Deep Transfers of p-Class Tower Groups

Let p be a prime. For any finite p-group G, the deep transfers T H,G ' : H / H ' → G ' / G " from the maximal subgroups H of index (G:H) = p in G to the derived subgroup G ' are introduced as an innovative tool for identifying G uniquely by means of the family of kernels ùd(G) =(ker(T H,G ')) (G: H) = p. For all finite 3-groups G of coclass cc(G) = 1, the family ùd(G) is determined explicitly. The results are applied to the Galois groups G =Gal(F3 (∞)/ F) of the Hilbert 3-class towers of all real quadratic fields F = Q(√d) with fundamental discriminants d > 1, 3-class group Cl3(F) □ C3 × C3, and total 3-principalization in each of their four unramified cyclic cubic extensions E/F. A systematic statistical evaluation is given for the complete range 1 d 7, and a few exceptional cases are pointed out for 1 d 8.

LEF1 influences diabetic retinopathy and retinal pigment epithelial cell ferroptosis via the miR-495-3p/GRP78 axis through lnc-MGC

BACKGROUND Diabetic retinopathy(DR)is one of the major eye diseases contributing to blindness worldwide.Endoplasmic reticulum(ER)stress in retinal cells is a key factor leading to retinal inflammation and vascular leakage in DR,but its mechanism is still unclear.AIM To investigate the potential mechanism of LEF1 and related RNAs in DR.METHODS ARPE-19 cells were exposed to high levels of glucose for 24 hours to simulate a diabetic environment.Intraperitoneally injected streptozotocin was used to induce the rat model of DR.The expression levels of genes and related proteins were measured by RT-qPCR and Western blotting;lnc-MGC and miR-495-3p were detected by fluorescent in situ hybridization;CCK-8 and TUNEL assays were used to detect cell viability and apoptosis;enzyme-linked immunosorbent assay was used to detect inflammatory factors;dual-luciferase gene assays were used to verify the targeting relationship;and the retina was observed by HE staining.RESULTS LEF1 and lnc-MGC have binding sites,and lnc-MGC can regulate the miR-495-3p/GRP78 molecular axis.In high glucose-treated cells,inflammation was aggravated,the intracellular reactive oxygen species concentration was increased,cell viability was reduced,apoptosis was increased,the ER response was intensified,and ferroptosis was increased.As an ER molecular chaperone,GRP78 regulates the ER and ferroptosis under the targeting of miR-495-3p,whereas inhibiting LEF1 can further downregulate the expression of lnc-MGC,increase the level of miR-495-3p,and sequentially regulate the level of GRP78 to alleviate the occurrence and development of DR.Animal experiments indicated that the knockdown of LEF1 can affect the lnc-MGC/miR-495-3p/GRP78 signaling axis to restrain the progression of DR.CONCLUSION LEF1 knockdown can regulate the miR-495-3p/GRP78 molecular axis through lnc-MGC,which affects ER stress and restrains the progression of DR and ferroptosis in retinal pigment epithelial cells.

Successive Approximation of p-Class Towers

Let F be a number field and p be a prime. In the successive approximation theorem, we prove that, for each integer n ≥ 1, finitely many candidates for the Galois group of the nth stage of the p-class tower over F are determined by abelian type invariants of p-class groups C1pE of unramified extensions E/F with degree [E : F] = pn-1. Illustrated by the most extensive numerical results available currently, the transfer kernels (TE, F) of the p-class extensions TE, F : C1pF → C1pE from F to unramified cyclic degree-p extensions E/F are shown to be capable of narrowing down the number of contestants significantly. By determining the isomorphism type of the maximal subgroups S G of all 3-groups G with coclass cc(G) = 1, and establishing a general theorem on the connection between the p-class towers of a number field F and of an unramified abelian p-extension E/F, we are able to provide a theoretical proof of the realization of certain 3-groups S with maximal class by 3-tower groups of dihedral fields E with degree 6, which could not be realized up to now.

