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Introducción: los glucocorticoides (GC) han sido ampliamente utilizados en el tratamiento de patologías oculares debido a sus efectos antiinflamatorios y anti-angiogénicos. Se ha sugerido que el mecanismo de acción anti-angiogénico de los GC puede estar relacionado con la enzima fosfatidilinositol-3-cinasa (PI3K), la cual desempeña un papel crucial en la angiogénesis mediada por el receptor de acetilcolina nicotínico alfa 7 (α7-nAChR). La PI3K es una enzima lipoproteica heterodimérica compuesta por las subunidades; reguladora (p85) y catalítica (p110). Objetivo: esta revisión examina la evidencia de cómo los GC modulan la vía de señalización de PI3K activada por α7-nAChR en el proceso de angiogénesis in vitro. Metodología: se realizó una revisión bibliográfica utilizando los motores de búsqueda PubMed y Web of Science, relacionando los conceptos "endothelial cell", "α7-nAChR", "PI3K" y "glucocorticoid". Resultados: se seleccionaron 30 artículos que informaron sobre la expresión de α7-nAChR y PI3K en células endoteliales humanas. Además, del efecto de dexametasona sobre las subunidades de PI3K y Akt (proteína cinasa B) en modelos humano, murino y porcino. A partir de estos hallazgos, se propuso un mecanismo mediante el cual los GC ejercen su efecto anti-angiogénico a través de la modulación en la expresión de la subunidad inhibitoria p85 de PI3K activada por α7-nAChR en células endoteliales humanas. Conclusión: los antecedentes evidencian que dexametasona, ejerce su mecanismo de acción anti-angiogénico mediante el incremento de la expresión de la subunidad inhibitoria p85 de PI3K activada por α7-nAChR.
Introduction: glucocorticoids (GC) have been widely used in the treatment of ocular pathologies due to their anti-inflammatory and anti-angiogenic effects. It has been suggested that the anti-angiogenic mechanism of GC may be related to the enzyme phosphatidylinositol-3-kinase (PI3K), which plays a crucial role in angiogenesis mediated by the alpha 7 nicotinic acetylcholine receptor (α7-nAChR). PI3K is a heterodimeric lipoprotein enzyme composed of regulatory (p85) and catalytic (p110) subunits. Objective: this review examines the evidence of how the GC modulate the PI3K signaling pathway activated by α7-nAChR in the process of in vitro angiogenesis. Methodology: a literature search was conducted using the PubMed and Web of Science search engines, relating the concepts of "endothelial cell," "α7-nAChR," "PI3K," and "glucocorticoid." Results: thirty-two articles were selected that reported on the expression of α7-nAChR and PI3K in human endothelial cells. Furthermore, the effect of dexamethasone on PI3K and Akt (protein kinase B) subunits was documented in human, murine, and porcine models. Based on these findings, a mechanism was proposed whereby GC exert their anti-angiogenic effect through modulation of the expression of the inhibitory p85 subunit of PI3K activated by α7-nAChR in human endothelial cells. Conclusion: background evidence suggests that dexamethasone exerts its anti-angiogenic mechanism of action by increasing the expression of the α7-nAChR-activated PI3K inhibitory subunit p85
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SUMMARY: Angiogenesis, a process by which new blood vessels are generated from pre-existing ones, is significantly compromised in tumor development, given that due to the nutritional need of tumor cells, pro-angiogenic signals will be generated to promote this process and thus receive the oxygen and nutrients necessary for its development, in addition to being a key escape route for tumor spread. Although there is currently an increase in the number of studies of various anti-angiogenic therapies that help reduce tumor progression, it is necessary to conduct a review of existing studies of therapeutic alternatives to demonstrate their importance.
La angiogénesis, proceso por el cual se generan nuevos vasos sanguíneos a partir de otros preexistentes, se encuentra comprometida de forma importante en el desarrollo tumoral, dado que por necesidad nutritiva de las células tumorales se generarán señales pro angiogénicas para promover este proceso y así recibir el oxígeno y los nutrientes necesarios para su desarrollo, además de ser una ruta de escape clave para la diseminación tumoral. Si bien, actualmente existe un aumento en la cantidad de estudios de diversas terapias anti angiogénicas que ayudan a reducir el avance tumoral, es necesario realizar una revisión de los estudios existentes de alternativas terapéuticas para demostrar su importancia.
