1.Substance P stimulates differentiation of mice osteoblast through up-regulating the expression of Osterix
Haibiao SUN ; Qiang LIU ; Minfeng GUO ; Huaping ZHANG ; Junchang CHEN
Journal of Xi'an Jiaotong University(Medical Sciences) 2009;30(6):716-719
Objective To study the molecular pathway of osteoblastic differentiation induced by substance P (SP), a neurotransmitter. Methods Mesenchymal stem cells were isolated and cultured, and treated with SP or its receptor (NK1) antagonist to induce osteoblastic cell differentiation, respectively. Alkaline phosphatase activity was determined; Osterix gene expression was detected by RT-PCR after 1-2 weeks for three times. The data of each culture condition were analyzed using SPSS12.0 statistical software to determine whether the differences between conditions were significant. Results After 4-5 days' culture, bone marrow stromal cells became spindle-shaped, triangular or polygonic. They covered the plate surface, formed extensive cell sheets in each group after 11-12 days of culture, and then induced differentiation to osteoblast. SP up-regulated the important transcription factor Osterix gene expression significantly (P<0.05). Conclusion The up-regulation of Osterix gene expression by SP may stimulate osteoblastic cell differentiation. SP's regulation depends on its receptor NK1.
2.Research progress in osteopontin and pulmonary fibrosis
Haibiao HE ; Zhenlun GU ; Xiaogang JIANG ; Wenxuan ZHOU ; Ciyi GUO
Chinese Pharmacological Bulletin 2010;26(2):151-155
Osteopontin (OPN) is a secreted O-glycosylated phosphoprotein that exists in a variety of tissues and body fluids, with a variety of biological activity. Integrin α_vβ_3 is the main receptor. OPN mainly involves in cell proliferation, differentiation, migration and adhesion. The study of OPN at home and abroad mainly focuses on the bone resorption, angiogenesis, atherosclerosis, digestive system, urinary system, wound healing, skin fibrosis, liver fibrosis, kidney fibrosis, etc.But reports about OPN in pulmonary fibrosis are much less, now the relationships between OPN and pulmonary fibrosis are reviewed.
3.Combinative grafting neural stem cells and NT-3 genetically modified Schwann cells to promote the injured neurons'survival and axonal regeneration of the transected spinal cord rat
Jiasong GUO ; Yuanshan ZENG ; Haibiao LI ; Wenlin HUANG
Chinese Journal of Microsurgery 2000;0(04):-
Objective To explore the effects of neurotrophin-3 genetically modified Schwann cells(NT-3-SCs) and neural stem cells(NSCs) combinative transplantation to promote the neurons'survival and axonal regeneration of the spinal cord transected rat. Methods After the transected spinal cord injury(SCI) model was established in SD rats,NT-3-SCs or LacZ report gene modified Scwhann cells(LacZ-SCs) were combinative transplanted with NSCs into the transected site.60 days later,fluorogold(FG) was injected into the caudal spinal cord fo the transected site.7days after FG injected,the sacrifice,cryosection and morphology serious studies were performed to observe the FG labeled neurons in the rostral spinal cord(RSC) of transected site,red nuclei(RN) and the sensorimotor cortex(SMC);The survival neurons in the L_1 Clark's nuclei(CN),RN and SMC were couut,and regenerated axons within or near the transected spinal cord observed. Results From more to less,the order of groups of the survival neurons in the CN,RN and SMC was NT-3-SCS & NSCs group,LacZ-SCs & NSCs group,experimental control group.In the NT-3-SCs & NSCs group and LacZ-SCs & NSCs group,there were 5-HT,CGRP and SP positive axons within or near the transected spinal cord.And some FGlabeled cells were found in RSC,RN and SMC. Conclusion Combinative grafting NSCs and NT-3-SCs could promote the neurons'survival and axonal regeneration of the spinal cord injured rat.
4.NT-3 genetically modified Schwann cells promote neural stem cells to differentiate into neuron-like cells
Jiasong GUO ; Yuanshan ZENG ; Haibiao LI ; Wenlin HUANG ; Ranyi LIU
Chinese Journal of Pathophysiology 1986;0(01):-
AIM: To explore the effects of neurotrophin-3 (NT-3)-genetically modified Schwann cells (NT-3-SCs) on differentiation of neural stem cells (NSCs) into the neuron-like cells. METHODS: The NSCs were co-cultured with NT-3-SCs. Report gene LacZ genetically modified Schwann cells (LacZ-SCs) and normal SCs respectively in vitro. 7 d later, the differentiation of NSCs was studied by immunohistochemistry, and the percentage of neuron-like cells was calculated. RESULTS: NSCs differentiated to the GFAP-positive cells (glial-like cells) and NF-positive cells (neuron-like cells) in vitro. Compared to the normal SCs, NT-3-SCs more efficiently promoted NSCs to differentiate into the neuron-like cells. The effect of LacZ-SCs was as the same to the normal SCs. CONCLUSION: NT-3-SCs promote NSCs to differentiate into the neuron-like cells. [
5.Rabdosia serra alleviates dextran sulfate sodium salt-induced colitis in mice through anti-inflammation,regulating Th17/Treg balance,maintaining intestinal barrier integrity,and modulating gut microbiota
Hongyi LI ; Yi WANG ; Shumin SHAO ; Hui YU ; Deqin WANG ; Chuyuan LI ; Qin YUAN ; Wen LIU ; Jiliang CAO ; Xiaojuan WANG ; Haibiao GUO ; Xu WU ; Shengpeng WANG
Journal of Pharmaceutical Analysis 2022;12(6):824-838
Rabdosia serra(R.serra),an important component of Chinese herbal tea,has traditionally been used to treat hepatitis,jaundice,cholecystitis,and colitis.However,the chemical composition of R.serra and its effect against colitis remain unclear.In this study,the chemical composition of the water extract of R.serra was analyzed using ultra performance liquid chromatography coupled with a hybrid linear ion trap quadrupole-orbitrap mass spectrometer(UPLC-LTQ-Orbitrap-MS).A total of 46 compounds,comprising ent-kaurane diterpenoids,flavonoids,phenolic acids,and steroids,were identified in the water extract of R.serra,and the extract could significantly alleviate dextran sulfate sodium salt-induced colitis by improving colon length,upregulating anti-inflammatory factors,downregulating proinflammatory fac-tors,and restoring the balance of T helper 17/T regulatory cells.R.serra also preserved intestinal barrier function by increasing the level of tight junction proteins(zonula occludens 1 and occludin)in mouse colonic tissue.In addition,R.serra modulated the gut microbiota composition by increasing bacterial richness and diversity,increasing the abundance of beneficial bacteria(Muribaculaceae,Bacteroides,Lactobacillus,and Prevotellaceae_UCG-O01),and decreasing the abundance of pathogenic bacteria(Turi-cibacter,Eubacterium_fissicatena_group,and Eubacterium_xylanophilum_group).Gut microbiota depletion by antibiotics further confirmed that R.serra alleviated colitis in a microbiota-dependent manner.Overall,our findings provide chemical and biological evidence for the potential application of R.serra in the management of colitis.