Mechanical stress modulates bone formation and organization of the extracellular matrix(ECM),the interaction of which affects heterotopic ossification(HO).However,the mechanically sensitive cell populations in HO and ...Mechanical stress modulates bone formation and organization of the extracellular matrix(ECM),the interaction of which affects heterotopic ossification(HO).However,the mechanically sensitive cell populations in HO and the underlying mechanism remain elusive.Here,we show that the mechanical protein Polysyctin-1(PC1,Pkd1)regulates CTSK lineage tendon-derived mesenchymal stem cell(TDMSC)fate and ECM organization,thus affecting HO progression.First,we revealed that CTSK lineage TDMSCs are the major source of osteoblasts and fibroblasts in HO and are responsive to mechanical cues via single-cell RNA sequencing analysis and experiments with a lineage tracing mouse model.Moreover,we showed that PC1 mediates the mechanosignal transduction of CTSK lineage TDMSCs to regulate osteogenic and fibrogenic differentiation and alters the ECM architecture by facilitating TAZ nuclear translocation.Conditional gene depletion of Pkd1 or Taz in CTSK lineage cells and pharmaceutical intervention in the PC1-TAZ axis disrupt osteogenesis,fibrogenesis and ECM organization,and consequently attenuate HO progression.These findings suggest that mechanically sensitive CTSK-lineage TDMSCs contribute to heterotopic ossification through PC1-TAZ signaling axis mediated cell fate determination and ECM organization.展开更多
Heterotopic mesenteric ossification(HMO)is a rare medical condition,with<100 cases reported globally by 2024.This disorder is characterized by abnormal bone tissue formation within the mesentery,often following abd...Heterotopic mesenteric ossification(HMO)is a rare medical condition,with<100 cases reported globally by 2024.This disorder is characterized by abnormal bone tissue formation within the mesentery,often following abdominal trauma,ischemia,or infection.This editorial reviews the case presented by Zhang et al,involving a 34-year-old male who developed persistent left lower abdominal pain after sustaining blunt trauma to the abdomen.Diagnostic challenges arose due to the rarity and nonspecific presentation of HMO,which shares histopathological features with conditions such as myositis ossificans and necessitates differentiation from malignancies like sarcomas.Advanced imaging revealed calcifications suggestive of HMO,but definitive diagnosis was achieved only through surgical resection and histopathological analysis,which confirmed the presence of ectopic bone formation.Although benign,HMO can result in severe complications,such as bowel perforation or obstruction.Therefore,awareness of HMO is crucial for clinicians to ensure timely and appropriate treatment.展开更多
Dear Editor,Sturge-Weber Syndrome(SWS)is a rare congenital neurocutaneous syndrome[1,2],with an estimated prevalence of 0.19 in 100,000 annually[3].It is a non-hereditary disease linked to a somatic mutation in the GN...Dear Editor,Sturge-Weber Syndrome(SWS)is a rare congenital neurocutaneous syndrome[1,2],with an estimated prevalence of 0.19 in 100,000 annually[3].It is a non-hereditary disease linked to a somatic mutation in the GNAQ,GNA11,or GNB2 gene[1],leading to vascular malformations in the cutaneous forehead,cerebral cortex,and eye[1,2].Notably,~70%of pediatric patients diagnosed with SWS exhibit brain calcification(BC)[4],though the prevalence of BC ranges from only 1%in young individuals to>20%in the senior population(>60 years old)[5].Similar to the elderly,BC in pediatric SWS patients is identified as vascular calcification[6,7],whereas BC in pediatric patients with tuberous sclerosis and tumors has been previously described as dystrophic calcification[6].展开更多
BACKGROUND Among all forms of heterotopic ossification,heterotopic mesenteric ossification(HMO)is rare,with fewer than 100 reported cases to date.Postoperative early small bowel obstruction caused by HMO is even rarer...BACKGROUND Among all forms of heterotopic ossification,heterotopic mesenteric ossification(HMO)is rare,with fewer than 100 reported cases to date.Postoperative early small bowel obstruction caused by HMO is even rarer,presenting extremely high surgical risks,the potential for multiple surgeries,and a poor prognosis.There have been no reported cases of conservative treatment for resolving such early postoperative obstruction.CASE SUMMARY A 57-year-old male presented with severe postoperative small bowel obstruction shortly after undergoing open radical resection for transverse colon cancer.Laparotomy revealed extensive adhesions in the proximal jejunum and mesen-tery,making it too difficult to relieve without injuring the small bowel.Addi-tionally,multiple fixed nodules were found in the mesentery during the opera-tion.Pathology confirmed the presence of heterotopic ossification.The patient was treated with methylprednisolone on postoperative day 1,which gradually relieved his symptoms.CONCLUSION Hormone therapy may have a potential role in treating small bowel obstruction caused by early HMO after operative intervention.展开更多
In this article,we make a comment on the recent article by Sun et al,focusing on the advances of neutrophil extracellular traps(NETs)formation in common osteoarticular diseases.Neutrophils are the first line to elimin...In this article,we make a comment on the recent article by Sun et al,focusing on the advances of neutrophil extracellular traps(NETs)formation in common osteoarticular diseases.Neutrophils are the first line to eliminate invading pathogens including fungal and bacterial infections via releasing hydrolytic enzymes and reactive oxygen species.Besides,neutrophils will accumulate at the inflammatory site and release NETs,which are composed of histones,DNA and granular proteins.Traumatic heterotopic ossification(THO)was generally believed to develop through four stages:Inflammation,chondrogenesis,osteogenesis,and bone maturation.Thus,it can be seen that THO was related to inflammation and bone formation.Apart from immune and infectious diseases,recent studies have also shown that NETs play a significant role in the pathogenesis of THO.This article focuses on elaborating the role of NETs in the onset of THO,discussing the existing problems in the current research and outlining future directions.展开更多
BACKGROUND Thoracic ossification of the posterior longitudinal ligament(T-OPLL)is caused by the ossified posterior longitudinal ligament occupying space in the spinal canal,which causes compression of the thoracic spi...BACKGROUND Thoracic ossification of the posterior longitudinal ligament(T-OPLL)is caused by the ossified posterior longitudinal ligament occupying space in the spinal canal,which causes compression of the thoracic spinal cord.Surgical treatment is difficult,risky and complicated;thus,clinical treatment is difficult at present.CASE SUMMARY A case of severe multi-segmental T-OPLL treated with thoracic anterior controllable antedisplacement fusion(TACAF)is reported,including the surgical procedures and analysis of the clinical data.The modified-Japanese Orthopaedic Association score in this patient was 4 before surgery,and it was raised to 9 after the operation.The symptoms of spinal canal compression were subsequently relieved.Three months after surgery,digital radiography showed good healing and recovery of limb sensory function.CONCLUSION This case report suggests that TACAF is feasible for the treatment of long-segment T-OPLL,and has the advantages of low risk and reduced trauma.However,this operation still needs to be verified by clinical research with a larger sample size.展开更多