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Humans , Angiogenesis Inhibitors/therapeutic use , Celecoxib/therapeutic use , Neoplasms/drug therapy , Neovascularization, Pathologic/drug therapy , Vascular Endothelial Growth Factor A/antagonists & inhibitors , Cyclooxygenase 2 Inhibitors , Neoplasms/pathology , Antineoplastic Agents/therapeutic useABSTRACT
ObjectiveTo explore the effect and mechanism of Sishenjian on synovial lesions induced by monosodium iodoacetate (MIA) in rats with knee osteoarthritis (KOA). MethodSixty female Sprague-Dawley (SD) rats were randomly divided into the following six groups: normal group, model group, celecoxib group, and high-, medium-, and low-dose Sishenjian group. The KOA rat model was established by intra-articular injection of MIA. Celecoxib (18 mg·kg-1) and Sishenjian (14.4, 7.2, 3.6 g·kg-1) were administered by gavage according to the groups. All rats were euthanized after four weeks of continuous administration. The transverse diameter of the bilateral knee joints of rats was measured, and gross observation of the knee joint was performed. Pathological changes in knee joint synovial tissue were observed by hematoxylin-eosin (HE) staining and picrosirius red staining. Immunohistochemistry (IHC) was used to detect the expression of vascular endothelial growth factor A (VEGFA) in synovial tissue. The levels of inflammatory cytokines in the joint synovial fluid were detected by enzyme-linked immunosorbent assay (ELISA). Real-time quantitative polymerase chain reaction (Real-time PCR) and Western blot were used to detect the expression of mRNA and proteins related to the transforming growth factor-β1 (TGF-β1)/Smad2/3 pathway in knee joint synovium. ResultCompared with the normal group, the transverse diameter of the knee joint in the model group significantly increased (P<0.01). Compared with the model group, the transverse diameter of the knee joint in rats of each Sishenjian group significantly decreased (P<0.01). Compared with the normal group, the expression levels of interleukin-1β (IL-1β) and tumor necrosis factor-α (TNF-α) in the knee joint synovial fluid of model group significantly increased (P<0.01). Compared with the model group, the expression levels of IL-1β and TNF-α in the knee joint synovial fluid of rats in each Sishenjian group significantly decreased (P<0.01). Compared with the normal group, the expression levels of TGF-β1, Smad2/3, phosphorylation(p)-Smad2/3, type Ⅰ collagen α1 (ColⅠα1), type Ⅲ collagen α1 (ColⅢα1), VEGFA proteins and TGF-β1, Smad2/3, ColⅠα1, ColⅢα1 mRNA in knee joint synovium of model group significantly increased (P<0.01). Compared with the model group, the expression levels of TGF-β1, Smad2/3, phosphorylation (p)-Smad2/3, ColⅠα1, ColⅢα1, VEGFA proteins and TGF-β1, Smad2/3, ColⅠα1, ColⅢα1 mRNA in knee joint synovium of rats in each Sishenjian group significantly decreased (P<0.05, P<0.01). ConclusionSishenjian can inhibit synovial inflammation and angiogenesis, and may become a potential drug for treating synovial lesions in KOA by regulating the TGF-β1/Smad2/3 pathway.
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Objective To investigate the effect of silencing alpha tubulin acetyltransferase 1(α-TAT1)on migration behavior of endothelial cells induced by hepatopulmonary syndrome(HPS).Methods Online database Tabula Muris was used to analyze the expression of α-TAT1 in various cell subsets in the lungs.Twenty-four male SD rats were randomly divided into control group(Sham group,n=6)and common bile duct ligation group(HPS group,n=18).The rats in HPS group were euthanasized at 2 and 4 weeks after modelling,and then the expression of α-TAT1 in pulmonary vascular endothelial cells was detected by immunofluorescence colocalization.The sera from the Sham and HPS rats were used to stimulate human umbilical vein endothelial cells(HUVECs)for 12 and 24 h,respectively.Then the obtained HUVECs were divided into 4 groups:Sham serum+siRNA NC group,Sham serum+siRNA α-TAT1 group,HPS serum+siRNA NC group,HPS serum+siRNA α-TAT1 group.The expression levels of α-TAT1 and Ace-α-tubulin in HUVECs were detected by Western blotting.Immunofluorescence assay was applied to observe the levels of polymerized microtubules of α-Tubulin in HUVECs after nocodazole(10 μmol/L)pretreatment to evaluate the stability of microtubule structure.Cell scratch assay combined with cell immunofluorescence assay was employed to observe the nuclear localization of Golgi apparatus and cell migration ability of HUVECs.The angiogenesis ability of HUVECs was tested by in vitro angiogenesis test.Results In vivo and in vitro experiments showed that the expression of α-TAT1 in endothelial cells was significantly increased after HPS inducement.The expression levels of α-TAT1 and Ace-α-tubulin were significantly down-regulated,and the stability of microtubules was weakened in the siRNA α-TAT1 interference group(P<0.01).In addition,the distribution of GM 130 labeled Golgi apparatus in the protrusion of HUVECs was down-regulated in the siRNAα-TAT1 interference group,as well as the migration ability(P<0.01).And the length of angiogenesis and network level were also significantly declined(P<0.01).Conclusion Silencing α-TAT1 reduces the migrαtion and angiogenesis of endothelial cells in HPS,which was associated with weakened stabilization of microtubule.
