Objective Toreview theresearch progress of nucleus pulposus cells phenot ypic markers. Methods The domestic and international l iterature about nucleus pulposus cells phenotypic markers was reviewed extensively and summarized. Results Due to different biomechanical properties,nucleus pulposus cells and articular chondrocytes have differences in morphology and extracellular components such as the ratio of aggrecan to collagen type II α1. Nucleus pulposus cells can be identified by surface marker (CD24), gene markers (hypoxia inducible factor 1α, glucosetransporter protein 1, matrix metalloproteinase 2, vascular endothel ial growth factor A, etc), and various markers (keratin 19 and glypican 3,paired box 1, forkhead box F1 and integrin-binding sialoprotein, etc). Conclusion Nucleus pulposus cells and articular chondrocytes have different phenotypic markers, but nucleus pulposus cells are still lack of specific markers.
ObjectiveTo research the biological characteristics of different generations of rabbit nucleus pulposus cells (NPCs) that were cultured with natural culture and subculture method.MethodsThe thoracolumbar segments of New Zealand white rabbits (6-8 weeks old and weighing 1.5-2.5 kg) were obtained and nucleus pulposus were isolated from disc regions. And NPCs were harvested by enzymatic digestion from nucleus pulposus. Primary NPCs were counted as P0 generation. Then, NPCs were passaged by trypsin and counted as P1, P2, P3 with a totle of 4 generations. P0 to P3 generations NPCs were separately examined by observation of cell morphology and proliferation time, detection of apoptosis rates of cells by flow cytometry, and detection of hypoxia-inducible factor 1α (HIF-1α), matrix metalloproteinases 2 (MMP-2), Aggrecan, and collagen type Ⅱ proteins by immunofluorescence and Western blot.ResultsThe morphology of NPCs transformed from triangular or polygonal in P0 generation to spindle in P3 generation; the characteristic vacuolated cells gradually disappeared; and the cell volume and cell proliferation time increased. The cell apoptosis rates were 5.47%±0.91%, 13.77%±2.42%, 33.46%±1.82%, and 38.76%±1.50% from P0 to P3 generations, with the increase of culture time, and there were significant differences between 4 generations (P<0.05). Immunofluorescence staining showed that with the increase of cells generation, the fluorescence intensity of HIF-1α, collagen type Ⅱ, and Aggrecan decreased, and the fluorescence intensity of MMP-2 increased. Western blot results showed that the relative expression of HIF-1α protein was high in P0 generation, the P1 generation has a rising trend, and then gradually decreased; the differences between generations were significant (P<0.05). The relative expression of collagen type Ⅱ protein decreased from P0 to P3 generations and there were significant differences between generations (P<0.05). The relative expression of Aggrecan protein decreased from P0 to P2 generations and there were significant differences between generations (P<0.05); but no significant difference was found between P2 and P3 generations (P>0.05). The relative expression of MMP-2 protein increased significantly in P3 generation; except that the difference between P0 and P2 generations was not significant (P>0.05), the significant differences were found between the other generations (P<0.05).ConclusionRabbit NPCs degeneration model was successfully established by the natural culture and subculture method. Transforming of NPCs morphology, increasing of cell apoptosis rates, decreasing of anabolism, and increasing of catabolism were presented in NPCs degeneration model.
