Titanium and zirconia particle-induced pro-inflammatory gene expression in cultured macrophages and osteolysis,inflammatory hyperalgesia and edema in vivo

Aims

The biological reaction to wear debris is critical to the osteolysis underlying aseptic loosening of joint prosthetic implants. In an attempt to reduce aseptic loosening, ceramics have been introduced. This study was designed to evaluate, compare and correlate the expression of Toll-like receptors (TLRs), their intracellular adaptors and proinflammatory cytokines in cultured macrophages challenged with titanium or zirconia particles, as well as particle-induced osteolysis in calvaria and hyperalgesia and edema in hind paw.

Main methods

TLRs and their adaptors were evaluated at the mRNA level by RT-PCR, and cytokine expression was evaluated at the mRNA and protein levels. Osteolysis and hyperalgesia and edema were evaluated in vivo, in calvaria and hind paw, respectively.

Key findings

Cultured macrophages challenged with zirconia or titanium particles expressed increased mRNA for TLRs 2, 3, 4 and 9, and their adaptors MyD88, TRIF and NF-κB and cytokines TNF-α, IL-1β and IL-6, which were also increased at protein level. Quantitative differences are evident and, in general, zirconia particle-induced pro-inflammatory gene expression was lower than that induced by titanium particles. In in vivo experiments, exposition to titanium or zirconia particles induced osteolysis in calvaria and hyperalgesia and edema in hind paw; however those induced by zirconia particles were significantly lower. There is a strong and positive correlation between the expressions of mRNA for TLR4, NF-κB, TNF-α, IL-1β and IL-6.

Significance

Collectively, our data suggest that zirconia ceramic particles are less bioactive than titanium particles.     

原花青素对磷酸三钙磨损颗粒所致小鼠颅骨溶解的干预作用及其机制

目的:研究原花青素对磷酸三钙(TCP)磨损颗粒诱导小鼠颅骨溶解的保护作用,并探讨其机制。方法:48只雄性ICR小鼠,随机分为假手术(Sham)组、TCP磨损颗粒(TCP)组、原花青素(0.2mg/kg,1mg/kg,5mg/kg)组,每组12只。将TCP磨损颗粒30mg包埋于小鼠颅骨顶部构建假体周围模型,于术后第2日颅顶局部注射原花青素,隔日1次。2周后处死小鼠采血、取颅骨。抗酒石酸酸性磷酸酶(TRAP)染色和HE染色观察假体周围骨溶解和破骨细胞生成情况;实时荧光定量PCR检测假体周围骨组织中破骨细胞调控基因TRAP、capthesinK、c-Fos和NFATc1的mRNA水平;化学比色法检测血清中丙二醛(MDA)和总抗氧化能力(T-AOC)含量及超氧化物歧化酶(SOD)活性;Westernblot法检测小鼠假体周围骨组织中自噬标志蛋白Beclin-1和微管相关蛋白1轻链3(LC-3)表达变化。结果:与Sham组比较,TCP组假体周围骨溶解面积、破骨细胞生成及其调控基因mRNA水平显著增加(P<0.05),血清MDA含量均明显升高、T-AOC水平和SOD活性明显降低(P<0.05),假体周围骨组织中Beclin-1和LC-3均表达显著上调、LC-3I向LC-3II转换明显增加(P<0.05)。与TCP组比较,原花青素组假体周围骨溶解面积、破骨细胞生成及其上述调控基因、血清MDA含量明显减少(P<0.05),血清T-AOC含量和SOD活性显著增加(P<0.05)且Beclin-1和LC-3等蛋白表达及LC-3I向LC-3II转换也明显下调。结论:原花青素对TCP磨损颗粒所致的假体周围骨溶解具有明显保护作用,其机制可能与减轻氧化应激反应和自噬的活化密切相关。     