Piezo proteins are mechanically activated ion channels,which are required for mechanosensing functions in a variety of cell types.While we and others have previously demonstrated that the expression of Piezo1 in osteo...Piezo proteins are mechanically activated ion channels,which are required for mechanosensing functions in a variety of cell types.While we and others have previously demonstrated that the expression of Piezo1 in osteoblast lineage cells is essential for boneanabolic processes,there was only suggestive evidence indicating a role of Piezo1 and/or Piezo2 in cartilage.Here we addressed the question if and how chondrocyte expression of the mechanosensitive proteins Piezo1 or Piezo2 controls physiological endochondral ossification and pathological osteoarthritis(OA)development.Mice with chondrocyte-specific inactivation of Piezo1(Piezo1^(Col2a1Cre)),but not of Piezo2,developed a near absence of trabecular bone below the chondrogenic growth plate postnatally.Moreover,all Piezo1^(Col2a1Cre) animals displayed multiple fractures of rib bones at 7 days of age,which were located close to the growth plates.While skeletal growth was only mildly affected in these mice,OA pathologies were markedly less pronounced compared to littermate controls at 60 weeks of age.Likewise,when OA was induced by anterior cruciate ligament transection,only the chondrocyte inactivation of Piezo1,not of Piezo2,resulted in attenuated articular cartilage degeneration.Importantly,osteophyte formation and maturation were also reduced in Piezo1^(Col2a1Cre) mice.We further observed increased Piezo1 protein abundance in cartilaginous zones of human osteophytes.Finally,we identified Ptgs2 and Ccn2 as potentially relevant Piezo1 downstream genes in chondrocytes.Collectively,our data do not only demonstrate that Piezo1 is a critical regulator of physiological and pathological endochondral ossification processes,but also suggest that Piezo1 antagonists may be established as a novel approach to limit osteophyte formation in OA.展开更多
Brain-derived extracellular vesicles participate in interorgan communication after traumatic brain injury by transporting pathogens to initiate secondary injury.Inflammasome-related proteins encapsulated in brain-deri...Brain-derived extracellular vesicles participate in interorgan communication after traumatic brain injury by transporting pathogens to initiate secondary injury.Inflammasome-related proteins encapsulated in brain-derived extracellular vesicles can cross the blood‒brain barrier to reach distal tissues.These proteins initiate inflammatory dysfunction,such as neurogenic heterotopic ossification.This recurrent condition is highly debilitating to patients because of its relatively unknown pathogenesis and the lack of effective prophylactic intervention strategies.Accordingly,a rat model of neurogenic heterotopic ossification induced by combined traumatic brain injury and achillotenotomy was developed to address these two issues.Histological examination of the injured tendon revealed the coexistence of ectopic calcification and fibroblast pyroptosis.The relationships among brain-derived extracellular vesicles,fibroblast pyroptosis and ectopic calcification were further investigated in vitro and in vivo.Intravenous injection of the pyroptosis inhibitor Ac-YVAD-cmk reversed the development of neurogenic heterotopic ossification in vivo.The present work highlights the role of brain-derived extracellular vesicles in the pathogenesis of neurogenic heterotopic ossification and offers a potential strategy for preventing neurogenic heterotopic ossification after traumatic brain injury.展开更多
After reconstructing the anterior cruciate ligament(ACL),unsatisfactory bone tendon interface healing may often induce tunnel enlargement at the early healing stage.With good biological features and high formability,M...After reconstructing the anterior cruciate ligament(ACL),unsatisfactory bone tendon interface healing may often induce tunnel enlargement at the early healing stage.With good biological features and high formability,Magnesium-Zinc-Gadolinium(ZG21)wires are developed to bunch the tendon graft for matching the bone tunnel during transplantation.Microstructure,tensile strength,degradation,and cytotoxicity of ZG21 wire are evaluated.The rabbit model is used for assessing the biological effects of ZG21 wire by Micro-CT,histology,and mechanical test.The SEM/EDS,immunochemistry,and in vitro assessments are performed to investigate the underlying mechanism.Material tests demonstrate the high formability of ZG21 wire as surgical suture.Micro-CT shows ZG21 wire degradation accelerates tunnel bone formation,and histologically with earlier and more fibrocartilage regeneration at the healing interface.The mechanical test shows higher ultimate load in the ZG21 group.The SEM/EDS presents ZG21 wire degradation triggered calcium phosphate(Ca-P)deposition.IHC results demonstrate upregulation of Wnt3a,BMP2,and VEGF at the early phase and TGFβ3 and Type II collagen at the late phase of healing.In vitro tests also confirmed the Ca-P in the metal extract could elevate the expression of Wnt3a,βcatenin,ocn and opn to stimulate osteogenesis.Ex vivo tests of clinical samples indicated suturing with ZG21 wire did not weaken the ultimate loading of human tendon tissue.In conclusion,the ZG21 wire is feasible for tendon graft bunching.Its degradation products accelerated intra-tunnel endochondral ossification at the early healing stage and therefore enhanced bone-tendon interface healing in ACL reconstruction.展开更多
BACKGROUND Heterotopic mesenteric ossification(HMO)is a clinically rare condition characterized by the formation of bone tissue in the mesentery.The worldwide reporting of such cases is limited to just over 70 instanc...BACKGROUND Heterotopic mesenteric ossification(HMO)is a clinically rare condition characterized by the formation of bone tissue in the mesentery.The worldwide reporting of such cases is limited to just over 70 instances in the medical literature.The etiology of HMO remains unclear,but the disease is possibly induced by mechanical trauma,ischemia,or intra-left lower quadrant abdominal infection,leading to the differentiation of mesenchymal stem cells into osteoblasts.Here,we present a rare case of HMO that occurred in a 34-year-old male,who presented with left lower quadrant abdominal pain.CASE SUMMARY We report the case of a 34-year-old male patient who presented with left lower abdominal pain following trauma to the left lower abdomen.He subsequently underwent surgical treatment,and the postoperative pathological diagnosis was HMO.CONCLUSION We believe that although there is limited literature and research on HMO,when patients with a history of trauma or surgery to the left lower abdomen present with corresponding imaging findings,clinicians should be vigilant in distinguishing this condition and promptly selecting appropriate diagnostic and therapeutic interventions.展开更多
The endochondral ossification of hindlimb is essential to a bird’s ability to stand,walk and fly.Most hindlimb is ossified in the embryos before hatching in precocial birds.However,the molecular mechanisms of hindlim...The endochondral ossification of hindlimb is essential to a bird’s ability to stand,walk and fly.Most hindlimb is ossified in the embryos before hatching in precocial birds.However,the molecular mechanisms of hindlimb ossification in birds is still unclear.Therefore,we tried to examine the process of hindlimb ossification and its molecular regulation by using an animal model—Japanese Quail(Coturnix japonica).We selected four critical stages(Embryo Day:E6,E8,E12 and E16) of skeletal development of embryonic quails for hindlimb skeleton staining to show the process of endochondral ossification and to examine the molecular regulation of endochondral osteogenesis by RNA-Seq analysis.The results showed that ossification became increased with embryonic development and most hindlimb was ossified before hatching.RNA-Seq analysis revealed that various signaling pathways were involved with endochondral ossification with thyroid hormone signaling and WNT signaling pathway particularly enriched.Moreover,the expression levels of 42 genes were continuously upregulated and 14 genes were continuously downregulated from E6 to E16.The present study might provide new insights into complex molecular mechanisms in regulation of endochondral ossification.展开更多