Objective Bone marrow mesenchymal stem cells (BMSCs) transplantation can potentially regenerate the degenerated intervertebral disc, with the underlying regenerating mechanism remaining largely unknown. To investigate the potential of human BMSCs protecting nucleus pulposus cells (NPCs) from oxidative stress-induced apoptosis in a coculturesystem, and to illustrate the possible mechanisms of BMSCs transplantation for intervertebral disc regeneration. Methods BMSCs collected by density gradient centrifugation in Percoll solution were cultured and sub-cultured till passage 3, and the surface molecules of CD34, CD45, and CD13 were identified. NPCs were isolated by collagenase digestion and the chondrocyte l ike phenotype was confirmed by morphologic observation after HE staining, inverted phase contrast microscope, proteoglycan, and collagen type II expression after toluidine blue and immunocytochemistry staining. The 3rd passage BMSCs and the 1st passage NPCs were divided into four groups: group A, NPCs (1 × 106 cells) were cultured alone without apoptosis inducing (negative control); group B, NPCs (1 × 106 cells) were co-cultured with BMSCs (1 × 106 cells) with apoptosis inducing; group C, NPCs (1 × 106 cells) were co-cultured with BMSCs (3 × 105 cells) with apoptosis inducing; group D, NPCs (1 × 106 cells) were cultured alone with apoptosis inducing (positive control). After 3 or 7 days of culture or co-culture, the NPCs in groups B, C, and D were exposed to 0.1 mmol hydrogen peroxide for 20 minutes to induce apoptosis. With DAPI staining cellular nucleus, Annexin-V/propidium iodide staining cellular membrane for flow cytometry analysis, the apoptosis of NPCs in each group was studied both qual itatively and quantitatively. Besides, the changes in Bax/Bcl-2 gene transcription and Caspase-3 protein content, were analyzed with semi-quantitative RT-PCR and Western blot. Results BMSCs were successfully isolated and CD34-, CD45-, and CD13+ were demonstrated; after isolated from degenerated intervertebral discs and sub-cultured, the spindle-shaped 1st passage NPCs maintained chondrocyte phenotype with the constructive expressions of proteoglycan and collagen type II in cytoplasm. DAPI staining showed the nucleus shrinkage of apoptosis NPCs. Co-cultured with BMSCs for 3 days and 7 days, the apoptosis rates of NPCs in groups B (29.26% ± 8.90% and 18.03% ± 2.25%) and C (37.10% ± 3.28% and 13.93% ± 1.25%) were lower than that in group D (54.90% ± 5.97% and 26.97% ± 3.10%), but higher than that of groupA (15.67% ± 1.74% and 8.87% ± 0.15%); all showing significant differences (P lt; 0.05). Besides, semi-quantitative RT-PCR showed Bcl-2 gene transcription up-regulated (P lt; 0.05) and no significant change of Bax (P gt; 0.05); Western blot result showed that the Caspase-3 protein expression of groups B and C was lower than that of group D, and was higher than that of group A; all showing significant differences (P lt; 0.05). Conclusion In a co-culture system without direct cellular interactions, the oxidative stress-induced apoptosis of human NPCs was amel iorated by BMSCs. The enhanced anti-apoptosis abil ity of NPCs preconditioned by co-culturing with BMSCs might come from the decreased Bax/Bcl-2 gene transcription ratio.
Objective To investigate the effects of human insulin-like growth factor 1 (hIGF-1) gene transfected by recombinant adenovirus vector (Ad-hIGF-1) on the apoptosis of rabbit nucleus pulposus cells induced by tumor necrosis factor α (TNF-α). Methods The intervertebral disc nucleus pulposus were harvested from 8 healthy adult domestic rabbits (male or female, weighing 2.0-2.5 kg). The nucleus pulposus cells were isolated with collagenase II digestion and the passage 2 cells were cultured to logarithm growing period, and then they were divided into 3 groups according to culture condition: DMEM/F12 medium containing 10% PBS, DMEM/F12 medium containing 10% PBS and 100 ng/mL TNF-α, and DMEM/ F12 medium containing 10% PBS, 100 ng/ mL TNF-α, and Ad-hIGF-1 (multiplicity of infection of 50) were used in control group, TNF-α group, and Ad-hIGF-1 group, respectively. The results of transfection by adenovirus vector carrying hIGF-1 gene were observed by fluorescent microscopy; the expression of hIGF-1 protein was detected by Western blot, hIGF-1 mRNA expression by RT-PCR, and the cell apoptosis rate by TUNEL and flow cytometry. Results Green fluorescence was observed by fluorescent microscopy in Ad-hIGF-1 group, indicating that successful cell transfection. The expressions of hIGF-1 protein and mRNA were detected in Ad-hIGF-1 group by Western blot and RT-PCR, while the control group and TNF-α group had no expression. The cell apoptosis rates of TNF-α group, Ad-hIGF-1 group, and control group were 34.24% ± 4.60%, 6.59% ± 1.03%, and 0.40% ± 0.15%, respectively. The early apoptosis rates of TNF-α group, Ad-hIGF-1 group, and control group were 22.16% ± 2.69%, 5.03% ± 0.96%, and 0.49% ± 0.05%, respectively; the late cell apoptosis rates were 13.96% ± 4.86%, 10.68% ± 3.42%, and 0.29% ± 0.06%, respectively. Compared with TNF-α group, the cell apoptosis rates of Ad-hIGF-1 group and control group were significantly reduced (P lt; 0.05); the cell apoptosis rate of Ad-hIGF-1 group was significantly higher than that of control group (P lt; 0.05). Conclusion Ad-hIGF-1 could inhibit the apoptosis of nucleus pulposus cells induced by TNF-α.
