1.Preparation of a rat model of neonatal hypoxic-ischemic encephalopathy
Wei PANG ; Shuaishuai CAO ; Shuyi LI ; Yuguang TIAN ; Weiwang GU
Chinese Journal of Comparative Medicine 2016;26(6):61-66,74
Objective To simulate the process of hypoxic?ischemic brain injury at high altitude in a simulated cabin with plateau low pressure environment, and to prepare a rat model of cerebral injuries at different high altitudes. Method Thirty?two 0?day?old neonatal SD rats were divided into four groups, namely group A ( control group) and three test groups:group B (2000 m group), group C (4000 m group), and group D (6000 m group). The rats of control group were reared in a barrier environment. The rats of test groups were placed in a simulated cabin with plateau low pressure environment, and to prepare neonatal cerebral ischemia?hypoxia model by sport activities. The sport movements were carried out in the cabin in a swimming groove 60 min/d, and not less than 20 hours a day at high altitude low pressure environment. Zea Longa 5 point scale standard was used to determine the behavioral scores at the 3 th 7 th 11 th 15 th days, and samples were collected on the 15th day to observe red blood cell morphology using HE and 2, 3, 5?triphenyltetrazolium chloride ( TTC ) staining and ultrastructure by scanning electron microscopy. Result ( 1 ) The neurological scores of the test groups A, B, C were significantly different from that of the control group (P<0?05), and the scores of test group D and control group were very significantly different ( P <0?01 ) . ( 2 ) The histopathological examination using HE staining showed inflammatory cell infiltration in all rats of the test groups, and the extent of inflammatory cell infiltration was positively correlated with the increase of altitude. ( 3 ) The histopathology with TTC staining revealed prominent ischemia in the cerebral cortex of rats in the plateau hypoxic environment. ( 4 ) Scanning electron microscopy showed that the rat erythrocytes were cap?like in the group B, irregular in the group C, and zigzag shape in the group D. Conclusions In this study, a rat model of neonatal hypoxic?ischemic encephalopathy ( HIE) is successfully established by hypoxic cabin combined with sport activity. This model is stable, reliable, more closely mimicking the pathogenesis and clinical manifestation of neonatal HIE than models prepared with other methods, therefore, may be used in related research.
2.Prevascularization of tissue-engineered bone grafts promotes repair of femoral bone defects in rats
Donglin LI ; Pengzhen CHENG ; Huijie JIANG ; Jimeng WANG ; Yi GAO ; Shuaishuai ZHANG ; Tianqing CAO ; Junqin LI ; Chunmei WANG ; Liu YANG ; Guoxian PEI
Chinese Journal of Orthopaedic Trauma 2017;19(4):333-339
Objective To investigate the effect of prevascularized tissue-engineered bone graft on regeneration of femoral bone defects in rats.Methods Models of femoral bone defect were created at the bilateral hind limbs of 20 healthy female 10 week-old rats which were divided into 2 even groups randomly (n =10).In group A,conventional tissue-engineered bone grafts were transplanted into the femoral bone defects;in group B,tissue-engineered bone grafts and vascular bundles were implanted into the femoral defects.At 1,4 and 8 weeks after operation,3 rats were sacrificed each time in each group to harvest samples.The remaining one in each group served as a spare animal.Regeneration of bone defects and degradation of scaffolds were assessed by radiologic modality and hematein eosin staining.Results At week 1,the new bone ratio (BV/TV) was 5.47% ± 1.90% in group A and 8.49% ± 1.26% in group B,showing no significant difference (P > 0.05);at weeks 4 & 8,the BV/TV were 17.54% ±2.04% and 39.73% ± 4.01% in group A,significantly lower than those in group B (25.32% ± 2.15% and 53.22% ± 2.94%) (P < 0.05).At weeks 1 & 4,the scaffold degradation ratios (RSV/SV) were 97.33% ± 2.52% and 80.60% ±4.00%,showing no significant differences from those in group B (95.67% ±3.51% and 75.22% ±6.20%) (P > 0.05).At week 8,the scaffold degradation ratio in group A (65.46% ±4.51%) was significantly higher than that in group B (50.19% ±4.91%) (P < 0.05).At week 8,hematein eosin staining showed better integration of scaffolds with the femur,faster degradation of the interior scaffolds and greater osteogenetic activity in group B.Conclusion Prevascularization of tissue-engineered bone graft may increase new bone volume and scaffold degradation rate,promoting repair of femoral bone defects in rats.