Effects of P301L-TAU on post-translational modifications of microtubules in human iPSC-derived cortical neurons and TAU transgenic mice

TAU is a microtubule-associated protein that promotes microtubule assembly and stability in the axon.TAU is missorted and aggregated in an array of diseases known as tauopathies.Microtubules are essential for neuronal function and regulated via a complex set of post-translational modifications,changes of which affect microtubule stability and dynamics,microtubule interaction with other proteins and cellular structures,and mediate recruitment of microtubule-severing enzymes.As impairment of microtubule dynamics causes neuronal dysfunction,we hypothesize cognitive impairment in human disease to be impacted by impairment of microtubule dynamics.We therefore aimed to study the effects of a disease-causing mutation of TAU(P301L)on the levels and localization of microtubule post-translational modifications indicative of microtubule stability and dynamics,to assess whether P301L-TAU causes stability-changing modifications to microtubules.To investigate TAU localization,phosphorylation,and effects on tubulin post-translational modifications,we expressed wild-type or P301L-TAU in human MAPT-KO induced pluripotent stem cell-derived neurons(i Neurons)and studied TAU in neurons in the hippocampus of mice transgenic for human P301L-TAU(p R5 mice).Human neurons expressing the longest TAU isoform(2N4R)with the P301L mutation showed increased TAU phosphorylation at the AT8,but not the p-Ser-262 epitope,and increased polyglutamylation and acetylation of microtubules compared with endogenous TAU-expressing neurons.P301L-TAU showed pronounced somatodendritic presence,but also successful axonal enrichment and a similar axodendritic distribution comparable to exogenously expressed 2N4R-wildtype-TAU.P301L-TAU-expressing hippocampal neurons in transgenic mice showed prominent missorting and tauopathy-typical AT8-phosphorylation of TAU and increased polyglutamylation,but reduced acetylation,of microtubules compared with non-transgenic littermates.In sum,P301L-TAU results in changes in microtubule PTMs,suggestive of impairment of microtubule stability.This is accompanied by missorting and aggregation of TAU in mice but not in i Neurons.Microtubule PTMs/impairment may be of key importance in tauopathies.

Designing Electronic Structures of Multiscale Helical Converters for Tailored Ultrabroad Electromagnetic Absorption

Atomic-scale doping strategies and structure design play pivotal roles in tailoring the electronic structure and physicochemical property of electromagnetic wave absorption(EMWA)materials.However,the relationship between configuration and electromagnetic(EM)loss mechanism has remained elusive.Herein,drawing inspiration from the DNA transcription process,we report the successful synthesis of novel in situ Mn/N co-doped helical carbon nanotubes with ultrabroad EMWA capability.Theoretical calculation and EM simulation confirm that the orbital coupling and spin polarization of the Mn–N4–C configuration,along with cross polarization generated by the helical structure,endow the helical converters with enhanced EM loss.As a result,HMC-8 demonstrates outstanding EMWA performance,achieving a minimum reflection loss of−63.13 dB at an ultralow thickness of 1.29 mm.Through precise tuning of the graphite domain size,HMC-7 achieves an effective absorption bandwidth(EAB)of 6.08 GHz at 2.02 mm thickness.Furthermore,constructing macroscale gradient metamaterials enables an ultrabroadband EAB of 12.16 GHz at a thickness of only 5.00 mm,with the maximum radar cross section reduction value reaching 36.4 dB m2.This innovative approach not only advances the understanding of metal–nonmetal co-doping but also realizes broadband EMWA,thus contributing to the development of EMWA mechanisms and applications.