ObjectiveTo isolate nucleus pulposus cells (NPCs) from the caudal and lumbar intervertebral disc of rat, and to identify the morphology and to compare the characteristics. MethodsThe whole spine was separated from 8-week-old Sprague Dawley rats under the sterile conditions. NPCs of different segments (lumbar group: L1,2-L6, S1; caudal group: C1,2-C17,18) were cultured by adherent cultivation approach. Cellular morphologic change was noted by HE staining and continuous observation under inverted phase contrast microscope. Besides, the aggrecan and collagen type Ⅱexpression were examined by toluidine blue and immunocytochemistry staining respectively. The total protein contents, senescence level, and the cell viability of passage 1-5 (P1-5) were detected. The growth curves of the P1 cells in lumbar and caudal groups were determined by cell counting kit 8. ResultsThe NPCs were isolated and identified successfully. The adherence time of the primary cells (the cell fusion reached 90%) in lumbar group was significantly longer than that in caudal group in primary generation (P<0.05). HE staining showed that cytoplasm was pink with the blue nucleus. Lumbar disc NPCs were spindle. The larger caudal disc NPCs were polygonal or irregular. Toluidine blue staining showed that the proteoglycan was stained as blue. In the cytoplasm of cells, collagen type Ⅱwas stained as brown surround the blue-black nucleus. The cell viability had no significant difference between lumbar and caudal groups and between different passages in the same group (P>0.05). The caudal disc NPCs reached their logarithmic growth phase after 3 days of culture, while the cells in lumbar segments did after 4-5 days of culture. The cell proliferation in caudal segments was more than that in lumbar segments at 3-9 days (P<0.05). The difference in the total protein contents was not significant between cells at P1-5 in 2 groups (P>0.05), and the caudal disc NPCs had higher protein contents than lumbar disc NPCs (P<0.05). There was no significant difference in cell senescence rate between cells at P1, P2, and P3 in 2 groups (P>0.05), but significant difference was shown in senescence rate between 2 groups in cells at P4 and P5 (P<0.05). ConclusionCaudal disc NPCs have a better status, which is more suitable for experiment as a seed cell than the lumbar disc NPCs in the same generation.
Objective To introduce the research of nucleus pulposus cells for treating intervertebral disc degeneration. Methods The original articles in recent years about nucleus pulposus cells for treating intervertebral disc degeneration were extensively reviewed, and retrospective and comprehensive analysis was performed. Results Nucleus pulposus cells are not only simply a remnant of embryonic notochordal cells, but have also an important influence on the well-being of the whole disc. The biological treatment strategies aim to regenerate the disc by either trying to improve the micro-enviroment within the disc or to increase the popoulation of the nucleus pulposus, which includes transplanting mesenchymal stem cellsto differentiate into nucleus-l ike cells in the degenerated intervertebral disc. Conclusion Nucleus pulposus cells or ucleus pulposus l ike cells based cell transplantation methods prove to be a promising and real istic approach for the intervertebral disc regeneration.
Objective To introduce the research of cell transplantation for treating intervertebral disc degeneration. Methods The original articles in recent years about cell transplantation for treating intervertebral disc degeneration were extensively reviewed, and retrospective and comprehensive analysis was performed. Results Transplantation of intevertebraldisc-derived cells or BMSCs by pure cell transplantation or combined with collagen scaffold into intervertebral disc couldexpress nucleus pulposus-l ike phenotype. All the cells transplanted into intervertebral disc could increase extracellular matrix synthesis and rel ieve or even inhibit further intervertebral disc degeneration. Conclusion Cell transplantation for treating intervertebral disc degeneration may be a promising approach.