3. Bone marrow mesenchymal stem cells interactions with hepatocytes and hepatic stellate cells on different stiff substrates
Xiumei CAO ; Qiping HUANG ; Shuaishuai CHEN
Chinese Journal of Hepatology 2019;27(6):424-429
Objective:
To explore the effect of substrate mechanical microenvironment and cell-cell interaction on differentiation of bone marrow mesenchymal stem cells (BMSCs), intrahepatic cellular function and phenotype.
Methods:
Bone marrow mesenchymal stem cells (BMSCs)-hepatocytes (HCs) and BMSCs-hepatic stellate cells (HSCs) were co-cultured on polyvinyl alcohol (PVA) hydrogel substrates at different stiffness (4.50 ± 0.47 kPa, 19.00 ± 3.51 kPa and 37.00 ± 2.09 kPa) by non-contact co-culture method. Furthermore, the effect of substrate mechanical microenvironment on BMSCs, HCs and HSCs and the activation and proliferation of HCs under different co-cultured condition was studied. A Student's t-test was used to compare the two groups.
Results:
The expression ofα-smooth muscle actin (α-SMA) and collagenα1- I (Col1A1) in BMSCs and HSCs cultured on its own increased with increase of substrate stiffness. After 72 h, the expression of albumin (ALB) of HCs on three stiff substrates was significantly higher than that of 24 and 48 h. Moreover, the expression of ALB of HCs increased with the increase of substrate stiffness. During the co-culture of BMSCs and HSCs, BMSCs of all three stiffness substrates promoted the expression ofα-SMA, Col1A1 in HSCs, but reduced the expression of PPARγin HSCs cells, thererby promoted the activation of HSCs, with apparent stiffness at 37 kPa. HSCs promoted the expression of ABL in BMSCs at three stiff substrates, but inhibited the expression of alpha-SMA and Col1A1 in BMSCs at 37 kPa, suggesting that co-culture had inhibited the differentiation of BMSCs myofibroblasts, and promoted the differentiation of hepatocyte-like cells, especially at high stiff substrates. In the co-culture of BMSCs and hepatic parenchymal cells, BMSCs had promoted the proliferation of hepatic parenchymal cells at 4.5 kPa. Further, hepatic parenchymal cells had inhibited the expression ofα-SMA in BMSCs, and promoted the expression of Alb, with inhibition of BMSCs differentiation towards myofibroblasts.
Conclusion
The differentiation of BMSCs affects the substrate mechanical microenvironment, co-culture of HCs and HSCs. Simultaneously, affecting the function of hepatocytes in relation to the mechanical state of the substrates.
4.Systematic evaluation of repairing femoral defects by biomechanical measurements in rats
Tianqing CAO ; Pengzhen CHENG ; Liu YANG ; Shuaishuai ZHANG ; Donglin LI ; Yue SONG ; Bin LIU ; Hao WU ; Guoxian PEI
Chinese Journal of Orthopaedic Trauma 2018;20(3):247-253
Objective To systematically evaluate the biomechanical recovery of drilled holes in the femur in SD rats.Methods Eighteen female SD rats were randomized into 3 even groups (n =6).Models of 2-mm drilled holes in bilateral femurs were established in groups A and B with 2 holes on each side while no drilling was performed in group C.Samples were harvested in group A at postoperative 4 weeks,in group B at postoperative 8 weeks while at both 4 and 8 weeks in group C.The samples were evaluated in terms of linear elasticity (compression test),viscoelasticity (relaxation and creep tests) and durability (fatigue failure test).Micro-CT scan was performed to measure the bone volume fraction (BV/TV) and bone mineral density (BMD) of new bone.Sirus red staining was performed to measure regeneration of type Ⅰ collagen of new bone.Results The elasticity modulus,maximum load,compression strength and conditional yield limit in groups A were significantly lower than those in group B which were also significantly lower than those in group C (P < 0.05).At 7,200 s,the relaxation (14.56 ±0.69 MPa) and creep variation (11.37% ± 0.70%) in group A were significantly higher than those in group B (11.06 0.63 MPa and 8.98% ± 0.40%) which were also significantly higher than those in group C (6.99 ±0.56 MPa and 5.10% ±0.23%) (P < 0.05).At the constant amplitude loads from 20 N to 200 N,from 20 N to 300 N and from 20 N to 400 N,the recycling numbers in group A (6,044.3 ±879.7,4,093.3 ±628.5 and 1,919.3 ±847.5) were significantly lower than those in group B (10,192.3 ± 1,109.1,6,750.6 ± 818.0 and 3,376.6 ± 671.3) which were also significantly lower than those in group C (28,068.3 ±2,702.6,11,788.3 ± 1,141.6 and 5,296.3 ± 735.0) (P < 0.05).By micro-CT scan,the BVT and BMD in group A were significantly lower than those in group B which were also significantly lower than those in group C (P < 0.05).The sirus red staining showed the type Ⅰ collagen in the bone defect area was completely regenerated in group B.Conclusion Systematic biomechanical measurements may actually detect the characteristics of biomechanical recovery of bone holes in SD rats,enriching the basic research on the bone damage repairing progress.