BACKGROUND:Heterotopic ossification of skeletal muscle is a clinically serious complication.For heterotopic ossification of skeletal muscles,the cells involved in the process of heterotopic ossification remain unclear...BACKGROUND:Heterotopic ossification of skeletal muscle is a clinically serious complication.For heterotopic ossification of skeletal muscles,the cells involved in the process of heterotopic ossification remain unclear.OBJECTIVE:To investigate the involvement of myocytes,fascia cells,and endothelial cells in the process of heterotopic ossification in skeletal muscle and to observe the cell origin of heterotopic ossification in skeletal muscle induced by bone morphogenetic protein 4.METHODS:Both C2C12 cells and the myotubes formed by the C2C12 cells in the induction medium were cultured,and 500 ng/mL bone morphogenetic protein 4 was added to the medium respectively,and whether the C2C12 cells and myotubes continued to proliferate within 10 days under the treatment were observed under a microscope.Myogenic cells(L6,derived from rats)and fibroblast-derived cells(derived from human)were co-cultured.After treatment with 500 ng/mL bone morphogenetic protein 4 and 10 ng/mL transforming growth factor-β,osteogenic and chondrogenic differentiation potential within 21 days were observed using Safranine O staining and Alcian blue staining.Using transgenic animal FVB/N-TgN(TIE2-LacZ)182Sato mice,15μL of adeno-associated virus-bone morphogenetic protein 4(5×1010 PFU/mL)were implanted in the thigh muscle space of genetic mice for 10 and 14 days.X-gal staining was used to observe the formation of new blood vessel endothelium in the differentiated bone.RESULTS AND CONCLUSION:(1)Bone morphogenetic protein 4 caused myotube breakdown and increased C2C12 cell proliferation.Compared with other groups,the pure fibroblast-derived cell group had a higher area of positive alcian blue and safarin O staining(P<0.05)and a lower area of alkaline phosphatase staining(P<0.05),while the pure L6 group had a bigger area of alkaline phosphatase staining(P<0.05)but a smaller area of positive alcian blue and safarin O staining(P<0.05).(2)Transplantation of adeno-associated virus-bone morphogenetic protein 4-adsorbed gelatin sponge into FVB/N-TgN(TIE2-LacZ)182Sato mice resulted in heterotopic ossification.(3)X-gal staining results demonstrated that there was no obvious staining in chondrocytes and differentiated bones and Tie2+endothelial cells did not participate in the formation of the alienated bone.(4)These findings verify that fibroblasts are the primary source of osteoblasts during the adeno-associated virus-bone morphogenetic protein 4-induced ectopic endochondral ossification in skeletal muscle,but myogenic cells are the main source of osteoblasts.Tie2+endothelial cells might not be the cell source for cartilage and bone.展开更多
The growth plate(GP)is a crucial tissue involved in skeleton development via endochondral ossification(EO).The bone organoid is a potential research model capable of simulating the physiological function,spatial struc...The growth plate(GP)is a crucial tissue involved in skeleton development via endochondral ossification(EO).The bone organoid is a potential research model capable of simulating the physiological function,spatial structure,and intercellular communication of native GPs.However,mimicking the EO process remains a key challenge for bone organoid research.To simulate this orderly mineralization process,we designed an in vitro sh Ca_(v)3.3 ATDC5-loaded gelatin methacryloyl(Gel MA)hydrogel model and evaluated its bioprintability for future organoid construction.In this paper,we report the first demonstration that the T-type voltage-dependent calcium channel(T-VDCC)subtype Ca_(v)3.3 is dominantly expressed in chondrocytes and is negatively correlated with the hypertrophic differentiation of chondrocytes during the EO process.Furthermore,Ca_(v)3.3 knockdown chondrocytes loaded with the Gel MA hydrogel successfully captured the EO process and provide a bioink capable of constructing layered and orderly mineralized GP organoids in the future.The results of this study could therefore provide a potential target for regulating the EO process and a novel strategy for simulating it in bone organoids.展开更多
Background:Ossification of the posterior longitudinal ligament(OPLL)is a prevalent condition in orthopedics.While death-associated protein kinase 2(DAPK2)is known to play roles in cellular apoptosis and autophagy,its ...Background:Ossification of the posterior longitudinal ligament(OPLL)is a prevalent condition in orthopedics.While death-associated protein kinase 2(DAPK2)is known to play roles in cellular apoptosis and autophagy,its specific contributions to the advancement of OPLL are not well understood.Methods:Ligament fibroblasts were harvested from patients diagnosed with OPLL.Techniques such as real-time reverse transcriptasepolymerase chain reaction(RT-qPCR)and Western blot analysis were employed to assess DAPK2 levels in both ligament tissues and cultured fibroblasts.The extent of osteogenic differentiation in these cells was evaluated using an alizarin red S(ARS)staining.Additionally,the expression of ossification markers and autophagy markers was quantified.The autophagic activity was further analyzed through LC3 immunofluorescence and transmission electron microscopy(TEM).An in vivo heterotopic bone formation assay was conducted in mice to assess the role of DAPK2 in ossification.Results:Elevated DAPK2 expression was confirmed in both OPLL patient tissues and derived fibroblasts,in contrast to non-OPLL controls.Silencing of DAPK2 significantly curtailed osteogenic differentiation and autophagy in these fibroblasts,evidenced by decreased levels of LC3,and Beclin1,and reduced autophagosome formation.Additionally,DAPK2 was found to inhibit the mechanistic target of the rapamycin complex 1(mTORC1)complex’s activity.In vivo studies demonstrated that DAPK2 facilitates ossification,and this effect could be counteracted by the mTORC1 inhibitor rapamycin.Conclusion:DAPK2 enhances autophagy and osteogenic processes in OPLL through modulation of the mTORC1 pathway.展开更多
We present the case of a 64-year-old man with cervical ossification of the posterior longitudinal ligament (OPLL) experiencing chronic neck pain and radiculopathy for 6 months. A catheter-assisted interlaminar Cervica...We present the case of a 64-year-old man with cervical ossification of the posterior longitudinal ligament (OPLL) experiencing chronic neck pain and radiculopathy for 6 months. A catheter-assisted interlaminar Cervical Epidural Steroid Injection (CESI) was performed under fluoroscopic guidance, targeting the affected C2-C6 levels. Significant improvement was observed after this procedure, with decreased pain scores (visual analogue scale (VAS) 8 to 2) and improved mobility. This technique not only enhances the effectiveness of CESI but also reduces the likelihood of complications such as stroke or epidural hematoma and thus provides an alternative treatment option for patients with multiple stenotic levels who are unsuitable for surgery or are unresponsive to conservative therapy such as medication or physical therapy.展开更多