氧化应激对磷酸三钙磨损颗粒诱导的假体周围骨溶解的影响及其机制

目的：探讨氧化应激对磷酸三钙（TCP）磨损颗粒诱导的假体周围骨溶解的影响及其作用机制。方法：36只雄性ICR小鼠随机分为3组（n=12）：假手术（Sham）组、TCP磨损颗粒（TCP）组和N-乙酰-L-半胱氨酸（NAC）组。将TCP磨损颗粒30 mg包埋于小鼠颅骨顶部构建假体周围骨溶解模型,于术后第2天颅顶骨膜局部注射NAC（1.0 mg/kg）,隔日1次,持续2周后处死动物采血、取颅骨。抗酒石酸酸性磷酸酶（TRAP）染色观察小鼠颅骨假体周围骨溶解情况;ELISA和化学比色法检测血清中肿瘤坏死因子-α（TNF-α）、白介素-1β（IL-1β）、白介素-6（IL-6）和总抗氧化能力（T-AOC）含量及超氧化物歧化酶（SOD）活性;Western blot检测假体周围骨组织中内质网应激标志蛋白葡萄糖调节蛋白78（GRP78）、蛋白激酶R样内质网激酶（PERK）、磷酸化PERK（p-PERK）、真核细胞翻译起始因子2α（eIF2α）和磷酸化eIF2α（p-eIF2α）的表达。结果：与Sham组比较,TCP组小鼠血清TNF-α、IL-1β和IL-6水平及假体周围骨溶解面积显著增加（P<0.05）,T-AOC含量和SOD活性明显降低（P<0.05）,GRP78蛋白质表达、p-PERK/PERK和p-eIF2α/eIF2α值显著升高。与TCP组比较,NAC组小鼠血清TNF-α、IL-1β和IL-6水平及骨溶解面积明显减少（P<0.05）,血清T-AOC含量和SOD活性明显增加（P<0.05）,GRP78蛋白质表达、p-PERK/PERK和p-eIF2α/eIF2α值明显降低。结论：抑制氧化应激可阻止TCP磨损颗粒诱导的假体周围骨溶解,其机制可能与PERK/eIF2α通路的失活有关。     

Aucubin prevents steroid-induced osteoblast apoptosis by enhancing autophagy via AMPK activation

Steroid-induced osteoblast apoptosis is a crucial pathological process in steroid-induced osteonecrosis of the femoral head (SONFH). Autophagy can resist apoptosis and AMPK plays an important role in autophagy regulation. Aucubin from the small tree Eucommia ulmoides Oliv., which has a long history of use in orthopaedics and traumatology in Asian medicine, can promote bone formation, but whether it can slow or prevent steroid-osteoblast apoptosis is unclear. Therefore, we investigated the pathogenesis of SONFH and how the osteoblast responds to aucubin under the dexamethasone stimulation. In human femoral head osteonecrosis specimens, we found that the autophage and apoptosis level were increased, and the AMPK signalling was crucial to autophagy. We observed that aucubin could prevent dexamethasone-induced apoptosis in osteoblasts by enhancing the level of autophagy. Further, we confirmed that the regulatory effect of aucubin on autophagy and apoptosis was achieved by activating AMPK signalling. We have demonstrated a mechanism of disease progression and shown that aucubin could enhance autophagy through AMPK signalling to prevent osteoblast apoptosis. These findings provide a basis for the further investigation of the potential therapeutic role of aucubin in the SONFH.     

Triptolide improves spinal cord injury by promoting autophagy and inhibiting apoptosis

We investigated the effect of triptolide (TP) on spinal cord injury (SCI), and its underlying mechanism. Following the establishment of the SCI model using YFP H‐line transgenic mice, TP was intraperitoneally injected at a dose of 0.2 mg/kg once daily for 7 days. Behavioral tests, Nissl staining, and hematoxylin–eosin staining were employed to assess motor function recovery and neuronal cell death. Western blot and immunofluorescence staining were used to assess autophagy‐associated proteins (LC3B, p62, Beclin‐1) and the apoptosis‐associated proteins (Bcl‐2, caspase‐3, Bax). The TP‐treated group showed improved motor functions, and reduced neuronal cell death. Also, significant upregulation of Bcl‐2 and LC3B expressions, with the downregulation of p62, Bax and caspase‐3 expressions were found in the TP‐treated group. Additionally, phosphorylation of extracellular signal‐regulated protein kinases 1 and 2 (ERK1 and ERK2) was decreased in the TP‐treated group. TP mediates its protective effect in SCI by promoting the autophagic pathway while inhibiting the MAPK/ERK1/2 signaling pathway. These results demonstrate the therapeutic potential of TP in SCI.     