5.Classical Famous Prescription Zhenwutang in Treatment of Chronic Heart Failure: A Review
Zhuhui ZHANG ; Cheng CHEN ; Jianhe LIU ; Jiao CAO ; Shuaishuai XIA
Chinese Journal of Experimental Traditional Medical Formulae 2022;28(13):242-249
Chronic heart failure (CHF), the end stage of heart disease due to a variety of causes, features high disability rate and mortality, which has become a hot spot in cardiovascular field. As recorded in Treatise on Cold Damage(《伤寒论》), Zhenwutang is composed of Radix Aconiti Lateralis Preparata, Poria Cocos, Rhizoma Atractylodis Macrocephalae, Paeoniae Radix Alba, and Rhizoma Zingiberis Recens. With the functions of warming Yang and excreting water, it is a classical prescription for the treatment of CHF in clinical settings. By searching China National Knowledge Infrastructure (CNKI), PubMed, Wanfang Data, and VIP, we find Zhenwutang exerts therapeutic effect on CHF through multiple targets and multiple pathways. Experiments show that it alleviates CHF by antagonizing the overactivation of neuroendocrine system, inhibiting immune-inflammatory response, suppressing cardiac remodeling, restricting apoptosis, regulating autophagy, improving myocardial energy metabolism, inhibiting oxidative stress injury, protecting endothelial function, and decreasing volume load. Clinical research shows that Zhenwutang can significantly alleviate the clinical symptoms of CHF patients in a safe manner with little adverse reactions. This paper systematically summarizes the mechanisms of and clinical research on Zhenwutang in the treatment of CHF in recent years, so as to provide theoretical and experimental data for the further research and development of Zhenwutang.
6.Comparison of cellular localization of NS1 from different subtypes of influenza A virus.
Meng YU ; Shuaishuai CAO ; Weinan ZHENG ; Xiaoxiao JIA ; Jing LI ; Wenjun LIU
Chinese Journal of Biotechnology 2016;32(11):1600-1609
The non-structural (NS1) protein is a multifunctional molecular protein encoded by influenza A virus genome. NS1 plays an important role in inhibition of host immune responses. In order to assess the cellular localization of NS1 in different influenza A virus subtypes, we performed the immunofluorescence assay to observe the cellular location of NS1 after infection with influenza A virus WSN (H1N1), PR8 (H1N1), CA04 (H1N1), SD (H9N2) and AH01 (H7N9) in A549 cells and MDCK cells respectively. According to the results, NS1-WSN and NS1-PR8 accumulated mainly in cytoplasm at 24 h post infection, while the NS1-CA04 and NS1-SD appeared major in the nucleus. We also observed localization of NS1 by transfected 293T cells with plasmids which encoding the full-length NS1 from WSN, SD and AH01. The key sites which might determine the different cellular localization of NS1 were chosen by sequence alignment, and seven residues which were different between WSN, PR8 and CA04, SD and AH01 were finally focused. However, we found that single mutation of these residues could not alter the localization of NS1. The data indicated that the difference of location might not be caused by substitution of a single site, which contributes to our understanding of the diverse regulation of host factors during different subtypes of influenza virus infection.