Osteogenesis and angiogenesis are two closely correlated processes during bone growth, development, remodelling and repair. Vascular endothelial growth factor (VEGF) is an essential mediator during the process of an...Osteogenesis and angiogenesis are two closely correlated processes during bone growth, development, remodelling and repair. Vascular endothelial growth factor (VEGF) is an essential mediator during the process of angiogenesis. Based on an extensive literature search, which was carried out using the PubMed database and the keywords of osteogenesis, VEGF, endochondral ossification and intramembranous ossification, this manuscript reviews the role of VEGF in ossification, with emphasis on its effect in endochondral and intramembranous ossification. Osteogenesis and angiogenesis are closely correlated processes. VEGF acts as an essential mediator durin~ these processes. It not only functions in bone an^io^enesis but also in various aspects of bone develooment.展开更多
Ankylosing spondylitis(AS)is chronic inflammatory arthritis with a progressive fusion of axial joints.Anti-inflammatory treatments such as anti-TNF-αantibody therapy suppress inflammation but do not effectively halt ...Ankylosing spondylitis(AS)is chronic inflammatory arthritis with a progressive fusion of axial joints.Anti-inflammatory treatments such as anti-TNF-αantibody therapy suppress inflammation but do not effectively halt the progression of spine fusion in AS patients.Here we report that the autoimmune inflammation of AS generates a microenvironment that promotes chondrogenesis in spine ligaments as the process of spine fusion.Chondrocyte differentiation was observed in the ligaments of patients with earlystage AS,and cartilage formation was followed by calcification.Moreover,a large number of giant osteoclasts were found in the inflammatory environment of ligaments and on bony surfaces of calcified cartilage.Resorption activity by these giant osteoclasts generated marrow with high levels of active TGF-β,which induced new bone formation in the ligaments.Notably,no Osterix+osteoprogenitors were found in osteoclast resorption areas,indicating uncoupled bone resorption and formation.Even at the late and maturation stages,the uncoupled osteoclast resorption in bony interspinous ligament activates TGF-βto induce the progression of ossification in AS patients.Osteoclast resorption of calcified cartilage-initiated ossification in the progression of AS is a similar pathologic process of acquired heterotopic ossification(HO).Our finding of cartilage formation in the ligaments of AS patients revealed that the pathogenesis of spinal fusion is a process of HO and explained why anti-inflammatory treatments do not slow ankylosing once there is new bone formation in spinal soft tissues.Thus,inhibition of HO formation,such as osteoclast activity,cartilage formation,or TGF-βactivity could be a potential therapy for AS.展开更多
Neuromuscular electrical stimulation(NMES) and testosterone replacement therapy(TRT) are effective rehabilitation strategies to attenuate muscle atrophy and evoke hypertrophy in persons with spinal cord injury(SCI). H...Neuromuscular electrical stimulation(NMES) and testosterone replacement therapy(TRT) are effective rehabilitation strategies to attenuate muscle atrophy and evoke hypertrophy in persons with spinal cord injury(SCI). However both interventions might increase heterotopic ossification(HO) size in SCI patients. We present the results of two men with chronic traumatic motor complete SCI who also had pre-existing HO and participated in a study investigating the effects of TRT or TRT plus NMES resistance training(RT) on body composition. The 49-year-old male, Subject A, has unilateral HO in his right thigh. The 31-year-old male, Subject B, has bilateral HO in both thighs. Both participants wore transdermal testosterone patches(4-6 mg/d) daily for 16 wk. Subject A also underwent progressive NMES-RT twice weekly for 16 wk. Magnetic resonance imaging scans were acquired prior to and post intervention. Cross-sectional areas(CSA) of thewhole thigh and knee extensor skeletal muscles, femoral bone, and HO were measured. In Subject A(NMES-RT + TRT), the whole thigh skeletal muscle CSA increased by 10%, the knee extensor CSA increased by 17%, and the HO + femoral bone CSA did not change. In Subject B(TRT), the whole thigh skeletal muscle CSA increased by 13% in the right thigh and 6% in the left thigh. The knee extensor CSA increased by 7% in the right thigh and did not change in the left thigh. The femoral bone and HO CSAs in both thighs did not change. Both the TRT and NMES-RT + TRT protocols evoked muscle hypertrophy without stimulating the growth of preexisting HO.展开更多
Diffuse idiopathic skeletal hyperostosis(DISH) is a prevalent noninflammatory spondyloarthropathy characterized by ectopic mineral formation along the anterolateral aspect of the vertebral column, yet little is known ...Diffuse idiopathic skeletal hyperostosis(DISH) is a prevalent noninflammatory spondyloarthropathy characterized by ectopic mineral formation along the anterolateral aspect of the vertebral column, yet little is known about its underlying pathogenesis. Our objective was to evaluate the histopathological features and composition of ectopic mineral within spinal tissues affected by DISH in humans. Thoracic spine segments from six embalmed cadaveric donors(one female and five males;median age 82 years)meeting the radiographic diagnostic criteria for DISH were evaluated using radiological, histological, and physical analyses. Overall,the histological features of ectopic mineralization at individual motion segments were heterogeneous, including regions of heterotopic ossification and dystrophic calcification. Heterotopic ossifications were characterized by woven and lamellar bone,multifocal areas of metaplastic cartilage, and bony bridges along the anterior aspect of the intervertebral disc space. Dystrophic calcifications were characterized by an amorphous appearance, a high content of calcium and phosphorus, an X-ray diffraction pattern matching that of hydroxyapatite, and radiodensities exceeding that of cortical bone. Dystrophic calcifications were found within the anterior longitudinal ligament and annulus fibrosus in motion segments both meeting and not meeting the radiographic criteria for DISH. In summary, our findings indicate that in DISH, ectopic mineral forms along the anterior aspect of the spine by both heterotopic ossification and dystrophic calcification of fibrocartilaginous tissues. Although both types of ectopic mineralization are captured by current radiographic criteria for DISH, dystrophic calcification may reflect a distinct disease process or an early stage in the pathogenesis of DISH.展开更多
In our previous studies, we have found that the prepubertal increase in thyroid hormone levels induces osterix(Osx) signaling in hypertrophic chondrocytes to transdifferentiate them into osteoblasts. To test if Osx ex...In our previous studies, we have found that the prepubertal increase in thyroid hormone levels induces osterix(Osx) signaling in hypertrophic chondrocytes to transdifferentiate them into osteoblasts. To test if Osx expressed in chondrocytes directly contributes to transdifferentiation and secondary ossification, we generated Osx^flox/flox;Col2-Cre-ERT2 mice and knocked out Osx with a single injection of tamoxifen at postnatal day(P) 3 prior to evaluation of the epiphyseal bone phenotype by μCT, histology, and immunohistochemistry(IHC) at P21. Vehicle(oil)-treated Osx^flox/flox;Col2-Cre-ERT2 and tamoxifen-treated, Cre-negative Osx^flox/flox mice were used as controls.μCT analysis of tibial epiphyses revealed that trabecular bone mass was reduced by 23% in the Osx conditional knockout(c KO) compared with control mice. Trabecular number and thickness were reduced by 28% and 8%,respectively, while trabecular separation was increased by 24% in the c KO mice. Trichrome staining of longitudinal sections of tibial epiphyses showed that bone area and bone area adjusted for total area were decreased by 22% and 18%, respectively. IHC studies revealed the presence of abundant Osx-expressing prehypertrophic chondrocytes in the epiphyses of control mice at P10, but not in the cKO mice. Furthermore, expression levels of MMP13, COL10, ALP, and BSP were considerably reduced in the epiphyses of cKO mice. We also found that Osx overexpression in ATDC5 chondrocytes increased expression of Col10, Mmp13, Alp, and Bsp. Our data indicate that Osx expressed in chondrocytes plays a significant role in secondary ossification by regulating expression of genes involved in chondrocyte hypertrophy and osteoblast transdifferentiation.展开更多