AAV-mediated expression of p65shRNA and bone morphogenetic protein 4 synergistically enhances chondrocyte regeneration

BACKGROUND:Adeno-associated virus(AAV)gene therapy has been proven to be reliable and safe for the treatment of osteoarthritis in recent years.However,given the complexity of osteoarthritis pathogenesis,single gene manipulation for the treatment of osteoarthritis may not produce satisfactory results.Previous studies have shown that nuclear factorκB could promote the inflammatory pathway in osteoarthritic chondrocytes,and bone morphogenetic protein 4(BMP4)could promote cartilage regeneration.OBJECTIVE:To test whether combined application of AAV-p65shRNA and AAV-BMP4 will yield the synergistic effect on chondrocytes regeneration and osteoarthritis treatment.METHODS:Viral particles containing AAV-p65-shRNA and AAV-BMP4 were prepared.Their efficacy in inhibiting inflammation in chondrocytes and promoting chondrogenesis was assessed in vitro and in vivo by transfecting AAV-p65-shRNA or AAV-BMP4 into cells.The experiments were divided into five groups:PBS group;osteoarthritis group;AAV-BMP4 group;AAV-p65shRNA group;and BMP4-p65shRNA 1:1 group.Samples were collected at 4,12,and 24 weeks postoperatively.Tissue staining,including safranin O and Alcian blue,was applied after collecting articular tissue.Then,the optimal ratio between the two types of transfected viral particles was further investigated to improve the chondrogenic potential of mixed cells in vivo.RESULTS AND CONCLUSION:The combined application of AAV-p65shRNA and AAV-BMP4 together showed a synergistic effect on cartilage regeneration and osteoarthritis treatment.Mixed cells transfected with AAV-p65shRNA and AAV-BMP4 at a 1:1 ratio produced the most extracellular matrix synthesis(P<0.05).In vivo results also revealed that the combination of the two viruses had the highest regenerative potential for osteoarthritic cartilage(P<0.05).In the present study,we also discovered that the combined therapy had the maximum effect when the two viruses were administered in equal proportions.Decreasing either p65shRNA or BMP4 transfected cells resulted in less collagen II synthesis.This implies that inhibiting inflammation by p65shRNA and promoting regeneration by BMP4 are equally important for osteoarthritis treatment.These findings provide a new strategy for the treatment of early osteoarthritis by simultaneously inhibiting cartilage inflammation and promoting cartilage repair.

Fundamentals of intervertebral disc degeneration and related discogenic pain

Lumbar intervertebral disc degeneration is thought to be the main cause of low back pain,although the mechanisms by which it occurs and leads to pain remain unclear.In healthy adult discs,vessels and nerves are present only in the outer layer of the annulus fibrosus and in the bony endplate.Animal models,and histological and biomechanical studies have shown that annulus tear or endplate injury is the initiating factor for painful disc degeneration.Injury to the disc triggers a local inflammatory repair response that activates nociceptors and promotes the synthesis of neuropeptides such as substance P and calcitonin generelated peptide,by dorsal root ganglion neurons.These neuropeptides are transported to injured discs and act as pro-inflammatory molecules,promoting the production of an“inflammatory soup”by inducing vasodilatation and plasma extravasation as well as by promoting the release of chemical mediators from disc cells and infiltrating immune cells,causing neurogenic inflammation that leads to progressive disc degeneration and discogenic pain.

Protective activity of adipose-derived stem cell extracellular vesicles in ischemia and/or reperfusion

Increasing evidence of the significant clinical value of protection against ischemia/reperfusion injury has contributed to the realization of the independent importance of this approach in improving prognosis and reducing cardiovascular mortality.Extracellular vesicles(EVs)derived by adipose mesenchymal stem cells may mediate the paracrine effects of stem cells and provide regenerative and anti-inflammatory properties,which are enhanced byγ-aminobutyric acid.The protective effects on cardiac myocytes may result from the EV embarked by miR-21-5p,which is a target for thioredoxin-interacting protein,regulating the formation of thioredoxin-interacting protein-thioredoxin complexes and subsequently enhancing the antioxidant activity of thioredoxin.It has been found thatγ-aminobutyric acid governs myocardial bioenergetics through suppressing inflammation and supporting mitochondrial structure.Finally,stem cell-based cell-free therapy based on adipose-derived stem cell EVs is considered a promising approach to individualized management of ischemia-induced cardiomyopathy.

