The Small Molecule Drug BNTA Alleviates Osteoarthritis Caused by High Cholesterol by Upregulating Insig1 / 中国生物化学与分子生物学报

Osteoarthritis (OA) is a common degenerative disease of the motor system with a high morbidity and disability rate. The pathogenesis of OA is not clear at present. Previous studies believe that the pathogenesis of OA is mainly related to trauma factors, while recent studies have shown that metabolic factors, including abnormal cholesterol metabolism, are also closely related to OA. The treatment of OA is mainly symptomatic treatment at the early stage and surgical treatment at the late stage, and there is no specific drug. Previously, BNTA, a small molecule drug with cartilage protective effects, has been shown to have a good effect on OA caused by trauma, but its effect on OA caused by high cholesterol remains unclear. In order to explore the therapeutic effect of BNTA on OA caused by high cholesterol and its mechanism, the OA model of rats was constructed by adopting high cholesterol diets, and paraffin sections of knee joints were taken for histological evaluation. Lipid accumulation in chondrocytes of rats was assessed by oil red O staining. The expression of genes and proteins related to anabolism, catabolism and cholesterol metabolism in chondrocytes was assessed by RT-qPCR, immunofluorescence and immunohistochemistry. The results showed that BNTA could alleviate OA pathological manifestations and improve the OARSI (Osteoarthritis Research Society International) score in the OA model of high cholesterol rats. In rat chondrocytes, BNTA can promote the expression of anabolism-related genes col2, sox9 and acan, inhibit the expression of catabolism-related genes mmp13 and adamts5, and improve the lipid accumulation caused by high cholesterol in rat chondrocytes. BNTA can up-regulate Insig1 expression in rat chondrocytes and the OA model of high cholesterol rats. This study confirmed that high cholesterol can aggravate OA in vivo and in vitro, and can increase lipid accumulation in rat chondrocytes. Taken together, BNTA can alleviate OA phenotypes induced by high cholesterol and improve abnormal lipid accumulation in chondrocytes, possibly by inhibiting cholesterol biosynthesis in cells by upregulating Insig1, thereby alleviating abnormal lipid accumulation.

Cdkn2a Tracer Mice: A Novel Model to Study Cellular Senescence in Post-traumatic Osteoarthritis / 中国生物化学与分子生物学报

Osteoarthritis (OA) is one of the most common geriatric motor system diseases in the clinical practice. Aging, whose hallmark is cellular senescence, is an important factor leading to the occurrence and development of OA, but its exact role in the pathological development of OA is not completely clear. Studies have proved that targeting senescence can effectively treat aging-related diseases. In this study, the heterozygous mouse model of Cdkn2a-e (Luc-2A-tdTomato-2a-CreerT2-Wpre-PA)1 was established by the CRISPR/ Cas9 technique. The expression of Cdkn2a (p16, p16INK4a), a classical marker of senescence, can be traced in vivo in mice. We then utilized anterior cruciate ligament transection (ACLT) to induce OA in Cdkn2a mice, and we hope to verify the relationship between aging and the occurrence and development of OA and visualize aging changes during OA development through the mice model. In this study, 10-12 weeks old Cdkn2a mice were randomly divided into no surgery control group, sham operation group and ACLT group. OA model was constructed in mice by ACLT operation. After surgery for 4 weeks, animals were collected for fluorescence imaging detection in vivo, which showed that local fluorescence expression of Cdkn2a increased in knee joints of mice in the ACLT group four weeks after surgery (P < 0. 05) . The Safranin O-Fast Green Staining of mouse knee tissue sections showed degeneration of the knee cartilage in the ACLT group at 4 weeks after surgery (P < 0. 05) . Immunohistochemical staining of Cdkn2a was performed on the knee tissue of mice. Compared with the other two groups, Cdkn2a staining on the cartilage surface of the knee tissue of mice in the ACLT group was deeper. The results showed that the OA model induced by surgery showed local aging, which further verified the relationship between aging and OA. At the same time, the Cdkn2a tracer mouse model can reflect the aging progress of mice in vivo, with combination of imaging examinations, so that the occurrence and progress of the relationship between aging and OA can be observed in real time. This heterozygous mouse model of Cdkn2a-e(Luc-2A-tdTomato-2a-CreerT2-Wpre-PA) 1 is not only useful for mechanism research of aging and OA diseases, but also beneficial for finding more potential therapy targets to OA and aging.