基金National Natural Science Foundation of China(Grant Nos.82261160397,82272560)Central South University Research Programme of Advanced Interdisciplinary Studies(2023QYJC011)+4 种基金National Natural Science Foundation of China(Grant Nos.82472521,81922017)Hunan Provincial Science and Technology Department(2023JJ30896)Key Research and Development Program of Hunan Province(2022SK2023)Science and Technology Innovation Program of Hunan Province(2023RC1027)Major Basic Research Projects in Hunan Province(No.2024JC0004)。
文摘Mechanical stress modulates bone formation and organization of the extracellular matrix(ECM),the interaction of which affects heterotopic ossification(HO).However,the mechanically sensitive cell populations in HO and the underlying mechanism remain elusive.Here,we show that the mechanical protein Polysyctin-1(PC1,Pkd1)regulates CTSK lineage tendon-derived mesenchymal stem cell(TDMSC)fate and ECM organization,thus affecting HO progression.First,we revealed that CTSK lineage TDMSCs are the major source of osteoblasts and fibroblasts in HO and are responsive to mechanical cues via single-cell RNA sequencing analysis and experiments with a lineage tracing mouse model.Moreover,we showed that PC1 mediates the mechanosignal transduction of CTSK lineage TDMSCs to regulate osteogenic and fibrogenic differentiation and alters the ECM architecture by facilitating TAZ nuclear translocation.Conditional gene depletion of Pkd1 or Taz in CTSK lineage cells and pharmaceutical intervention in the PC1-TAZ axis disrupt osteogenesis,fibrogenesis and ECM organization,and consequently attenuate HO progression.These findings suggest that mechanically sensitive CTSK-lineage TDMSCs contribute to heterotopic ossification through PC1-TAZ signaling axis mediated cell fate determination and ECM organization.
基金Supported by the Basic Science Research Program through the National Research Foundation of Korea(NRF)funded by the Ministry of Education,No.NRF-RS-2023-00237287 and No.NRF-2021S1A5A8062526Local Government-University Cooperation-Based Regional Innovation Projects,No.2021RIS-003.
文摘Heterotopic mesenteric ossification(HMO)is a rare medical condition,with<100 cases reported globally by 2024.This disorder is characterized by abnormal bone tissue formation within the mesentery,often following abdominal trauma,ischemia,or infection.This editorial reviews the case presented by Zhang et al,involving a 34-year-old male who developed persistent left lower abdominal pain after sustaining blunt trauma to the abdomen.Diagnostic challenges arose due to the rarity and nonspecific presentation of HMO,which shares histopathological features with conditions such as myositis ossificans and necessitates differentiation from malignancies like sarcomas.Advanced imaging revealed calcifications suggestive of HMO,but definitive diagnosis was achieved only through surgical resection and histopathological analysis,which confirmed the presence of ectopic bone formation.Although benign,HMO can result in severe complications,such as bowel perforation or obstruction.Therefore,awareness of HMO is crucial for clinicians to ensure timely and appropriate treatment.
基金supported by the Natural Science Foundation of Guangdong Province(2022A1515010297)the National Natural Science Foundation of China(32100765)+1 种基金the Xiamen Medical Health Science and Technology Project(3502Z20194098)the Shenzhen-Hong Kong-Macao Science and Technology Innovation Project(SGDX2020110309280100).
文摘Dear Editor,Sturge-Weber Syndrome(SWS)is a rare congenital neurocutaneous syndrome[1,2],with an estimated prevalence of 0.19 in 100,000 annually[3].It is a non-hereditary disease linked to a somatic mutation in the GNAQ,GNA11,or GNB2 gene[1],leading to vascular malformations in the cutaneous forehead,cerebral cortex,and eye[1,2].Notably,~70%of pediatric patients diagnosed with SWS exhibit brain calcification(BC)[4],though the prevalence of BC ranges from only 1%in young individuals to>20%in the senior population(>60 years old)[5].Similar to the elderly,BC in pediatric SWS patients is identified as vascular calcification[6,7],whereas BC in pediatric patients with tuberous sclerosis and tumors has been previously described as dystrophic calcification[6].
基金Supported by Major Basic Research Project of Shanxi Provincial Natural Science Foundation,No.202203021221185 and No.202103021224379.
文摘BACKGROUND Among all forms of heterotopic ossification,heterotopic mesenteric ossification(HMO)is rare,with fewer than 100 reported cases to date.Postoperative early small bowel obstruction caused by HMO is even rarer,presenting extremely high surgical risks,the potential for multiple surgeries,and a poor prognosis.There have been no reported cases of conservative treatment for resolving such early postoperative obstruction.CASE SUMMARY A 57-year-old male presented with severe postoperative small bowel obstruction shortly after undergoing open radical resection for transverse colon cancer.Laparotomy revealed extensive adhesions in the proximal jejunum and mesen-tery,making it too difficult to relieve without injuring the small bowel.Addi-tionally,multiple fixed nodules were found in the mesentery during the opera-tion.Pathology confirmed the presence of heterotopic ossification.The patient was treated with methylprednisolone on postoperative day 1,which gradually relieved his symptoms.CONCLUSION Hormone therapy may have a potential role in treating small bowel obstruction caused by early HMO after operative intervention.
文摘In this article,we make a comment on the recent article by Sun et al,focusing on the advances of neutrophil extracellular traps(NETs)formation in common osteoarticular diseases.Neutrophils are the first line to eliminate invading pathogens including fungal and bacterial infections via releasing hydrolytic enzymes and reactive oxygen species.Besides,neutrophils will accumulate at the inflammatory site and release NETs,which are composed of histones,DNA and granular proteins.Traumatic heterotopic ossification(THO)was generally believed to develop through four stages:Inflammation,chondrogenesis,osteogenesis,and bone maturation.Thus,it can be seen that THO was related to inflammation and bone formation.Apart from immune and infectious diseases,recent studies have also shown that NETs play a significant role in the pathogenesis of THO.This article focuses on elaborating the role of NETs in the onset of THO,discussing the existing problems in the current research and outlining future directions.
文摘BACKGROUND Thoracic ossification of the posterior longitudinal ligament(T-OPLL)is caused by the ossified posterior longitudinal ligament occupying space in the spinal canal,which causes compression of the thoracic spinal cord.Surgical treatment is difficult,risky and complicated;thus,clinical treatment is difficult at present.CASE SUMMARY A case of severe multi-segmental T-OPLL treated with thoracic anterior controllable antedisplacement fusion(TACAF)is reported,including the surgical procedures and analysis of the clinical data.The modified-Japanese Orthopaedic Association score in this patient was 4 before surgery,and it was raised to 9 after the operation.The symptoms of spinal canal compression were subsequently relieved.Three months after surgery,digital radiography showed good healing and recovery of limb sensory function.CONCLUSION This case report suggests that TACAF is feasible for the treatment of long-segment T-OPLL,and has the advantages of low risk and reduced trauma.However,this operation still needs to be verified by clinical research with a larger sample size.