Runx2‐mediated bcl‐2 gene expression contributes to nitric oxide protection against hydrogen peroxide‐induced osteoblast apoptosis

Nitric oxide (NO) can regulate osteoblast activities. This study was aimed to evaluate the protective effects of pretreatment with sodium nitroprusside (SNP) as a source of NO on hydrogen peroxide‐induced osteoblast insults and its possible mechanisms. Exposure of human osteosarcoma MG63 cells to hydrogen peroxide significantly increased cellular oxidative stress, but decreased ALP activity and cell viability, inducing cell apoptosis. Pretreatment with 0.3 mM SNP significantly lowered hydrogen peroxide‐induced cell insults. Treatment of human MG63 cells with hydrogen peroxide inhibited Bcl‐2 mRNA and protein production, but pretreatment with 0.3 mM SNP significantly ameliorated such inhibition. Sequentially, hydrogen peroxide decreased the mitochondrial membrane potential, but increased the levels of cytochrome c and caspase‐3 activity. Pretreatment with 0.3 mM SNP significantly lowered such alterations. Exposure to hydrogen peroxide decreased Runx2 mRNA and protein syntheses. However, pretreatment with 0.3 mM SNP significantly lowered the suppressive effects. Runx2 knockdown using RNA interference inhibited Bcl‐2 mRNA production in human MG63 cells. Protection of pretreatment with 0.3 mM SNP against hydrogen peroxide‐induced alterations in ALP activity, caspase‐3 activity, apoptotic cells, and cell viability were also alleviated after administration of Runx2 small interference RNA. Thus, this study shows that pretreatment with 0.3 mM SNP can protect human MG63 cells from hydrogen peroxide‐induced apoptotic insults possibly via Runx2‐involved regulation of bcl‐2 gene expression. J. Cell. Biochem. 108: 1084–1093, 2009. © 2009 Wiley‐Liss, Inc.     

补骨脂素对TCP磨损颗粒所致大鼠成骨细胞损伤的干预作用及其机制

目的: 探讨补骨脂素(psoralen)对TCP磨损颗粒诱导成骨细胞损伤的影响及其分子机制。方法: 通过消化法从SD大鼠乳鼠颅骨中获取原代的成骨细胞,应用碱性磷酸酶(ALP)染色鉴定成骨细胞。TCP磨损颗粒(0.1 mg/ml)与成骨细胞共孵育48 h构建成骨细胞损伤的体外实验模型,实验随机分为正常对照组(Control)、模型(TCP)组和psoralen(10^-7 mol/L、10^-6 mol/L和10^-5 mol/L)组。WST法和流式细胞术分别检测各组成骨细胞活性变化和凋亡情况;化学比色法检测成骨细胞中ALP活性;各组成骨细胞培养14 d后应用茜素红S染色观察矿化结节形成。Western blot法检测各组成骨细胞中葡萄糖调节蛋白78/94(GRP78/94)、肌醇依赖酶1α(IRE1α)、剪切型X盒结合蛋白1(XBP1s)和磷酸化c-Jun氨基末端激酶(p-JNK)等蛋白质的表达。结果: 与Control组比较,TCP组成骨细胞活性、ALP活性和矿化结节的生成显著降低(P＜0.05),细胞凋亡率、GRP78/94、IRE1α、XBP1s和p-JNK等蛋白质表达明显增加(P＜0.05);与TCP组比较,补骨脂素各组成骨细胞损伤情况明显减轻,细胞凋亡率显著减少(P＜0.05),GRP78/94、IRE1α、XBP1s和p-JNK等蛋白质表达也明显下降(P＜0.05)。结论: 补骨脂素可抑制TCP磨损颗粒诱导的IRE1α-XBP1s-JNK信号通路的激活,阻止TCP颗粒所致的成骨细胞损伤及凋亡。     

Convergent metatarsal fusion in jerboas and chickens is mediated by similarities and differences in the patterns of osteoblast and osteoclast activities