Changes of electroencephalography power spectrum during joint position perception test after anterior cruciate ligament rupture / 北京大学学报(医学版)

OBJECTIVE@#To measure the electroencephalography (EEG) of the patients with anterior cruciate ligament (ACL) rupture when performing joint position perception movement task, to compare the differences between the ACL rupture side and the unaffected side, to identify the EEG change in the power spectrum caused by the ACL rupture, and to provide evidence for the diagnosis, treatment and rehabi-litation for ACL injury as well as knee instability.@*METHODS@#Sixteen male patients, selected from the Department of Sports Medicine, Peking University Third Hospital from November 2014 to April 2015, with only ACL rupture on one side used isokinetic muscle strength testing equipment were enrolled in the study to perform unilateral active knee joint positional movement and passive knee joint positional movement tasks. EEG was recorded to compare between the affected and unaffected limb of ACL rupture patients when doing single leg movement tasks, including passive knee joint position test and active knee joint position sensation test. The target position of the active knee joint position movement task and the passive knee joint position movement task was 30 degrees of knee flexion.@*RESULTS@#During the passive knee joint position test, there was no significant difference in EEG power spectrum of Delta[F (1, 15)=0.003, P=0.957, ηP2 =0.001], Theta[F (1, 15)=0.002, P=0.962, ηP2 < 0.001], Alpha[F (1, 15)=0.002, P=0.966, ηP2 =0.001], Beta[F (1, 15)=0.008, P=0.929, ηP2 =0.001] at Fz, Cz, and Pz between the affected and unaffected limbs in the ACL patients. During the active knee joint position movement task, the EEG power spectrum of Delta, Theta, Alpha, Beta at Fz and Cz location, on the affected side was significant higher than on the unaffected side.@*CONCLUSION@#This study compared the differences between the ACL rupture side and the unaffected side during active knee position movement task and passive knee position movement task, and identifyied the EEG changes in the power spectrum caused by the ACL rupture, It was found that the central changes caused by unilateral ACL rupture still existed during contralateral (unaffected) side movement. The EEG power spectrum of the affected side during active exercise was significantly higher than that of the unaffected side This study provides new electrophysiological evidence for the study of ACL injury.

Finite element analysis of the graft stresses after anterior cruciate ligament reconstruction / 北京大学学报(医学版)

OBJECTIVE@#To explore the stress distribution characteristics of the graft after anterior cruciate ligament (ACL) reconstruction, so as to provide theoretical reference for the surgical plan of ACL reconstruction.@*METHODS@#Based on 3D MRI and CT images, finite element models of the uninjured knee joint and knee joint after ACL reconstruction were established in this study. The uninjured knee model included femur, tibia, fibula, medial collateral ligament, lateral collateral ligament, ACL and posterior cruciate ligament. The ACL reconstruction knee model included femur, tibia, fibula, medial collateral ligament, lateral collateral ligament, ACL graft and posterior cruciate ligament. Linear elastic material properties were used for both the uninjured and ACL reconstruction models. The elastic modulus of bone tissue was set as 17 GPa and Poisson' s ratio was 0.36. The material properties of ligament tissue and graft were set as elastic modulus 390 MPa and Poisson's ratio 0.4. The femur was fixed as the boundary condition, and the tibia anterior tension of 134 N was applied as the loading condition. The stress states of the ACL of the intact joint and the ACL graft after reconstruction were solved and analyzed, including tension, pressure, shear force and von Mises stress.@*RESULTS@#The maximum compressive stress (6.34 MPa), von Mises stress (5.9 MPa) and shear stress (1.83 MPa) of the reconstructed ACL graft were all at the anterior femoral end. It was consistent with the position of maximum compressive stress (8.77 MPa), von Mises stress (8.88 MPa) and shear stress (3.44 MPa) in the ACL of the intact knee joint. The maximum tensile stress of the graft also appeared at the femoral end, but at the posterior side, which was consistent with the position of the maximum tensile stress of ACL of the uninjured knee joint. More-over, the maximum tensile stress of the graft was only 0.88 MPa, which was less than 2.56 MPa of ACL of the uninjured knee joint.@*CONCLUSION@#The maximum compressive stress, von Mises stress and shear stress of the ACL graft are located in the anterior femoral end, and the maximum tensile stress is located in the posterior femoral end, which is consistent with the position of the maximum tensile stress of the ACL of the uninjured knee joint. The anterior part of ACL and the graft bore higher stresses than the posterior part, which is consistent with the biomechanical characteristics of ACL.