基金supported by the German Research Foundation(SCHI 504/19-1(to TS)and IG 18/22-1(to AI))the Else Kröner-Fresenius foundation under grant no.2021_EKEA.23(to TR)financial support from the Open Access Publication Fund of UKE–Universitatsklinikum Hamburg-Eppendorf and DFG–German Research Foundation.
文摘Piezo proteins are mechanically activated ion channels,which are required for mechanosensing functions in a variety of cell types.While we and others have previously demonstrated that the expression of Piezo1 in osteoblast lineage cells is essential for boneanabolic processes,there was only suggestive evidence indicating a role of Piezo1 and/or Piezo2 in cartilage.Here we addressed the question if and how chondrocyte expression of the mechanosensitive proteins Piezo1 or Piezo2 controls physiological endochondral ossification and pathological osteoarthritis(OA)development.Mice with chondrocyte-specific inactivation of Piezo1(Piezo1^(Col2a1Cre)),but not of Piezo2,developed a near absence of trabecular bone below the chondrogenic growth plate postnatally.Moreover,all Piezo1^(Col2a1Cre) animals displayed multiple fractures of rib bones at 7 days of age,which were located close to the growth plates.While skeletal growth was only mildly affected in these mice,OA pathologies were markedly less pronounced compared to littermate controls at 60 weeks of age.Likewise,when OA was induced by anterior cruciate ligament transection,only the chondrocyte inactivation of Piezo1,not of Piezo2,resulted in attenuated articular cartilage degeneration.Importantly,osteophyte formation and maturation were also reduced in Piezo1^(Col2a1Cre) mice.We further observed increased Piezo1 protein abundance in cartilaginous zones of human osteophytes.Finally,we identified Ptgs2 and Ccn2 as potentially relevant Piezo1 downstream genes in chondrocytes.Collectively,our data do not only demonstrate that Piezo1 is a critical regulator of physiological and pathological endochondral ossification processes,but also suggest that Piezo1 antagonists may be established as a novel approach to limit osteophyte formation in OA.
基金This work was supported by the National Nature Science Foundation of China grant 82170978(to K.J.)the Distinguished Young Scientists Funds of Shannxi Province 2021JC-34(to K.J.).
文摘Brain-derived extracellular vesicles participate in interorgan communication after traumatic brain injury by transporting pathogens to initiate secondary injury.Inflammasome-related proteins encapsulated in brain-derived extracellular vesicles can cross the blood‒brain barrier to reach distal tissues.These proteins initiate inflammatory dysfunction,such as neurogenic heterotopic ossification.This recurrent condition is highly debilitating to patients because of its relatively unknown pathogenesis and the lack of effective prophylactic intervention strategies.Accordingly,a rat model of neurogenic heterotopic ossification induced by combined traumatic brain injury and achillotenotomy was developed to address these two issues.Histological examination of the injured tendon revealed the coexistence of ectopic calcification and fibroblast pyroptosis.The relationships among brain-derived extracellular vesicles,fibroblast pyroptosis and ectopic calcification were further investigated in vitro and in vivo.Intravenous injection of the pyroptosis inhibitor Ac-YVAD-cmk reversed the development of neurogenic heterotopic ossification in vivo.The present work highlights the role of brain-derived extracellular vesicles in the pathogenesis of neurogenic heterotopic ossification and offers a potential strategy for preventing neurogenic heterotopic ossification after traumatic brain injury.
基金Theme-based research scheme of Hong Kong Research Grant Council(RGC Ref:T13-402/17-N)National Natural Science Foundation of China(No.U1804251)。
文摘After reconstructing the anterior cruciate ligament(ACL),unsatisfactory bone tendon interface healing may often induce tunnel enlargement at the early healing stage.With good biological features and high formability,Magnesium-Zinc-Gadolinium(ZG21)wires are developed to bunch the tendon graft for matching the bone tunnel during transplantation.Microstructure,tensile strength,degradation,and cytotoxicity of ZG21 wire are evaluated.The rabbit model is used for assessing the biological effects of ZG21 wire by Micro-CT,histology,and mechanical test.The SEM/EDS,immunochemistry,and in vitro assessments are performed to investigate the underlying mechanism.Material tests demonstrate the high formability of ZG21 wire as surgical suture.Micro-CT shows ZG21 wire degradation accelerates tunnel bone formation,and histologically with earlier and more fibrocartilage regeneration at the healing interface.The mechanical test shows higher ultimate load in the ZG21 group.The SEM/EDS presents ZG21 wire degradation triggered calcium phosphate(Ca-P)deposition.IHC results demonstrate upregulation of Wnt3a,BMP2,and VEGF at the early phase and TGFβ3 and Type II collagen at the late phase of healing.In vitro tests also confirmed the Ca-P in the metal extract could elevate the expression of Wnt3a,βcatenin,ocn and opn to stimulate osteogenesis.Ex vivo tests of clinical samples indicated suturing with ZG21 wire did not weaken the ultimate loading of human tendon tissue.In conclusion,the ZG21 wire is feasible for tendon graft bunching.Its degradation products accelerated intra-tunnel endochondral ossification at the early healing stage and therefore enhanced bone-tendon interface healing in ACL reconstruction.
基金Supported by Natural Science Foundation of Fujian Province,China No.2021J01545Natural Science Foundation of Zhangzhou City,Fujian Province,China No.ZZ2021J25.
文摘BACKGROUND Heterotopic mesenteric ossification(HMO)is a clinically rare condition characterized by the formation of bone tissue in the mesentery.The worldwide reporting of such cases is limited to just over 70 instances in the medical literature.The etiology of HMO remains unclear,but the disease is possibly induced by mechanical trauma,ischemia,or intra-left lower quadrant abdominal infection,leading to the differentiation of mesenchymal stem cells into osteoblasts.Here,we present a rare case of HMO that occurred in a 34-year-old male,who presented with left lower quadrant abdominal pain.CASE SUMMARY We report the case of a 34-year-old male patient who presented with left lower abdominal pain following trauma to the left lower abdomen.He subsequently underwent surgical treatment,and the postoperative pathological diagnosis was HMO.CONCLUSION We believe that although there is limited literature and research on HMO,when patients with a history of trauma or surgery to the left lower abdomen present with corresponding imaging findings,clinicians should be vigilant in distinguishing this condition and promptly selecting appropriate diagnostic and therapeutic interventions.