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As a kind of immunosuppressive cells, myeloid-derived suppressor cells (MDSCs) are an important component of the immune microenvironment. MDSCs play a significant role in promoting tumor immune escape. In addition, non-immunological functions such as promoting angiogenesis can also promote tumor development with the deepening of research. MDSCs can promote tumor angiogenesis directly through vascular endothelial growth factor signaling pathway, or promote tumor growth and angiogenesis by secreting cytokines such as matrix metalloprotein-9, basic fibroblast growth factor, angiogenic peptide Bv8, platelet derived growth factor, exosomes, or interacting with other cells. Exploring the expansion, activation, recruitment and angiogenesis mechanism of MDSCs will provide new ideas for regulating the individualized diagnosis and treatment based on targeted MDSCs.
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In this article,the mechanism of Shanxian Granule in inhibiting liver cancer,lung cancer,sarcoma,melanoma and other tumors was reviewed,with a view to providing a theoretical basis for the clinical research of Shanxian Granules in the treatment of malignant tumors.Shanxian Granule are the pure Chinese medicine preparation for counteracting malignant tumor developed by the Oncology Research Team of Shaanxi University of Chinese Medicine on the basis of the theory of traditional Chinese medicine syndrome differentiation and treatment combined with decades of clinical experience as well as the achievements of modern pharmacological research.Shanxian Granule are mainly composed of Crataegi Fructus,Agrimoniae Herba,Panacis Quinquefolii Radix,Curcumae Rhizoma,Testudinis Carapax et Plastrum,Trionycis Carapax,Corydalis Rhizoma,and Polyporus,and have the actions of benefiting qi and nourishing yin,supporting healthy-qi and cultivating the essence,activating blood and removing stasis,and eliminating swelling and counteracting cancer.The compatibility of Shanxian Granule embodies the principle of supporting healthy-qi but avoiding maintaining pathogens,and eliminating pathogens but avoiding injuring healthy-qi.The granules can effectively inhibit the growth and metastasis of liver cancer,lung cancer,sarcoma,melanoma and other tumors both in vivo and in vitro,alleviate the clinical symptoms of tumor patients,and improve their prognosis.The anti-tumor mechanism of Shanxian Granules is related to the enhancement of body immune function,inhibition of tumor cell proliferation,enhancement of tumor cell apoptosis,inhibition of tumor cell invasion and metastasis as well as the tumor angiogenesis.
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Objective To observe the effect of catgut implantation at acupoint(CIAA)on the learning and memory function,hippocampal microangiogenesis,and the mRNA and protein expression of angiopoietin-1(Ang-1)/vascular endothelialgrowth factor(VEGF)and its receptor TEK tyrosine kinase(TIE2)/VEGF receptor 2(VEGFR2)in rats with vascular dementia(VD).To explore the mechanism of catgut implantation at acupoint in preventing and treating VD.Methods Using a random number table,VD rats were divided into a model group,a nimodipine group,and an catgut implantation at acupoint group,and a sham operation group was set up,with 10 rats in each group.On the 7th day after surgery,the treatment groups were given catgut implantation at acupoint and nimodipine gastric lavage for 21 days.After treatment,Morris water maze behavioral test was performed.HE staining was used to observe hippocampal CA1 tissue.CD34 immunohistochemical staining was used to detect hippocampal microvascular density(MVD).Real-time PCR and Western blotting were used to detect the mRNA and protein expression of Ang-1/VEGF and its receptor TIE2/VEGFR2 in the hippocampus.Results Compared with the model group,the average escape latency of the other groups was significantly shortened,and the target quadrant residence time was significantly prolonged(P<0.01,P<0.05).Compared with the model group,the number of nucleolus and well-formed pyramidal cells in hippocampal CA1 area of the catgut implantation at acupoint group and the nimodipine group increased in varying degrees,and they were arranged more closely,with only a few cells scattered and swollen.In the sham surgery group,a few CD34 positive cells were scattered.The treatment groups had more closely distributed CD34 positive cells with significant staining compared to the model group.The MVD of the model group was significantly higher than that of the sham surgery group(P<0.01).Both nimodipine group and catgut implantation at acupoint group had higher MVD than the model group(P<0.05,P<0.01).Compared with the sham surgery group,the mRNA and protein expression of Ang-1/VEGF and its receptor TIE2/VEGFR2 in the model group increased significantly(P<0.01,P<0.05).Compared with the model group,both nimodipine group and catgut implantation at acupoint group had higher mRNA and protein expression of Ang-1/VEGF and its receptor TIE2/VEGFR2(P<0.01,P<0.05).Conclusion Catgut implantation at acupoint can improve the learning and memory abilities in VD rats,promote hippocampal microvascular angiogenesis,which may be related to the up-regulation of Ang-1/VEGF and its receptor TIE2/VEGFR2 mRNA and protein expression.