Axonal growth inhibitors and their receptors in spinal cord injury:from biology to clinical translation

Axonal growth inhibitors are released during traumatic injuries to the adult mammalian central nervous system, including after spinal cord injury. These molecules accumulate at the injury site and form a highly inhibitory environment for axonal regeneration. Among these inhibitory molecules, myelinassociated inhibitors, including neurite outgrowth inhibitor A, oligodendrocyte myelin glycoprotein, myelin-associated glycoprotein, chondroitin sulfate proteoglycans and repulsive guidance molecule A are of particular importance. Due to their inhibitory nature, they represent exciting molecular targets to study axonal inhibition and regeneration after central injuries. These molecules are mainly produced by neurons, oligodendrocytes, and astrocytes within the scar and in its immediate vicinity. They exert their effects by binding to specific receptors, localized in the membranes of neurons. Receptors for these inhibitory cues include Nogo receptor 1, leucine-rich repeat, and Ig domain containing 1 and p75 neurotrophin receptor/tumor necrosis factor receptor superfamily member 19(that form a receptor complex that binds all myelin-associated inhibitors), and also paired immunoglobulin-like receptor B. Chondroitin sulfate proteoglycans and repulsive guidance molecule A bind to Nogo receptor 1, Nogo receptor 3, receptor protein tyrosine phosphatase σ and leucocyte common antigen related phosphatase, and neogenin, respectively. Once activated, these receptors initiate downstream signaling pathways, the most common amongst them being the Rho A/ROCK signaling pathway. These signaling cascades result in actin depolymerization, neurite outgrowth inhibition, and failure to regenerate after spinal cord injury. Currently, there are no approved pharmacological treatments to overcome spinal cord injuries other than physical rehabilitation and management of the array of symptoms brought on by spinal cord injuries. However, several novel therapies aiming to modulate these inhibitory proteins and/or their receptors are under investigation in ongoing clinical trials. Investigation has also been demonstrating that combinatorial therapies of growth inhibitors with other therapies, such as growth factors or stem-cell therapies, produce stronger results and their potential application in the clinics opens new venues in spinal cord injury treatment.

miR-155-5p介导PIK3R1负调控PI3K/AKT信号通路促进原发性干燥综合征人唾液腺上皮细胞增殖

目的探讨miR-155-5p靶向作用于PIK3R1调控PI3K/AKT信号通路对原发性干燥综合征人唾液腺上皮细胞(pSSHSGECs)的影响。方法通过双荧光素酶验证miR-155-5p与PI3K/AKT通路的靶向关系。利用TRAIL及INF-γ刺激细胞,模拟pSS-HSGECs细胞模型;空白组:HSGECs,模型组:TRAIL+INF-γ+HSGECs,空转组:TRAIL+INF-γ+HSGECs+miR-155-inhibitor-NC;miR-155抑制组:TRAIL+INF-γ+IHSGECs+miR-155-inhibitor;CKK-8法、流式细胞术、平板克隆形成实验分别检测细胞活力、细胞周期及凋亡率、细胞增殖能力。ELISA、RT-PCR方法分别检测相关细胞因子、miR-155-5p表达。蛋白质免疫印迹法检测PI3K/AKT信号通路蛋白表达。结果双荧光素酶检测结果表明,miR-155-5p与PI3K/AKT通路存在靶向关系,且PIK3R1mRNA为二者的结合位点。与空白组相比,模型组细胞活力、细胞克隆形成能力、IL-10、IL-4水平降低;细胞凋亡率、细胞周期G2期比例、TNF-α、IL-6、miR-155-5p、PIK3R1 mRNA表达、p-PI3K/PI3K、p-AKT/AKT比率、PIK3R1mRNA蛋白相对表达显著升高(P<0.01)。与模型组及空转组相比,miR-155抑制组细胞活力、G1期比例、克隆形成能力、IL-10和IL-4水平上升;同时细胞凋亡率、细胞周期G2期比例、TNF-α、IL-6、miR-155-5p、PIK3R1 mRNA表达、p-PI3K/PI3K、p-AKT/AKT比率及PIK3R1蛋白相对表达下降(P<0.05)。结论miR-155-5p可靶向作用于PI3K1mRNA,负向调节PI3K/AKT信号通路的过表达,改善pSSHSGECs增殖与凋亡异常,调节炎症反应。