基金supported by the National Natural Science Foundationof China (No. 33372201)。
文摘The endochondral ossification of hindlimb is essential to a bird’s ability to stand,walk and fly.Most hindlimb is ossified in the embryos before hatching in precocial birds.However,the molecular mechanisms of hindlimb ossification in birds is still unclear.Therefore,we tried to examine the process of hindlimb ossification and its molecular regulation by using an animal model—Japanese Quail(Coturnix japonica).We selected four critical stages(Embryo Day:E6,E8,E12 and E16) of skeletal development of embryonic quails for hindlimb skeleton staining to show the process of endochondral ossification and to examine the molecular regulation of endochondral osteogenesis by RNA-Seq analysis.The results showed that ossification became increased with embryonic development and most hindlimb was ossified before hatching.RNA-Seq analysis revealed that various signaling pathways were involved with endochondral ossification with thyroid hormone signaling and WNT signaling pathway particularly enriched.Moreover,the expression levels of 42 genes were continuously upregulated and 14 genes were continuously downregulated from E6 to E16.The present study might provide new insights into complex molecular mechanisms in regulation of endochondral ossification.
文摘BACKGROUND:Heterotopic ossification of skeletal muscle is a clinically serious complication.For heterotopic ossification of skeletal muscles,the cells involved in the process of heterotopic ossification remain unclear.OBJECTIVE:To investigate the involvement of myocytes,fascia cells,and endothelial cells in the process of heterotopic ossification in skeletal muscle and to observe the cell origin of heterotopic ossification in skeletal muscle induced by bone morphogenetic protein 4.METHODS:Both C2C12 cells and the myotubes formed by the C2C12 cells in the induction medium were cultured,and 500 ng/mL bone morphogenetic protein 4 was added to the medium respectively,and whether the C2C12 cells and myotubes continued to proliferate within 10 days under the treatment were observed under a microscope.Myogenic cells(L6,derived from rats)and fibroblast-derived cells(derived from human)were co-cultured.After treatment with 500 ng/mL bone morphogenetic protein 4 and 10 ng/mL transforming growth factor-β,osteogenic and chondrogenic differentiation potential within 21 days were observed using Safranine O staining and Alcian blue staining.Using transgenic animal FVB/N-TgN(TIE2-LacZ)182Sato mice,15μL of adeno-associated virus-bone morphogenetic protein 4(5×1010 PFU/mL)were implanted in the thigh muscle space of genetic mice for 10 and 14 days.X-gal staining was used to observe the formation of new blood vessel endothelium in the differentiated bone.RESULTS AND CONCLUSION:(1)Bone morphogenetic protein 4 caused myotube breakdown and increased C2C12 cell proliferation.Compared with other groups,the pure fibroblast-derived cell group had a higher area of positive alcian blue and safarin O staining(P<0.05)and a lower area of alkaline phosphatase staining(P<0.05),while the pure L6 group had a bigger area of alkaline phosphatase staining(P<0.05)but a smaller area of positive alcian blue and safarin O staining(P<0.05).(2)Transplantation of adeno-associated virus-bone morphogenetic protein 4-adsorbed gelatin sponge into FVB/N-TgN(TIE2-LacZ)182Sato mice resulted in heterotopic ossification.(3)X-gal staining results demonstrated that there was no obvious staining in chondrocytes and differentiated bones and Tie2+endothelial cells did not participate in the formation of the alienated bone.(4)These findings verify that fibroblasts are the primary source of osteoblasts during the adeno-associated virus-bone morphogenetic protein 4-induced ectopic endochondral ossification in skeletal muscle,but myogenic cells are the main source of osteoblasts.Tie2+endothelial cells might not be the cell source for cartilage and bone.
基金supported by the National Natural Science Foundation of China(No.31800784)the Chongqing Key Laboratory of Precision Medicine in Joint Surgery(No.425Z2138)+2 种基金the Chongqing Excellent Scientist Project(No.425Z2W21)the Chongqing Natural Science Foundation General Project(No.cstc2021jcyjmsxm X0135)the Chongqing Postdoctoral Research Project Special Fund(No.2021XM3033)。
文摘The growth plate(GP)is a crucial tissue involved in skeleton development via endochondral ossification(EO).The bone organoid is a potential research model capable of simulating the physiological function,spatial structure,and intercellular communication of native GPs.However,mimicking the EO process remains a key challenge for bone organoid research.To simulate this orderly mineralization process,we designed an in vitro sh Ca_(v)3.3 ATDC5-loaded gelatin methacryloyl(Gel MA)hydrogel model and evaluated its bioprintability for future organoid construction.In this paper,we report the first demonstration that the T-type voltage-dependent calcium channel(T-VDCC)subtype Ca_(v)3.3 is dominantly expressed in chondrocytes and is negatively correlated with the hypertrophic differentiation of chondrocytes during the EO process.Furthermore,Ca_(v)3.3 knockdown chondrocytes loaded with the Gel MA hydrogel successfully captured the EO process and provide a bioink capable of constructing layered and orderly mineralized GP organoids in the future.The results of this study could therefore provide a potential target for regulating the EO process and a novel strategy for simulating it in bone organoids.
基金This research received funding from the Natural Science Foundation of Shanghai(Grant No.20ZR1457600)the School-Level Basic Medical Project of Naval Medical University(Grant No.2021MS13).
文摘Background:Ossification of the posterior longitudinal ligament(OPLL)is a prevalent condition in orthopedics.While death-associated protein kinase 2(DAPK2)is known to play roles in cellular apoptosis and autophagy,its specific contributions to the advancement of OPLL are not well understood.Methods:Ligament fibroblasts were harvested from patients diagnosed with OPLL.Techniques such as real-time reverse transcriptasepolymerase chain reaction(RT-qPCR)and Western blot analysis were employed to assess DAPK2 levels in both ligament tissues and cultured fibroblasts.The extent of osteogenic differentiation in these cells was evaluated using an alizarin red S(ARS)staining.Additionally,the expression of ossification markers and autophagy markers was quantified.The autophagic activity was further analyzed through LC3 immunofluorescence and transmission electron microscopy(TEM).An in vivo heterotopic bone formation assay was conducted in mice to assess the role of DAPK2 in ossification.Results:Elevated DAPK2 expression was confirmed in both OPLL patient tissues and derived fibroblasts,in contrast to non-OPLL controls.Silencing of DAPK2 significantly curtailed osteogenic differentiation and autophagy in these fibroblasts,evidenced by decreased levels of LC3,and Beclin1,and reduced autophagosome formation.Additionally,DAPK2 was found to inhibit the mechanistic target of the rapamycin complex 1(mTORC1)complex’s activity.In vivo studies demonstrated that DAPK2 facilitates ossification,and this effect could be counteracted by the mTORC1 inhibitor rapamycin.Conclusion:DAPK2 enhances autophagy and osteogenic processes in OPLL through modulation of the mTORC1 pathway.
文摘We present the case of a 64-year-old man with cervical ossification of the posterior longitudinal ligament (OPLL) experiencing chronic neck pain and radiculopathy for 6 months. A catheter-assisted interlaminar Cervical Epidural Steroid Injection (CESI) was performed under fluoroscopic guidance, targeting the affected C2-C6 levels. Significant improvement was observed after this procedure, with decreased pain scores (visual analogue scale (VAS) 8 to 2) and improved mobility. This technique not only enhances the effectiveness of CESI but also reduces the likelihood of complications such as stroke or epidural hematoma and thus provides an alternative treatment option for patients with multiple stenotic levels who are unsuitable for surgery or are unresponsive to conservative therapy such as medication or physical therapy.