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Myocardial infarction is one of the severe cardiovascular diseases.The patients with myocardial infarction die of heart failure or arrhythmia.In recent years,the studies in myocardial infarction therapies have advanced greatly,especially the preclinical experimental studies.The experimental studies of myocardial infarction often rely on animal models.Therefore,successful establishment of the myocardial infarction models has important application value in exploring the new techniques and measures for repairing the infarcted myocardium.In this paper,the techniques in establishment of the myocardial infarction models and strategies of their application are summarized.
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Objective To explore the impactof Lysosome-Associated Membrane Protein 3(LAMP3)on theproliferation,migration and angiogenesis of PC-3 cells.Methods LAMP3 expression in normal prostate epithelial cells and prostate cancer bone metastasis cells was detected using western blot and RT-PCR.Stable LAMP3-silenced PC-3 cells were constructed,and the effects of LAMP3 on proliferation,invasion,and migration of PC-3 cells were assessed using CCK8,scratch assay,and transwell assay,respectively.ELISA and angiogenesis assays were employed to examine the expression of VEGF and MMP9,as well as angiogenesis of HUVEC cells induced by PC-3 cells.Finally,WB and RT-PCR were used to detect the expression of VEGF,AKT/p-AKT.Results Our findings showed that the expression level of LAMP3 was significantly higherin prostate cellsthan in normal prostate epithelial cells,especially in PC-3 cells(P<0.05).We also found that silencing LAMP3 could inhibit the proliferation,migration and invasion of PC-3 cells,along with the expression of VEGF and MMP9 and the PC-3 cells-induced angiogenesis,and these results were statistically significant(P<0.05).Furthermore,LAMP3 downregulated the expression of VEGF and AKT/p-AKT in PC-3 cells.Conclusion LAMP3 can affect the proliferation,migrationand angiogenesis of PC-3 cells through the regulation of VEGF/AKT pathway.Thus,LAMP3 might be a potential thera-peutic target for prostate cancer bone metastasis.
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Objective To explore the role of endothelial cells in angiogenesis and myocardial remodeling in heart failure based on MAPKs pathway mediated by tumor endothelial marker 1(TEM1).Methods Sixty-four mice were equally randomized into four groups:sham operation,myocardial infarction(MI),MI+sh-NC and MI+ sh-TEM1.On the 7th day after MI,the changes of EndMT in the infarct border area were detected by immunofluo-rescence staining,and the cardiac function of mice was evaluated by echocardiography on the 28th day.Mouse aortic endothelial cells(MAECs)were divided into three groups:control,Vector and rTEM1.In addition,MAECs were pretreated with MAPK inhibitor SB203580,and the cells were treated with rTEM1 for 48 h.The changes of EndMT and MAPKs signaling pathways in endothelial cells were evaluated by Western blot.Results In the myocardium at the border of infarction,the level of TEM1-1 increased slightly on the 1st day after MI,reached the peak on the 7th day,and then decreased on the 28th day.Compared with Vector group,the expression of VE-Cadherin protein in the rTEM1 group decreased significantly(P<0.05),and the levels of α-SMA and vimentin,relative migration distance,the number of invading cells,and the number of branching formation increased signifi-cantly(P<0.05).SB203580 reversed these changes of MAECs induced by rTEM1.Compared with the MI group,the co-staining level of CD31+Vimentin+ in the MI+sh-TEM1 group decreased significantly(P<0.01).On the 28th day,the LVEF and LVFS in the MI+sh-TEM1 group were significantly higher than those in MI group(P<0.05).Compared with the MI group,the expressions of p-P38/P38 and p-JNK/JNK in the endothelial cells of the MI+sh-TEM1 group decreased.Conclusion EndMT and angiogenesis induced by TEM1 participate in the pathogenesis of cardiac fibroblasts induced by MI,which may be mechanically related to the activation of MAPKs signaling pathway.
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Fracture is a common orthopedic disease in clinical practice,and the resulting nonunion or delayed union of frac-tures is a major challenge in clinical treatment.In the process of fracture healing,there is a complex interaction between angio-genesis and osteogenesis,which is called the"angiogenesis-osteogenesis coupling"mechanism.In recent years,a new capillary subtype characterized by high expression of platelet endothelial cell adhesion molecule-1(PECAM-1/CD31)and salivary glyco-protein(EMCN),namely type H blood vessel,has been identified and found to play an important role in regulation of the angio-genesis-osteogenesis coupling.In this review,the mechanism of type H blood vessels promoting angiogenesis-osteogenesis cou-pling,the related molecules and signal pathways regulating type H blood vessels regeneration were discussed,in order to provide new ideas and methods for promoting fracture healing.
