of proteinuria and fibrosis.Human umbilical cord-de-rived mesenchymal stem cells(hUC-MSCs)offer promising potential for treating DN due to their strong anti-oxidative properties.In this study,we developed a DN mouse model and treated the mouse via tail vein injections of hUC-MSCs(1×106 cells/mouse).The results indicated that hUC-MSCs significantly lowered fasting blood glucose levels(22.5±3.0 vs 14.7±1.1,P＜0.01)and improved glucose toler-ance,as shown by intraperitoneal glucose tolerance test(IPGTT)results(P＜0.05).Additionally,the renal function improved in hUC-MSCs-treated mice,with marked reductions in oxidative stress markers,including blood urea nitrogen(BUN),urinary creatinine(Ucr),urinary protein(PRO),superoxide dismutase(SOD),and malondialdehyde(MDA)(P＜0.05).Histological analyses through hematoxy-lin-eosin(H&E),Periodic Acid-Schiff(PAS),and Sirius red staining demonstrated alleviation of glo-merular mesangial hyperplasia,glomerular hypertrophy,and tubular inflammation.Furthermore,hUC-MSCs treatment downregulated the expression of oxidative stress-related proteins,such as NADPH oxi-dase 4(NOX4)and thioredoxin-interacting protein(TXNIP),and reduced reactive oxygen species(ROS)production(P＜0.05).Meanwhile,human renal cortical proximal tubule epithelial cells(HK-2 cells)were selected for validation in vitro experiments using high glucose treatment followed by super-natants of hUC-MSCs(MSC-CM),and Western blotting showed that the expression of both NOX4 and TXNIP was inhibited(P＜0.05)and ROS expression was reduced.In conclusion,hUC-MSC treatment effectively lowered blood glucose levels and improved renal function in DN mice,likely through the sup-pression of NOX4 expression and TXNIP-mediated oxidative stress.

Biomaterials provide a reliable and safe treatment for the repair of ear defects,especially microtia.With the continuous promotion of interdisciplinary research,the types and properties of materials used in auricle reconstruction have been greatly expanded and improved.In this paper,the latest research progress of polymer materials and tissue engineering scaffolds in the field of auricle reconstruction was reviewed,and the physical and chemical properties and clinical application effects of these scaffolds in vitro and in vivo were discussed.However,despite significant progress in ear stent research,there are still some challenges and limitations in the application of current polymer materials,such as the hydrophobicity of high-density polyethylene and the uncontrolled differen-tiation of stem cells in tissue engineering.Therefore,this paper discusses the research and clinical application of new modified materials,especially emphasizing the importance of surface modification technology and innovative synthesis strategies,so that the properties of modified materials are infinitely close to the characteristics of human ear cartilage.In addition,this paper also summarizes the control methods of stem cell differentiation in ear carti-lage tissue engineering.The application performance and biocompatibility of different ear scaffolds were reviewed in order to provide guidance for auricle reconstruction.

Aim To detect the non-coding RNA(ncRNA)expression profile of neuroglioma cells via whole transcriptome sequencing,establish the ceRNA network and reveal the molecular mechanism of ncRNA participating in the inhibition of neuroglioma cell prolif-eration by melatonin.Methods Neuroglioma cells were intervened with by 0,2,4,6 and 8 mmol·L-1 melatonin for 24,48 and 72 h,and the inhibitory effect of melatonin on cell proliferation was detected via CCK-8;after the intervention of 0 and 4 mmol·L-1 melatonin to U251 cells for 24 h,differentially ex-pressed miRNA(DEmiRNA),lncRNA(DElncRNA)and mRNA(DEmRNA)were detected through whole transcriptome sequencing,along with GO and KEGG enrichment analysis of DEmRNA;the ceRNA network was constructed,and the key gene expression of ceR-NA was verified through qRT-PCR.Results Melato-nin exerts a time-dose-dependent inhibitory effect on the proliferation of neuroglioma cells;a total of 5049 DEmRNA,635 DElncRNA and 146 DEmiRNA in 0 and 4 mmol·L-1 melatonin groups were screened out via whole transcriptome sequencing;DEmRNAs were mainly enriched in cancer-related signaling pathways,such as ferroptosis,mTOR signaling pathway,FoxO signaling pathway and cell cycle;the ceRNA network included 4 lncRNAs,3 miRNAs and 48 mRNAs.As verified through real-time PCR,the expressions of hsa-miR-129-5p,hsa-miR-362-5p,LINC00707 and SLC16A1-AS1 of U251 cells were consistent with the sequencing results,and the gene expression of U87 cells was basically consistent with the sequencing re-sults.Conclusions Melatonin affects cancer-related signaling pathways through the differential expression of ncRNA so as to inhibit the proliferation of U251 cells;the ceRNA network composed of LINC00707,SLC16A1-AS1,hsa-miR-129-5p and hsa-miR-362-5p may take a part in the molecular mechanism of melato-nin in inhibiting neuroglioma cell proliferation.