Receptor-interacting Protein Kinase 3 Promotes Osteoarthritis-related Changes by Upregulating Integrin Subunit Beta 3 / 中国生物化学与分子生物学报

Osteoarthritis (OA) is the most common chronic disabling joint disease, and currently there is no effective treatment for the cause. Necroptosis plays a key role in many diseases, and receptor-interacting protein kinase 3 (RIP3) is a key regulator during necroptosis process. Studies have shown that the expression level of RIP3 was significantly upregulated in human and mouse OA degenerative cartilage tissues, suggesting the occurrence of necroptosis. However, the specific pathophysiological role of RIP3 in cartilage is still unclear. This study intends to sequence and analyze the transcriptome of chondrocytes before and after RIP3 overexpression, and explore the specific functional mechanism of RIP3 in OA pathogenesis. RNA sequencing results showed that overexpression of RIP3 induced upregulation of 244 genes and downregulation of 277 genes in chondrocytes. Sixteen candidate target genes were screened out by constructing gene co-expression network for further verification at mRNA level, and the results suggested that RIP3 had the most significant inductive effect on the expression of phosphoinositide-3kinase, regulatory subunit 5 (Pik3r5), integrin subunit beta 3 (Itgb3) and MYB proto-oncogene like 2 (Mybl2). Results from CCK-8 and lactate dehydrogenase activity analysis showed that silencing the expression of Itgb3 by siRNA significantly rescued chondrocyte viability decline and necroptosis induced by RIP3, and it also inhibited the upregulating effect of RIP3 on the expression of catabolism-related genes Mmp1, Mmp13 and Il6, as well as the downregulating effect of RIP3 on the expression of anabolism-related genes Acan, Col2a1 and Sox9. This study has demonstrated that RIP3 promotes chondrocyte necrosis and cartilage matrix metabolism disorders by upregulating the expression of Itgb3 in chondrocytes, and ultimately leads to cartilage degeneration. These findings provided potential novel targets for the clinical treatment of OA, and further clarified the pathophysiological significance of necroptosis.

Anatomical and finite element analysis of anterior cruciate ligament reconstruction within biomechanical insertion / 北京大学学报(医学版)

OBJECTIVE@#To provide new concepts of anterior cruciate ligament (ACL) reconstruction by anatomical gross observation of ACL tibial insertion and finite element analysis of distribution of ACL mechanical insertion.@*METHODS@#In the anatomical study, ten fresh adult cadaveric knees were dissected, including 6 males and 4 females, all knees were generally observed through standard medial parapatellar approaches, paying attention to the close anatomical relationship of tibial insertion and anterior horn of lateral meniscus, and ACL was exposed and gradually removed from the inside. The shape of tibial insertion of ACL was observed and recorded, and anterior-posterior diameters and left-right diameters of tibial insertion were measured with vernier caliper. For the study of finite element analysis, three-dimensional thin-layer magnetic resonance imaging of normal knee joint was used to establish knee joint model. Three-dimensional reconstruction software MIMICS and finite element analysis software ANSYS were used to establish knee joint model, subsequently, clinical physical examination Lachman test and pivot-shift test were simulated to observe the force distribution of ACL tibial insertion and femoral insertion.@*RESULTS@#The ACL tibial mechanical insertion was rather flat and long similar as an arc shape without a clear separation between anterior medial bundle (AMB) and posterolateral bundle (PLB) in gross observation. The dense fibers lies belonged to the medial intercondylar ridge and ended up anterior with the osseous landmark of anterior ridge. Its average anterior-posterior diameter was (13.8±2.0) mm, the average left-right diameter of midsubstance was (5.3±0.6) mm, and the average left-right diameter of anterior margin was (11.5±1.2) mm. The finite element analysis showed that distribution on the femoral side was oval shape mainly below the residents' ridge, while the tibial side was rather flat mainly along the medial intercondylar ridge, which was consistent with the anatomical observation. The biomechanical characteristics of ACL attachments were verified theoretically.@*CONCLUSION@#Anatomical study and finite element analysis have confirmed the flat arc shape of ACL tibial insertion. The ideal reconstruction technique of ACL should be based on its biomechanical insertion. Based on anatomical study and biomechanical analysis, we have proposed the idea of ACL biomechanical insertion reconstruction (BIR) and established a surgical model with oval femoral tunnel and rounded-rectangle tibial tunnel.