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BACKGROUND:In recent years,it has been found that some traditional Chinese medicine monomers can alleviate oxidative stress and apoptosis of the skin flap,promote vascular regeneration of the skin flap and prevent skin flap necrosis by activating autophagy. OBJECTIVE:To review the research progress of traditional Chinese medicine monomer regulating autophagy in preventing flap necrosis. METHODS:The Chinese and English key words were"traditional Chinese medicine(TCM),autophagy,skin flaps".The first author searched the relevant articles published in CNKI and PubMed databases from January 2010 to October 2022.A total of 196 articles were retrieved in the preliminary screening and then screened according to the inclusion and exclusion criteria.The quality assessment was conducted by reading the literature titles and abstracts.Finally,55 articles were summarized. RESULTS AND CONCLUSION:(1)The regulation of autophagy is mediated by AMPK/mTOR,PI3K/AKT and other signaling pathways.Activation of autophagy can alleviate the oxidative stress and apoptosis of the flap,promote the regeneration of blood vessels in the flap,and prevent flap necrosis.(2)Terpenoids(Betulinic acid,Andrographolide,Notoginseng Triterpenes,Catalpa),phenolic compounds(Resveratrol,Curcumin,Gastrodin),phenolic acids(Salvianolic acid B)and steroid compounds(Pseudoginsenoside F11)in traditional Chinese medicine monomers can alleviate oxidative stress and apoptosis of skin flap by regulating related signaling pathways to activate autophagy,promote skin flap angiogenesis and promote skin flap survival.(3)Studying the research progress of traditional Chinese medicine monomer to prevent flap necrosis by regulating autophagy can provide a reference and theoretical basis for traditional Chinese medicine to prevent flap necrosis and promote flap healing in the clinic.
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BACKGROUND:At present,it is found that both Chinese medicine for activating blood circulation and removing blood stasis and platelet-rich plasma technology can repair damaged blood vessels,promote vascular regeneration,rebuild blood supply in the femoral head,restore normal blood supply,and further promote osteogenesis.Both of them have certain advantages in early intervention of steroid-induced necrosis of femoral head.It can also further understand the mechanism of blood activating and stasis removing herbs and platelet-rich plasma technology in improving steroid-induced necrosis of the femoral head,and provide new ideas for future treatment. OBJECTIVE:To review the research progress of the mechanism of the combination of blood activating and blood stasis removing herbs and platelet-rich plasma technology on steroid-induced necrosis of the femoral head according to the related literature at home and abroad. METHODS:PubMed,Web of Science,Metstr,CNKI and WanFang databases were searched for relevant articles."Traditional Chinese medicine,signal pathways,steroid induced necrosis of femoral head,vascular endothelial growth factor,platelet rich plasma"were used as the Chinese and English search terms separately.The time limit for searching the literature was from January 2000 to July 2022,and 75 related articles were finally included. RESULTS AND CONCLUSION:Both Chinese medicine for activating blood circulation and removing blood stasis and platelet-rich plasma technology have certain advantages in intervening the early stage of steroid-induced necrosis of femoral head.For traditional Chinese medicine,both single and compound drugs can effectively alleviate the further development of steroid-induced necrosis of the femoral head.The specific mechanism is as follows:(1)The traditional Chinese medicine for activating blood circulation and removing blood stasis has a significant anticoagulation effect,which can antagonize the abnormal(hypercoagulable)state of blood caused by hormone drugs,and further restore the normal blood supply in the femoral head.(2)Traditional Chinese medicine for activating blood circulation and removing blood stasis can repair damaged vascular endothelium,regenerate blood vessels and remodel blood supply in the femoral head by activating vascular endothelial growth factor.(3)The traditional Chinese medicine of promoting blood circulation and removing blood stasis has the obvious effect of removing blood stasis,which can reduce the accumulation of fat cells in the bone marrow cavity and relieve the pressure in the femoral head.(4)Traditional Chinese medicine for promoting blood circulation and removing blood stasis can regulate relevant signal pathways,maintain bone metabolism,promote the differentiation and balance of osteoblasts and osteoclasts,and effectively reduce steroid-induced necrosis of the femoral head.In addition,platelet-rich plasma contains a large amount of high concentration of cell growth factor,which plays a positive role in osteogenesis and vascular regeneration,and can also improve the abnormal state of the blood.Traditional Chinese medicine for activating blood circulation and removing blood stasis combined with platelet-rich plasma technology can play their biological roles,and the intervention effect is more significant.
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BACKGROUND:Early transient presence of M1 macrophages can play a beneficial role after the implantation of bone tissue engineering materials.Recently,strategies for manipulating M1 macrophages to produce an early moderate inflammatory response have been extensively studied and many research advances have been made in the design of bone tissue engineering materials. OBJECTIVE:To review the role of early transient presence of M1 macrophages in bone tissue engineering and recent research advances in the strategy for activating early transient presence of M1 macrophages in the field of bone tissue engineering. METHODS:Relevant literature included in PubMed,WanFang database,and CNKI Database from January 2012 to October 2022 was searched.Search terms were"M1,macrophage,bone immunoregulation,bone defect,osteogenesis,osteoimmunology,angiogenesis"in English and Chinese.After excluding articles irrelevant to the research purpose and repetitive articles,63 papers were finally included for review. RESULTS AND CONCLUSION:The early transient presence of M1 macrophages play a key role in bone tissue engineering by promoting angiogenesis,facilitating osteogenic differentiation of bone marrow mesenchymal stem cells and promoting an M2 macrophage phenotype.Strategies for inducing and activating early transient presence of M1 macrophages can modulate the local immune microenvironment for bone defect repair in a manner consistent with early natural bone healing,including modulation of the physicochemical properties of bone tissue engineering materials to promote appropriate M1 macrophage-mediated inflammatory responses,sequential delivery of cytokines,microRNAs or bioactive ions to facilitate the M1-to-M2 transition of macrophages,and controlled release of anti-inflammatory substances to achieve the maintenance of early inflammatory responses.