文摘Osteogenesis and angiogenesis are two closely correlated processes during bone growth, development, remodelling and repair. Vascular endothelial growth factor (VEGF) is an essential mediator during the process of angiogenesis. Based on an extensive literature search, which was carried out using the PubMed database and the keywords of osteogenesis, VEGF, endochondral ossification and intramembranous ossification, this manuscript reviews the role of VEGF in ossification, with emphasis on its effect in endochondral and intramembranous ossification. Osteogenesis and angiogenesis are closely correlated processes. VEGF acts as an essential mediator durin~ these processes. It not only functions in bone an^io^enesis but also in various aspects of bone develooment.
文摘Ankylosing spondylitis(AS)is chronic inflammatory arthritis with a progressive fusion of axial joints.Anti-inflammatory treatments such as anti-TNF-αantibody therapy suppress inflammation but do not effectively halt the progression of spine fusion in AS patients.Here we report that the autoimmune inflammation of AS generates a microenvironment that promotes chondrogenesis in spine ligaments as the process of spine fusion.Chondrocyte differentiation was observed in the ligaments of patients with earlystage AS,and cartilage formation was followed by calcification.Moreover,a large number of giant osteoclasts were found in the inflammatory environment of ligaments and on bony surfaces of calcified cartilage.Resorption activity by these giant osteoclasts generated marrow with high levels of active TGF-β,which induced new bone formation in the ligaments.Notably,no Osterix+osteoprogenitors were found in osteoclast resorption areas,indicating uncoupled bone resorption and formation.Even at the late and maturation stages,the uncoupled osteoclast resorption in bony interspinous ligament activates TGF-βto induce the progression of ossification in AS patients.Osteoclast resorption of calcified cartilage-initiated ossification in the progression of AS is a similar pathologic process of acquired heterotopic ossification(HO).Our finding of cartilage formation in the ligaments of AS patients revealed that the pathogenesis of spinal fusion is a process of HO and explained why anti-inflammatory treatments do not slow ankylosing once there is new bone formation in spinal soft tissues.Thus,inhibition of HO formation,such as osteoclast activity,cartilage formation,or TGF-βactivity could be a potential therapy for AS.
文摘Neuromuscular electrical stimulation(NMES) and testosterone replacement therapy(TRT) are effective rehabilitation strategies to attenuate muscle atrophy and evoke hypertrophy in persons with spinal cord injury(SCI). However both interventions might increase heterotopic ossification(HO) size in SCI patients. We present the results of two men with chronic traumatic motor complete SCI who also had pre-existing HO and participated in a study investigating the effects of TRT or TRT plus NMES resistance training(RT) on body composition. The 49-year-old male, Subject A, has unilateral HO in his right thigh. The 31-year-old male, Subject B, has bilateral HO in both thighs. Both participants wore transdermal testosterone patches(4-6 mg/d) daily for 16 wk. Subject A also underwent progressive NMES-RT twice weekly for 16 wk. Magnetic resonance imaging scans were acquired prior to and post intervention. Cross-sectional areas(CSA) of thewhole thigh and knee extensor skeletal muscles, femoral bone, and HO were measured. In Subject A(NMES-RT + TRT), the whole thigh skeletal muscle CSA increased by 10%, the knee extensor CSA increased by 17%, and the HO + femoral bone CSA did not change. In Subject B(TRT), the whole thigh skeletal muscle CSA increased by 13% in the right thigh and 6% in the left thigh. The knee extensor CSA increased by 7% in the right thigh and did not change in the left thigh. The femoral bone and HO CSAs in both thighs did not change. Both the TRT and NMES-RT + TRT protocols evoked muscle hypertrophy without stimulating the growth of preexisting HO.
基金supported by the Canadian Institutes of Health Research (grant number 115068)。
文摘Diffuse idiopathic skeletal hyperostosis(DISH) is a prevalent noninflammatory spondyloarthropathy characterized by ectopic mineral formation along the anterolateral aspect of the vertebral column, yet little is known about its underlying pathogenesis. Our objective was to evaluate the histopathological features and composition of ectopic mineral within spinal tissues affected by DISH in humans. Thoracic spine segments from six embalmed cadaveric donors(one female and five males;median age 82 years)meeting the radiographic diagnostic criteria for DISH were evaluated using radiological, histological, and physical analyses. Overall,the histological features of ectopic mineralization at individual motion segments were heterogeneous, including regions of heterotopic ossification and dystrophic calcification. Heterotopic ossifications were characterized by woven and lamellar bone,multifocal areas of metaplastic cartilage, and bony bridges along the anterior aspect of the intervertebral disc space. Dystrophic calcifications were characterized by an amorphous appearance, a high content of calcium and phosphorus, an X-ray diffraction pattern matching that of hydroxyapatite, and radiodensities exceeding that of cortical bone. Dystrophic calcifications were found within the anterior longitudinal ligament and annulus fibrosus in motion segments both meeting and not meeting the radiographic criteria for DISH. In summary, our findings indicate that in DISH, ectopic mineral forms along the anterior aspect of the spine by both heterotopic ossification and dystrophic calcification of fibrocartilaginous tissues. Although both types of ectopic mineralization are captured by current radiographic criteria for DISH, dystrophic calcification may reflect a distinct disease process or an early stage in the pathogenesis of DISH.
基金supported by the National Institutes of Health grant AR 048139 to S.M.
文摘In our previous studies, we have found that the prepubertal increase in thyroid hormone levels induces osterix(Osx) signaling in hypertrophic chondrocytes to transdifferentiate them into osteoblasts. To test if Osx expressed in chondrocytes directly contributes to transdifferentiation and secondary ossification, we generated Osx^flox/flox;Col2-Cre-ERT2 mice and knocked out Osx with a single injection of tamoxifen at postnatal day(P) 3 prior to evaluation of the epiphyseal bone phenotype by μCT, histology, and immunohistochemistry(IHC) at P21. Vehicle(oil)-treated Osx^flox/flox;Col2-Cre-ERT2 and tamoxifen-treated, Cre-negative Osx^flox/flox mice were used as controls.μCT analysis of tibial epiphyses revealed that trabecular bone mass was reduced by 23% in the Osx conditional knockout(c KO) compared with control mice. Trabecular number and thickness were reduced by 28% and 8%,respectively, while trabecular separation was increased by 24% in the c KO mice. Trichrome staining of longitudinal sections of tibial epiphyses showed that bone area and bone area adjusted for total area were decreased by 22% and 18%, respectively. IHC studies revealed the presence of abundant Osx-expressing prehypertrophic chondrocytes in the epiphyses of control mice at P10, but not in the cKO mice. Furthermore, expression levels of MMP13, COL10, ALP, and BSP were considerably reduced in the epiphyses of cKO mice. We also found that Osx overexpression in ATDC5 chondrocytes increased expression of Col10, Mmp13, Alp, and Bsp. Our data indicate that Osx expressed in chondrocytes plays a significant role in secondary ossification by regulating expression of genes involved in chondrocyte hypertrophy and osteoblast transdifferentiation.