In many vertebrate animals that run or leap, the metatarsals and/or metacarpals of the distal limb are fused into a single larger element, likely to resist fracture due to high ground‐reaction forces during locomotion. Although metapodial fusion evolved independently in modern birds, ungulates, and jerboas, the developmental basis has only been explored in chickens, which diverged from the mammalian lineage approximately 300 million years ago. Here, we use a bipedal rodent, the lesser Egyptian jerboa (Jaculus jaculus), to understand the cellular processes of metatarsal fusion in a mammal, and we revisit the developing chicken to assess similarities and differences in the localization of osteoblast and osteoclast activities. In both species, adjacent metatarsals align along flat surfaces, osteoblasts cross the periosteal membrane to unite the three elements in a single circumference, and osteoclasts resorb bone at the interfaces leaving a single marrow cavity. However, the pattern of osteoclast activity differs in each species; osteoclasts are highly localized to resorb bone at the interfaces of neighboring jerboa metatarsals and are distributed throughout the endosteum of chicken metatarsals. Each species, therefore, provides an opportunity to understand mechanisms that pattern osteoblast and osteoclast activities to alter bone shape during development and evolution.     

Autophagy is a key factor in maintaining the regenerative capacity of muscle stem cells by promoting quiescence and preventing senescence

Autophagy, a highly regulated cellular degradation and recycling process, can occur constitutively at a basal level, and plays an essential role in many aspects of cell physiology. A recently published study (see the related punctum in Autophagy, Vol. 12, No. 4) suggests that basal autophagy is also important for maintaining the regenerative capacity of muscle stem cells, and that the decline of autophagy with aging is the cause of entry into senescence from quiescence in satellite cells.     

Treatment with metformin and sorafenib alleviates endometrial hyperplasia in polycystic ovary syndrome by promoting apoptosis via synergically regulating autophagy

This study aimed to investigate the molecular mechanisms underlying the roles of metformin (MET) and Sorafenib (SOR) in the treatment of endometrial hyperplasia (EH) in polycystic ovary syndrome (PCOS). Effects of MET and SOR on the area of endometrium and myometrium were detected. Western blot analysis and immunohistochemistry assays were carried out to detect the levels of mammalian target of rapamycin complex 1 (mTORC1), mTORC2, LC3-II, P62, and Caspase-3 in rats and cultured cells. Furthermore, cell counting kit-8 assay and flow cytometry analysis was carried out to determine the apoptotic profiles of treated cells. MET and SOR could apparently decrease the areas of endometrium and myometrium in PCOS. MET notably enhanced the expression of LC3-II and Caspase-3 in PCOS while substantially reducing the level of mTORC1 and P62. Similarly, SOR also enhanced the expression of LC3-II and Caspase-3 in PCOS while substantially reducing the level of mTORC2 and P62. Treatment with MET and SOR significantly inhibited the proliferation of HCC-94 and HEC-1-A cells while promoting their apoptosis by upregulating the expression of Caspase-3. In cells treated with MET, the expression of mTORC1 and LC3-II was upregulated while the expression of P62 was downregulated. Similarly, in cells treated with SOR, the expression of mTORC2 and LC3-II was also upregulated while the expression of P62 was also downregulated. Furthermore, MET showed no effect on mTORC2 expression, while SOR showed no effect on mTORC1 expression. In this study, we suggested that MET and SOR alleviated the risk of EH in PCOS via the mTORC1/autophagy/apoptosis axis and mTORC2/autophagy/apoptosis axis, respectively.     

Astaxanthin prevents pulmonary fibrosis by promoting myofibroblast apoptosis dependent on Drp1‐mediated mitochondrial fission