Objective To evaluate the cell biological features and the effect of transplantation of transforming growth factor β3 (TGF-β3) gene-modified nucleus pulposus (NP) cells on the degeneration of lumbar intervertebral discs in vitro. Methods NP cells at passage 2 were infected by recombinant adenovirus carrying TGF-β3 (Ad-TGF-β3) gene (Ad-TGF-β3 group), and then the cell biological features were observed by cell vital ity assay, the expression of the TGF-β3 protein was determined by Western blot, the expression of collagen type II in logarithmic growth phase was determined by immunocytochemistry. The cells with adenovirus-transfected (Adv group) and the un-transfected cells (blank group) were used as controls. The model of lumbar disc degeneration was establ ished by needl ing L3, 4, L4, 5, and L5, 6 in 30 New Zealand rabbits (weighing 3.2-3.5 kg, male or female). Then Ad-TGF-β3-transfected rabbit degenerative nucleus pulposus cells (100 μL, 1 × 105/ mL, group A, n=12), no gene-modified nucleus pulposus cells (100 μL, 1 × 105/mL, group B, n=12), and phosphatebuffered sal ine (PBS, 100 μL, group C, n=6) were injected into degenerative lumbar intervertebral discs, respectively. L3, 4, L4, 5, and L5, 6 disc were harvested from the rabbits (4 in groups A and B, 2 in group C) at 6, 10, and 14 weeks respectively to perform histological observation and detect the expression of collagen type II and proteoglycan by RT-PCR. Results The viabil ity of nucleus pulposus cells was obviously improved after transfected by recombinant Ad-TGF-β3 gene. At 3, 7, and 14 days after transfected, TGF-β3 expression gradually increased in nucleus pulposus cells. The positive staining of collagen type II was seen in Ad-TGF-β3 group, and the positive rate was significantly higher than that of Adv group and blank group (P lt; 0.05). The disc degeneration in group A was sl ighter than that in groups B and C. The expressions of collagen type II mRNA and proteoglycan mRNA in group A were significantly higher than those in groups B and C at 6, 10, and 14 weeks (P lt; 0.05). Conclusion TGF-β3 can improve the biological activity of NP cells and promote the biosynthesis of collagen type II and proteoglycan in intervertebral discs, alleviate the degeneration of intervertebral discs after transplantation.
Objective To research the biological feature of intervertebral disc nucleus pulposus cells (NPCs) by observing cell morphous, phenotype and ultramicrostructure. Methods The NPCs from 2-week-old healthy rabbit werecultured in DMEM/F12 medium with 15% FBS. The cell biological features were observed by inverted phase contrast microscope, l ight microscope, electron microscope, cell vital ity assay, cell growth curve and cells staining after harvest and during the periods of culturing the primary, the 1st passage and 2nd passage. Results The results of inverted phase contrast microscope showed that the primary passage adhered at 5 days, grew exponentially at 6-8 days, and were subcultured after covering the bottom at 17 days. The phenotype of the NPCs changed from polygon to long fusiform with passage increased; the vital ity assay showed that there was about 95%-97%, 98%-100%, 100% and 75%-80% NPCs survived just after isolation from intervertebral disc, during the period of culturing the primary, the 1st passage and the 2nd passage, respectively. The toluidine blue staining of the NPCs was bly positive, and HE staining showed clear cell nucleus and cytoplasm. The I collagen immunohistochemical staining showed negative results in the 1st passage, but II collagen immunohistochemical staining and safranin O staining showed positive results. However, the I collagen immunohistochemical staining showed positive result in the 2nd passage, and II collagen immunohistochemical staining and safranin O staining showed weakly positive results. The cell growth curve showed the same as the growth course of cell cultured in vitro. The results of TEM showed that there were many glycogen particles and less chondriosomes in the primary passage. With the increased passage, the glycogen particles decreased and the chondriosomes increased, and cell organ became swell. Conclusion This study clarifies the biological feature of NPCs in vitro, providing the experimental basis for the seed cell research of the nuclues pulposus tissue.
【Abstract】 Objective To detect the expression of Bcl-2/adenovirus E1B 19-kDa-interacting protein 3 (BNIP3)in cell death induced by nutrition deprivation in nucleus pulposus cells so as to further understand the mechanism of deathin nucleus pulposus cells. Methods Two adult Sprague Dawley rats, male or female, weighing 150-200 g, were involvedin this experiment. The cells isolated from rat caudal disc were cultured under the condition of L-DMEM culture media,10%FBS, and 21%O2 (control group) and under the condition of DMEM-free glucose culture media, no serum, and 1% O2(experimental group). The expressions of BNIP3 gene and protein were detected by real-time fluorescent quantitative PCR,immunofluorescence staining, and Western blot. The cell apoptosis rate and mitochondrial membrane potential were measuredby flow cytometry at 24, 48, and 72 hours after culture. Results The expression of BNIP3 decreased in the control group;the expressions of BNIP3 showed an increasing tendency with time in the experimental group, and BNIP3 combined withmitochondria. Significant differences were observed in the expressions of BNIP3 gene and protein between 2 groups at the othertime (P lt; 0.05) except that no significant difference was observed in the expression of BNIP3 gene at 24 hours (P gt; 0.05). Thecell apoptosis rate and mitochondrial membrane potential were significantly lower in the experimental group than those in thecontrol group (P lt; 0.05). Conclusion Upregulation of BNIP3 and translocation to mitochondria may be involved in nucleuspulposus cell death in nutrition deprivation.