Bletilla striata polysaccharides alleviate metabolic dysfunctionassociatedsteatotic liver disease through enhancing hepatocyteRelA/HNF1αsignal

BACKGROUND Bletilla striata polysaccharides(BSP)have antioxidant,immune regulation,and anti-fibrotic activities.However,the therapeutic effect and mechanisms underlying the action of BSP in metabolic dysfunction-associated steatotic liver disease(MASLD)have not been fully understood.AIMTo investigate the therapeutic effects and mechanisms of BSP on MASLD by centering on the hepatocyte nuclearfactor kappa B p65(RelA)/hepatocyte nuclear factor-1 alpha(HNF1α)signaling.METHODSA mouse model of MASLD was induced by feeding with a high-fat-diet(HFD)and a hepatocyte model of steatosiswas induced by treatment with sodium oleate(SO)and sodium palmitate(SP).The therapeutic effects of BSP onMASLD were examined in vivo and in vitro.The mechanisms underlying the action of BSP were analyzed for theireffect on lipid metabolism disorder,endoplasmic reticulum(ER)stress,and the RelA/HNF1αsignaling.RESULTSHFD feeding reduced hepatocyte RelA and HNF1αexpression,induced ER stress,lipid metabolism disorder,andnecroptosis in mice,which were significantly mitigated by treatment with BSP.Furthermore,treatment with BSP orBSP-containing conditional rat serum significantly attenuated the sodium oleate/sodium palmitate(SO/SP)-induced hepatocyte steatosis by decreasing lipid accumulation,and lipid peroxidation,and enhancing theexpression of RelA,and HNF1α.The therapeutic effects of BSP on MASLD were partially abrogated by RELAsilencing in mice and RELA knockout in hepatocytes.RELA silencing or knockout significantly down-regulatedHNF1αexpression,and remodeled ER stress and oxidative stress responses during hepatic steatosis.CONCLUSIONTreatment with BSP ameliorates MASLD,associated with enhancing the RelA/HNF1αsignaling,remodeling ERstress and oxidative stress responses in hepatocytes.

Expression of p27Kip1, A Cell Cycle Repressor Protein with Dual Roles for Both Cancer Prevention and Promotion, Is Regulated Primarily at the Level of Unusual p27Kip1 mRNA—A Short Concept Proposal

The p27Kip1 is a cell cycle repressor protein that regulates primarily the cell cycle transition from G1 to S phase and hence the DNA replication is in the S phase and cell division in the M phase. Expression of p27Kip1 protein has dual roles for both cancer prevention and promotion. For example, numerous nutritional and chemopreventive anti-cancer agents specifically increase the expression of p27Kip1 protein without directly affecting the expression of any other cell cycle regulatory proteins. On the other hand, pro-cancer agents (like glucose, insulin and other growth factors frequently seen in obesity and/or diabetes) specifically decrease the expression of p27Kip1 protein without directly affecting the expression of any other cell cycle regulatory proteins. Unlike expression of any other cell cycle regulatory proteins, expression of p27Kip1 protein is very unusual. The mRNA of p27Kip1 has a very long and unusual 5’-untranslated region (from -575 to -1 in human). It appears that the 5’-untranslated region of p27Kip1 mRNA forms two alternative secondary structures. One increases the expression of p27Kip1 protein when anti-cancer agents are added and another decrease the expression of p27K1p1 when pro-cancer agents are added. For this short concept proposal, Dr. Albert Einstein’s “visualized thought experiments (German: Gedanken experiment)” were used as a fundamental tool for understanding how either anti- or pro-cancer agents bring the primary structure of the 5’-untranslated region of p27Kip1 mRNA into two alternative secondary structures, thereby either increasing or decreasing, respectively, the translation initiation of p27Kip1 protein.