Promotion of myofibroblast apoptosis is a potential therapeutic strategy for pulmonary fibrosis. This study investigated the antifibrotic effect of astaxanthin on the promotion of myofibroblast apoptosis based on dynamin‐related protein‐1 (Drp1)‐mediated mitochondrial fission in vivo and in vitro. Results showed that astaxanthin can inhibit lung parenchymal distortion and collagen deposition, as well as promote myofibroblast apoptosis. Astaxanthin demonstrated pro‐apoptotic function in myofibroblasts by contributing to mitochondrial fission, thereby leading to apoptosis by increasing the Drp1 expression and enhancing Drp1 translocation into the mitochondria. Two specific siRNAs were used to demonstrate that Drp1 is necessary to promote astaxanthin‐induced mitochondrial fission and apoptosis in myofibroblasts. Drp1‐associated genes, such as Bcl‐2‐associated X protein, cytochrome c, tumour suppressor gene p53 and p53‐up‐regulated modulator of apoptosis, were highly up‐regulated in the astaxanthin group compared with those in the sham group. This study revealed that astaxanthin can prevent pulmonary fibrosis by promoting myofibroblast apoptosis through a Drp1‐dependent molecular pathway. Furthermore, astaxanthin provides a potential therapeutic value in pulmonary fibrosis treatment.     

Abamectin induces apoptosis and autophagy by inhibiting reactive oxygen species‐mediated PI3K/AKT signaling in MGC803 cells

Abamectin (ABA) is one of the most widely used compounds in agriculture and veterinary medicine. However, the cytotoxicity of ABA in human gastric cells is utterly unknown. In this study, ABA suppressed the proliferation of MGC803 cells by arresting the cell cycle at the G0/G1‐phase. Moreover, ABA induced mitochondrial‐mediated apoptosis by inducing the loss of mitochondrial membrane potential, upregulation of Bax/Bcl‐2, and activation of caspase‐3. ABA significantly improved the LC3‐II/LC3‐I ratio and reduced P62 protein expression in a dose‐dependent manner. Through detection of the reactive oxygen species (ROS) levels, we found ABA induced the accumulation of intracellular ROS and then reduced PI3K/AKT signaling activation related to MGC803 cell apoptosis and autophagy. Our results indicate that ABA exerts cytotoxic effects on human MGC803 cells through apoptosis and autophagy by inhibiting ROS‐mediated PI3K/AKT signaling. Furthermore, ABA may be a potential risk to human gastric health.     

Caspase-mediated cleavage of Beclin-1 inactivates Beclin-1-induced autophagy and enhances apoptosis by promoting the release of proapoptotic factors from mitochondria

Autophagy and apoptosis are two important and interconnected stress-response mechanisms. However, the molecular interplay between these two pathways is not fully understood. To study the fate and function of autophagic proteins at the onset of apoptosis, we used a cellular model system in which autophagy precedes apoptosis. IL-3 depletion of Ba/F3 cells caused caspase (casp)-mediated cleavage of Beclin-1 and PI3KC3, two crucial components of the autophagy-inducing complex. We identified two casp cleavage sites in Beclin-1, TDVD¹³³ and DQLD¹⁴⁹, cleavage at which yields fragments lacking the autophagy-inducing capacity. Noteworthy, the C-terminal fragment, Beclin-1-C, localized predominantly at the mitochondria and sensitized the cells to apoptosis. Moreover, on isolated mitochondria, recombinant Beclin-1-C was able to induce the release of proapoptotic factors. These findings point to a mechanism by which casp-dependent generation of Beclin-1-C creates an amplifying loop enhancing apoptosis upon growth factor withdrawal.     

Ganoderic acid A holds promising cytotoxicity on human glioblastoma mediated by incurring apoptosis and autophagy and inactivating PI3K/AKT signaling pathway

Ganoderic acid A (GA‐A), recognized as a lanostanetriterpene isolated from Ganoderma lucidum, demonstrates an efficient antitumor activity in multiple cancers. To date, it is unclear whether and how GA‐A functions on human glioblastoma (GBM). To unravel the functional significance of GA‐A on human glioblastoma (GBM), the cell‐counting kit‐8 and transwell assays were used to detect proliferation, migration, and invasion of human GBM cell after GA‐A treatment. Then, we utilized the flow cytometry and western blot to further evaluate the effect of GA‐A on GBM cell. Further, activities of autophagy and PI3K/AKT signaling were assessed by Western blot assay. We found that GA‐A significantly inhibited proliferation, migration, and invasion of GBM cell. Additionally, GA‐A markedly triggered cell apoptosis, which incarnated an elevation trend in apoptotic percentage, simultaneously, an increased level of proapoptosis protein (Bax and active caspase‐3) and a decreased level of antiapoptosis protein (Bcl‐2), induced by GA‐A treatment. Meanwhile, levels of two well‐known autophagy markers (beclin 1 and LC3 II) increased while another autophagic substrate (P‐62) was reduced. Moreover, the expressions levels of phosphorylated AKT, mTOR, p‐P70S6K, and cyclin D1 in the PI3K/AKT pathway were significantly reduced, which revealed GA‐A repressed the activation of PI3K/AKT signaling pathway. Collectively, these results indicate that GA‐A may encourage U251 cell growth and invasion/migration inhibition, apoptosis, and autophagy through the inactivation of PI3K/AKT signaling pathway in human GBM. Hence, GA‐A may be a potent antitumorigenic agent for human GBM in future clinical practice.     