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BACKGROUND:Diabetic wounds have complicated conditions such as infection,ischemia,peripheral neuropathy,and vascular disease.Ordinary hydrogel dressings with single structure and function cannot meet the needs of diabetic wound healing. OBJECTIVE:To explore the effect of a hydrogel loaded with platelet-rich plasma on wound healing of full-thickness skin defects in diabetic rats. METHODS:The blood of SD rats was extracted to prepare platelet-rich plasma.Carboxymethyl chitosan/oxychondroitin sulfate hydrogel and carboxymethyl chitosan/oxychondroitin sulfate hydrogel loaded with platelet-rich plasma were prepared separately.Streptozotocin was used to induce diabetes model in adult male SD rats.A round full-thickness skin wound with a diameter of 2 cm was made on the back of diabetic rats.The rats were randomly divided into four groups(n=10 per group).The blank group was applied with gauze on the wound.The hydrogel group,platelet-rich plasma group,and composite hydrogel group were respectively applied with the corresponding hydrogel,platelet-rich plasma and hydrogel loaded with platelet-rich plasma.The wound healing was observed within 20 days after treatment. RESULTS AND CONCLUSION:(1)On day 20 after treatment,the wound healing rate of the hydrogel group,platelet-rich plasma group and composite hydrogel group was significantly higher than that of the blank group(P<0.05).The wound healing rate of the composite hydrogel group was significantly higher than that of the platelet-rich plasma group(P<0.05).(2)The results of hematoxylin-eosin staining on day 5 after treatment showed that compared with the blank group,hydrogel group and platelet-rich plasma group,there were a large number of inflammatory cell infiltration,new granulation tissue and capillary formation in the wound tissue of the composite hydrogel group.(3)On day 5 after treatment,the results of immunohistochemical staining and western blot assay showed that the expression levels of tumor necrosis factor α and interleukin 1β in wound tissue in the composite hydrogel group were significantly lower than those in the blank group,hydrogel group and platelet-rich plasma group(P<0.05).(4)Masson staining results on day 15 after treatment showed that compared with the blank group,hydrogel group and platelet-rich plasma group,there were more collagen fibers in the wound tissue of the composite hydrogel group,which were orderly,evenly distributed and dense.(5)CD31 immunofluorescence staining showed that on day 15 after treatment,the expression of CD31 in wound tissue of the composite hydrogel group was significantly higher than that of the blank group,hydrogel group and platelet-rich plasma group(P<0.05).(6)These results suggest that the hydrogel loaded with platelet-rich plasma can promote the healing of full-thickness skin defect wounds in diabetic rats by promoting granulation tissue,collagen fiber and angiogenesis,and reducing the inflammatory response.
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BACKGROUND:Among the surface modification technologies of metal implants,micro-arc oxidation has been widely concerned for its convenience,low cost and ability to effectively adjust the microstructure and elements of surface coatings. OBJECTIVE:To summarize research advances in physical and chemical properties and biological activities of oxidation coatings prepared by micro-arc oxidation on different materials. METHODS:The articles about the effects of micro-arc oxidation on the biological activity of medical metals were searched in PubMed and Web of Science based on the English search terms"MAO,micro-arc oxidation,osseointegration,mechanical property,biological activity,angiogenesis,fibrogenesis".The search time was from January 2016 to December 2022.According to the inclusion and exclusion criteria,82 articles were finally retained for review. RESULTS AND CONCLUSION:Micro-arc oxidation is a potential surface modification technology,which can greatly improve the success rate of implantation,and can be widely used in other fields.The specific reasons are as follows:(1)Micro-arc oxidation technology forms special porous morphology on the surface of materials,which can optimize the mechanical properties such as wear resistance and corrosion resistance,contributing to the reduction of the degradation rate of magnesium alloys.(2)Micro-arc oxidation technology can significantly enhance the bioactivity and improve the bioinertness of titanium and titanium alloys through the addition of strontium,hydroxyapatite and other metallic or nonmetallic substances to its porous morphology for helping elevate its osteogenic differentiation,angiogenesis,fibrogenesis and other biological activities.