O-linked β-N-acetylglucosamine transferase regulates macrophage polarization in diabetic periodontitis: In vivo and in vitro study

BACKGROUND Periodontitis,when exacerbated by diabetes,is characterized by increased M1 macrophage polarization and decreased M2 polarization.O-linkedβ-N-acetylglucosamine(O-GlcNAcylation),catalyzed by O-GlcNAc transferase(OGT),promotes inflammatory responses in diabetic periodontitis(DP).Additionally,p38 mitogen-activated protein kinase regulates macrophage polarization.However,the interplay between OGT,macrophage polarization,and p38 signaling in the progression of DP remains unexplored.AIM To investigate the effect of OGT on macrophage polarization in DP and its role in mediating O-GlcNAcylation of p38.METHODS For in vivo experiments,mice were divided into four groups:Control,DP model,model+short hairpin(sh)RNAnegative control,and model+sh-OGT.Diabetes was induced by streptozotocin,followed by ligation and lipopolysaccharide(LPS)administration to induce periodontitis.The impact of OGT was assessed by injecting sh-OGT lentivirus.Maxillary bone destruction was evaluated using micro-computed tomography analysis and tartrateresistant acid phosphatase staining,while macrophage polarization was determined through quantitative real-time polymerase chain reaction(qPCR)and immunohistochemistry.For in vitro experiments,RAW264.7 cells were treated with LPS and high glucose(HG)(25 mmol/L D-glucose)to establish a cell model of DP.OGT was inhibited by OGT inhibitor(OSMI4)treatment and knocked down by sh-OGT transfection.M1/M2 polarization was analyzed using qPCR,immunofluorescence,and flow cytometry.Levels of O-GlcNAcylation were measured using immunoprecipitation and western blotting.RESULTS Our results demonstrated that M1 macrophage polarization led to maxillary bone loss in DP mice,associated with elevated O-GlcNAcylation and OGT levels.Knockdown of OGT promoted the shift from M1 to M2 macrophage polarization in both mouse periodontal tissues and LPS+HG-induced RAW264.7 cells.Furthermore,LPS+HG enhanced the O-GlcNAcylation of p38 in RAW264.7 cells.OGT interacted with p38 to promote its O-GlcNAcylation at residues A28,T241,and T347,as well as its phosphorylation at residue Y221.CONCLUSION Inhibition of OGT-mediated p38 O-GlcNAcylation deactivates the p38 pathway by suppressing its self-phosphorylation,thereby promoting M1 to M2 macrophage polarization and mitigating DP.These findings suggested that modulating macrophage polarization through regulation of O-GlcNAcylation may represent a novel therapeutic strategy for treating DP.

Upregulation of circ0000381 atienuates microglial/macrophage pyroptosis after spinal cord injury

Neuroinflammation exacerbates secondary damage after spinal cord injury,while microglia/macrophage pyroptosis is important to neuroinflammation.Circular RNAs(circRNAs)play a role in the central nervous system.However,the functional role and mechanism of circRNAs in regulating microglia/macrophage pyroptosis after spinal cord injury are still poorly studied.In the present study,we detected microglia/macrophage pyroptosis in a female rat model of spinal cord injury,along with upregulated levels of circ0000381 in the spinal cord.Our further experimental results suggest that circ0000381 may function as a sponge to sequester endogenous microRNA423-3p(miR-423-3p),which can increase the expression of NOD-like receptor 3(NLRP3),a pyroptosis marker.Therefore,upregulation of circ0000381 may be a compensatory change after spinal cord injury to attenuate microglia/macrophage pyroptosis.Indeed,knockdown of circ0000381 expression exacerbated microglia/macrophage pyroptosis.Collectively,our findings provide novel evidence for the upregulation of circ0000381,which may serve as a neuroprotective mechanism to attenuate microglia/macrophage pyroptosis after spinal cord injury.Accordingly,circ0000381 may be a novel therapeutic target for the treatment of spinal cord injury.