TNF‐α regulates the early development of avascular necrosis of the femoral head by mediating osteoblast autophagy and apoptosis via the p38 MAPK/NF‐κB signaling pathway

Previous studies have shown that the tumor necrosis factor‐α (TNF‐α) levels in serum and bone tissues formed in avascular necrosis of femoral head (ANFH) patients were higher than those of normal individuals, indicating TNF‐α might play a role in the pathogenesis of ANFH. However, the underlying mechanisms remain unclear. Hematoxylin and eosin staining was performed to show the pathological changes of ANFH bone tissues. TNF‐α expression in normal and ANFH tissues was examined by quantitative real‐time polymerase chain reaction and western blot analyses. Osteoblast autophagy and apoptosis, as well as signaling pathways activation, were measured by their corresponding marker proteins. Osteoblast proliferation, autophagy, and apoptosis were evaluated using cell counting kit‐8, transmission electron microscopy, and flow cytometry. The structures of bone tissues of ANFH were obviously damaged. TNF‐α expression was significantly upregulated in ANFH bone tissues compared to normal tissues. Autophagy and apoptosis were remarkably promoted, and p38 mitogen‐activated protein kinase (MAPK)/nuclear factor‐κB (NF‐κB) signaling pathways were markedly activated in ANFH. Suppression of the p38 MAPK/NF‐κB pathway significantly attenuated the TNF‐α‐induced autophagy, however, enhanced the TNF‐α‐induced apoptosis in osteoblasts. Increased TNF‐α in ANFH regulated osteoblast autophagy and apoptosis by p38 MAPK/NF‐κB signaling pathways, blocking the pathway by inhibitors exacerbated TNF‐α‐induced apoptosis through impairing autophagy flux.     

Autophagy is used as a survival program in unfertilized sea urchin eggs that are destined to die by apoptosis after inactivation of MAPK1/3 (ERK2/1)

A high MAPK1/3 (also known as ERK2/1, respectively) activity, preventing spontaneous activation, is essential to maintain cell cycle arrest of mature oocytes of mammals, frogs or invertebrates such as starfish. Mature oocytes would undergo a “suicide”-like cell death if not fertilized. We previously have reported that downregulation of MAPK1/3 in unfertilized sea urchin eggs induces a calcium-dependent entry into mitosis. We show here that this event is followed by a series of pseudo-mitotic cell cycles associated with transient Ca_i increases, preceding CASP3/caspase-3 activation and apoptosis. However, cell death was delayed after inhibition of the Ca_i transients or of cyclin-dependent kinases (CDK), with roscovitine. In these conditions, eggs enter an autophagy program as suggested by detection of processed LC3B by western blot, immunofluorescence and immunogold staining, visualization of autophagy vesicles by electron microscopy, and an increase in acidic vesicular organelles (AVOs). We found that bafilomycin A₁ or an association of leupeptin and pepstatin, which are widely used to study autophagy, may act upon calcium signaling or cell cycle events, respectively, and not only on autophagy events. Finally, inhibition of PtdIns 3-kinase with wortmannin or LY294002 powerfully stimulated cell death of unfertilized eggs, which suggests that this activity does not negatively regulate autophagy as is often reported, but rather stimulates survival in unfertilized eggs. We suggest that apoptosis of unfertilized eggs is the consequence of an aberrant short attempt of development that occurs if MAPK1/3 is inactivated, but these eggs can use autophagy as a survival program when the cell cycle is blocked.