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BACKGROUND:Owing to excellent angiogenesis activity and their participation in the physiological processes such as angiogenesis in osteogenesis,the researches and applications of a variety of metal ions are getting deeper in the field of bone tissue engineering. OBJECTIVE:To systematically explain the mechanism of angiogenesis of different metal ions such as copper ion(Cu2+),magnesium ion(Mg2+),strontium ion(Sr2+),zinc ion(Zn2+),cobalt ion(Co2+)and their current research situation as well as application in the treatment of diseases in the field of bone tissue engineering. METHODS:The two authors used PubMed and CNKI to search the literature published between 2017 and 2022 with the search terms"copper ion,magnesium ion,strontium ion,zinc ion,cobalt ion,bone,angiogenesis"in Chinese and"copper,cuprum,Cu,magnesium,Mg,strontium,Sr,zinc,Zn,cobalt,Co,metal ion,angiogenesis,bone"in English.After reading titles and abstracts,the articles were initially screened,and irrelevant articles were excluded.Finally,114 articles were included for review. RESULTS AND CONCLUSION:(1)Metal ions can regulate angiogenesis by acting on vascular endothelial growth factors,hypoxia-inducible factors,angiogenesis-related genes,endothelial cells and conducting immune regulation of macrophages.(2)Metal ions such as copper,magnesium,strontium,zinc and cobalt are often used to improve the performance of tissue engineering scaffolds due to their significant angiogenic effect.Among them,hydrogels,bioceramics and synthetic polymer materials are widely used at present,and magnesium and its alloys also have advantages due to their excellent bearing capacity.However,these materials all have some defects.Currently,there is no ideal bone replacement material.(3)Various metal ions show different application potentials in bone replacement materials:Copper has antibacterial,angiogenic and osteogenic properties,and is mainly used for bone defects caused by infection and tumors.Magnesium and zinc have strong biodegradability,so the degradation rate should be controlled.Magnesium is corrosive and is mainly used as an alloy.The angiogenesis mechanism of zinc is less involved.Magnesium and strontium are effective in treating osteoporotic bone defects.(4)The above five metal ions(copper,magnesium,strontium,zinc and cobalt)have a significant role in promoting angiogenesis and then promote osteogenesis through angiogenesis.Some ions,such as copper ions,have a bactericidal effect.These ions can be used as a new strategy for the treatment of bone defects caused by tumors,osteoporosis,infection and trauma,but the current clinical trials and application studies of products are relatively insufficient.
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BACKGROUND:Bone defects are caused by many factors,such as inflammation,tumor,trauma or bone diseases.Erythropoietin can promote the differentiation of mesenchymal stem cells into osteoblasts and osteoclasts and act on vascular endothelial cells to induce angiogenesis and accelerate the repair of bone and cartilage defects.Erythropoietin is a growth factor with potential application in bone tissue engineering construction. OBJECTIVE:To expound the application and potential mechanism of erythropoietin in bone tissue engineering. METHODS:The first author searched the related articles published in CNKI,WanFang,VIP,and PubMed databases from 2004 to 2022 by computer.Search terms were"erythropoietin,bone defect,bone regeneration,angiogenesis,osteogenesis,osteoblast,osteoclast,bone tissue engineering"in Chinese and English.Finally,64 articles were included for review. RESULTS AND CONCLUSION:(1)Erythropoietin can directly act on osteoblasts and osteoclasts in the bone marrow microenvironment by promoting the differentiation of mesenchymal stem cells into osteoblasts,osteoclasts,adipocytes,nerve cells and stromal cells.The activation of Wnt/β-catenin,hypoxia-inducible factor 1α/vascular endothelial growth factor,p38 MAPK and EphrinB2/EphB4 signaling pathways mediates the osteogenic differentiation of mesenchymal stem cells.(2)Erythropoietin can not only regulate the production of erythrocytes to alter the oxygen-carrying capacity of blood but also stimulate vascular endothelial cells to promote angiogenesis.The new blood vessels can carry oxygen,nutrients,growth factors,and bone progenitor cells necessary for osteogenesis to the osteogenic site,thereby promoting bone formation and fracture healing.(3)Currently,erythropoietin is being used as a growth factor with osteogenic and angiogenic effects in various types of scaffold materials such as chitosan,polycaprolactone,bioceramics,and nanofibers through various drug delivery methods.Erythropoietin,along with other growth factors such as bone morphogenetic protein-2 and bone morphogenetic protein-9,has been applied to the surface of scaffold materials to participate in the repair of bone defects.Erythropoietin has demonstrated excellent practicality in the construction of new tissue-engineered bone and has potential clinical application value.