Electroacupuncture diminishes P2X_2 and P2X_3 purinergic receptor expression in dorsal root ganglia of rats with visceral hypersensitivity

Electroacupuncture at Shangjuxu （ST37） and Tianshu （ST25） can improve visceral hypersensitivity in rats. Colorectal distension was used to establish a rat model of chronic visceral hypersensitivity. Immunohistochemistry was used to detect P2X2 and P2X3 receptor expression in dorsal root ganglia from rats with chronic visceral hypersensitivity. Results demonstrated that abdominal withdrawal reflex scores obviously increased following establishment of the model, indicating visceral hypersensitivity. Simultaneously, P2X2 and P2X3 receptor expression increased in dorsal root ganglia. After bilateral electroacupuncture at Shangjuxu and Tianshu, abdominal withdrawal reflex scores and P2X2 and P2X3 receptor expression decreased in rats with visceral hypersensitivity. These results indicated that electroacupuncture treatment improved visceral hypersensitivity in rats with irritable bowel syndrome by reducing P2X2 and P2X3 receptor expression in dorsal root ganglia.

Photobiomodulation inhibits the expression of chondroitin sulfate proteoglycans after spinal cord injury via the Sox9 pathway

Both glial cells and glia scar greatly affect the development of spinal cord injury and have become hot spots in research on spinal cord injury treatment.The cellular deposition of dense extracellular matrix proteins such as chondroitin sulfate proteoglycans inside and around the glial scar is known to affect axonal growth and be a major obstacle to autogenous repair.These proteins are thus candidate targets for spinal cord injury therapy.Our previous studies demonstrated that 810 nm photo biomodulation inhibited the formation of chondroitin sulfate proteoglycans after spinal cord injury and greatly improved motor function in model animals.However,the specific mechanism and potential targets involved remain to be clarified.In this study,to investigate the therapeutic effect of photo biomodulation,we established a mouse model of spinal cord injury by T9 clamping and irradiated the injury site at a power density of 50 mW/cm~2 for 50 minutes once a day for 7 consecutive days.We found that photobiomodulation greatly restored motor function in mice and down regulated chondroitin sulfate proteoglycan expression in the injured spinal cord.Bioinformatics analysis revealed that photobiomodulation inhibited the expression of proteoglycan-related genes induced by spinal cord injury,and versican,a type of proteoglycan,was one of the most markedly changed molecules.Immunofluorescence staining showed that after spinal cord injury,versican was present in astrocytes in spinal cord tissue.The expression of versican in primary astrocytes cultured in vitro increased after inflammation induction,whereas photobiomodulation inhibited the expression of ve rsican.Furthermore,we found that the increased levels of p-Smad3,p-P38 and p-Erk in inflammatory astrocytes were reduced after photobiomodulation treatment and after delivery of inhibitors including FR 180204,(E)-SIS3,and SB 202190.This suggests that Sma d 3/Sox9 and MAP K/Sox9 pathways may be involved in the effects of photobiomodulation.In summary,our findings show that photobiomodulation modulates the expression of chondroitin sulfate proteoglycans,and versican is one of the key target molecules of photo biomodulation.MAPK/Sox9 and Smad3/Sox9 pathways may play a role in the effects of photo biomodulation on chondroitin sulfate proteoglycan accumulation after spinal cord injury.

Transplantation of human hepatocytes into tolerized genetically immunocompetent rats

AIM: To determine whether normal genetically immunocompetent rodent hosts could be manipulated to accept human hepatocyte transplants with long term survival without immunosuppression. METHODS: Tolerance towards human hepatocytes was established by injection of primary human hepatocytes or Huh7 human hepatoma cells into the peritoneal cavities of fetal rats. Corresponding cells were subsequently transplanted into newborn rats via intrasplenic injection within 24h after birth. RESULTS: Mixed lymphocyte assays showed that spleen cells from non-tolerized rats were stimulated to proliferate when exposed to human hepatocytes, while cells from tolerized rats were not. Injections made between 15 d and 17 d of gestation produced optimal tolerization. Transplanted human hepatocytes in rat livers were visualized by immunohistochemical staining of human albumin. By dot blotting of genomic DNA in livers of tolerized rats 16 weeks after hepatocyte transplantation, it was found that approximately 2.5 X 10(5) human hepatocytes survived per rat liver. Human albumin mRNA was detected in rat livers by RT-PCR for 15 wk, and human albumin protein was also detectable in rat serum. CONCLUSION: Tolerization of an immuno-competent rat can permit transplantation, and survival of functional human hepatocytes.