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BACKGROUND:Red light irradiation and silver ion dressing are mostly used to treat chronic difficult healing wounds clinically,but the optimal irradiation time of red light irradiation and silver ion dressing for chronic non-healing wounds,and the combination of different silver ion dressings have not been determined. OBJECTIVE:To investigate the optimal irradiation time and dressing combination of red light and silver ion dressing in the therapy of chronic non-healing wounds. METHODS:The chronic non-healing wound model was made by applying Staphylococcus aureus on the whole skin defect and subcutaneous hydrocortisone injection in SD rats.72 rat models were randomly divided into 4 groups with 18 rats in each group by random number table method.The rats were treated on the basis of standard dressing change and the following therapy:A1B1 group(red irradiation 20 minutes + lipid hydrocolloidal silver sulfate dressing),A1B2 group(red light irradiation 20 minutes + calcium alginate fiber dressing),A2B1 group(red light irradiation 30 minutes + lipid hydrocolloidal silver sulfate dressing),and A2B2 group(red light irradiation 30 minutes + calcium alginate fiber dressing);change dressing,irradiate once,and change dressing every 24 hours.After 14 days of continuous treatment,wound healing rate,bacterial colony number,inflammatory response,histomorphology and angiogenesis were detected in each group. RESULTS AND CONCLUSION:(1)With the extension of treatment time,the wound healing rate of rats in the four groups was increased,and the wound healing rate of rats in the A2B2 group at 3,7,and 14 days after treatment was higher than that in the other three groups(P<0.05).(2)The wound bacterial culture results on day 7 after treatment demonstrated that the number of bacterial colonies in the A2B2 group was lower than that in the other three groups(P<0.05).Western blot assay exhibited that with the extension of treatment time,the protein expressions of tumor necrosis factor α and interleukin-6 in wound tissue of rats in the four groups were decreased,while the protein expressions of interleukin-10 were increased.The protein expressions of tumor necrosis factor α and interleukin-6 in the A2B2 group were lower than those in the other three groups(P<0.05).The protein expression of interleukin-10 in the A2B2 group was higher than that of the other three groups(P<0.05).(3)The wound hematoxylin-eosin staining on day 14 after treatment demonstrated that a large number of collagen fibers in the A2B2 group were parallel distributed and the most closely connected,which was significantly better than the other three groups.(4)The results of immunofluorescence staining indicated that the fluorescence intensity expression of CD31 in the A2B2 group was higher than that in the A1B1,A1B2 and A2B1 groups(P<0.05).q-PCR detection at 3,7,and 14 days after treatment exhibited that the mRNA expressions of vascular endothelial growth factor a and vascular endothelial growth factor receptor 2 in the A2B2 group were higher than those in the other three groups(P<0.05).Western blot assay at 3,7 and 14 days after treatment revealed that the protein expressions of vascular endothelial growth factor a and vascular endothelial growth factor receptor 2 in the A2B2 group were higher than those in the other three groups(P<0.05).(5)These findings confirm that 30 minutes of red light irradiation combined with silver alginate fiber dressing has better results in treatment of chronic non-healing wounds.
ABSTRACT
BACKGROUND:Currently,a variety of mesenchymal stem cells have been confirmed to have the effect of promoting wound repair,but there is still a lack of relevant research on whether placenta-derived mesenchymal stem cells can promote acute skin wound healing. OBJECTIVE:To investigate the effect of placenta-derived mesenchymal stem cell transplantation on the healing of acute skin wound in rats. METHODS:Twenty SD rats were divided into PBS group and stem cell group by the random number table method,with 10 rats in each group.All rats were selected to establish a full-thickness skin defect model.In the PBS group and stem cell group,PBS buffer and placenta-derived mesenchymal stem cells were immediately injected on the wound surface and wound margin immediately and on day 8 after modeling.The wound healing was observed immediately and on days 2,4,6,8,10,12,and 14 after modeling.The skin tissue of the wound surface was taken on day 14 and treated with hematoxylin-eosin staining,Masson staining,immunohistochemical staining and immunofluorescence staining. RESULTS AND CONCLUSION:(1)The wound surface of the rats in each group decreased with the prolongation of treatment time.The wound healing rate and wound epithelization rate of the stem cell group at 14 days were higher than those of the PBS group(P<0.01),and the wound contracture rate was lower than that of the PBS group(P<0.01).(2)The results of hematoxylin-eosin staining showed that the skin wound healing of the stem cell group was better than that of the PBS group;the degree of wound epithelization was higher,and the morphology of collagen fibers was close to that of normal skin.(3)Masson staining results showed that compared with the PBS group,collagen fibers in the skin wound tissue of the stem cell group were significantly increased and thicker,and the content of collagen fibers in the new tissue was significantly higher than that of the PBS group(P<0.01).(4)Immunohistochemical staining showed that the number of new capillaries in the stem cell group was higher than that in the PBS group(P<0.01),while the expressions of tumor necrosis factor-α and interleukin-6 were lower than those in the PBS group(P<0.01).(5)Immunofluorescence staining showed that the number of M2 macrophages in the new wounds of the stem cell group was higher than that of the PBS group(P<0.01),while the number of M1 macrophages was less than that in the PBS group(P<0.01).These findings indicate that placenta-derived mesenchymal stem cells can accelerate skin wound healing,promote wound epithelization,and reduce wound contracture,which may be related to the promotion of capillary angiogenesis,regulation of collagen fiber production,inhibition of inflammation,and regulation of macrophage polarization to M2 type.