考虑碳-绿证市场耦合的多虚拟电厂电-碳P2P交易模型

为了探索多市场交易下虚拟电厂(VPP)之间的点对点(P2P)交易模式,提出一种考虑碳-绿证市场耦合的多VPP电-碳P2P交易模型。建立包含光伏、储能、中央空调、碳捕集机组和用户负荷的多VPP聚合模型,建立绿证-碳配额耦合的VPP交易模型;在此基础上,基于合作博弈理论,建立多VPP社会效益最大化模型,采用交替方向乘子法对模型进行分布式求解,并建立非对称纳什议价模型对合作剩余利润进行分配;通过算例分析验证所提模型能在提升经济效益的同时,减少VPP的CO_(2)排放量。

真武汤介导lncRNA NEAT1/miR-31-5p/IGFBP7分子轴抑制慢性心力衰竭进程的机制研究

目的:探讨真武汤通过lncRNA NEAT1/miR-31-5p/IGFBP7分子轴抑制慢性心力衰竭(CHF)进程的机制。方法:将雄性SD大鼠分为对照组、模型组、阳性对照组和真武汤低、中、高剂量组,每组各10只。除对照组外,其余各组采用腹腔注射阿霉素的方法建立CHF模型,阳性对照组给予美托洛尔灌胃,真武汤低、中、高剂量组给予真武汤(生药含量6、12、18 g/kg)灌胃。检测各组大鼠左心室射血分数(LVEF)、左心室短轴缩短率(LVFS),血清脑钠肽(BNP)水平,心脏体重比,心肌病理改变,心肌中肿瘤坏死因子-α(TNF-α)、白细胞介素-1β(IL-1β)、丙二醛(MDA)、超氧化物歧化酶(SOD)水平及lncRNA NEAT1、miR-31-5p、IGFBP7表达水平。培养大鼠心肌H9c2细胞,采用双荧光素酶报告基因实验检测lncRNA NEAT1靶向miR-31-5p、miR-31-5p靶向IGFBP7。结果:与模型组比较,真武汤低、中、高剂量组的LVEF、LVFS增加,血清BNP水平降低(P<0.05);与模型组比较,真武汤低、中、高剂量组的心肌TNF-α、IL-1β、MDA水平降低,SOD水平增加(P<0.05);与模型组比较,真武汤低、中、高剂量组的心肌lncRNA NEAT1、IGFBP7表达降低,miR-31-5p表达增加(P<0.05)。H9c2心肌细胞中,lncRNA NEAT1靶向miR-31-5p、miR-31-5p靶向IGFBP7。结论:真武汤可能通过lncRNA NEAT1/miR-31-5p/IGFBP7分子轴改善CHF大鼠心功能并减轻炎症反应、氧化应激反应。

基于可选休假和优先权Geo/G/1重试排队的P2P网络分析

该文旨在根据P2P网络中节点状态的动态变化,构建一个排队模型,以精确模拟节点在系统中的动态趋势.基于这一模型框架,建立了一个带二次可选休假、优先权和不耐烦请求节点的Geo/G/1重试排队系统.利用嵌入Markov链的方法,构造相应维数的Markov链,分析网络系统中各个节点状态的一步转移概率;利用补充变量法推导系统满足的平衡方程组,通过求解平衡方程组得到网络系统中各类节点的性能指标.通过调整不同参数,验证系统的性能指标随参数的变化趋势.