Changjie Zhang scite author profile

Osteoarthritis is a chronic disease characterized by cartilage degeneration and chondrocyte apoptosis. Mitogen-activated protein kinase (MAPK) signaling pathway plays a key role in regulating OA process. Autophagy has an important effect on the OA process, and it is believed to be regulated by MAPKs. To reveal the mechanism and the effect of JNK and p38 MAPKs on matrix metalloproteinase 3 (MMP3) and autophagy in OA, the study established OA model in rabbits, used the measurement of the Osteoarthritis Research Society International scoring system to evaluate OA model, and conducted general observation, histological observation, and Western blotting of JNK, phosphorylate-JNK (P-JNK), p38, phosphorylate-p38 (Pp38), MMP3, and light-chain 3 (LC3)-II/LC3-I to explore the variation of JNK, p38 MAPKs, and autophagy at the early stage of OA. With OA progressing at the early stage, MMP3, P-p38, and P-JNK were gradually upregulated from the baseline to the peak in study groups when compared with the control group; JNK and p38 variated of turbulence without statistical difference; and LC3-II/LC3-I had a decreasing tendency from the 0-to 15-day group. This study identifies that compromised autophagy may be related to the OA progress and that JNK and p38 MAPKs have positive regulation on MMP3 and negative regulation on autophagy. It also implicates a new therapeutic strategy for OA and other degenerate diseases based on selective MAPK inhibitors, reduction of MMP3, and autophagy. V C 2016 IUBMB Life, 68(4): [293][294][295][296][297][298][299][300][301][302] 2016

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Microclot array elastometry for integrated measurement of thrombus formation and clot biomechanics under fluid shear

Chen

Zhang

et al. 2019

Nat Commun

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Blood clotting at the vascular injury site is a complex process that involves platelet adhesion and clot stiffening/contraction in the milieu of fluid flow. An integrated understanding of the hemodynamics and tissue mechanics regulating this process is currently lacking due to the absence of an experimental system that can simultaneously model clot formation and measure clot mechanics under shear flow. Here we develop a microfluidic-integrated microclot-array-elastometry system (clotMAT) that recapitulates dynamic changes in clot mechanics under physiological shear. Treatments with procoagulants and platelet antagonists and studies with diseased patient plasma demonstrate the ability of the system to assay clot biomechanics associated with common antiplatelet treatments and bleeding disorders. The changes of clot mechanics under biochemical treatments and shear flow demonstrate independent yet equally strong effects of these two stimulants on clot stiffening. This microtissue force sensing system may have future research and diagnostic potential for various bleeding disorders.

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Prevalence and risk factors of disability and anxiety in a retrospective cohort of 432 survivors of Coronavirus Disease-2019 (Covid-19) from China

et al. 2020

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Objective To estimate the prevalence of disability and anxiety in Covid-19 survivors at discharge from hospital and analyze relative risk by exposures. Design Multi-center retrospective cohort study. Setting Twenty-eight hospitals located in eight provinces of China. Methods A total of 432 survivors with laboratory-confirmed SARS CoV-2 infection participated in this study. At discharge, we assessed instrumental activities of daily living (IADL) with Lawton’s IADL scale, dependence in activities of daily living (ADL) with the Barthel Index, and anxiety with Zung’s self-reported anxiety scale. Exposures included comorbidity, smoking, setting (Hubei vs. others), disease severity, symptoms, and length of hospital stay. Other risk factors considered were age, gender, and ethnicity (Han vs. Tibetan). Results Prevalence of at least one IADL problem was 36.81% (95% CI: 32.39–41.46). ADL dependence was present in 16.44% (95% CI: 13.23–20.23) and 28.70% (95% CI: 24.63–33.15) were screened positive for clinical anxiety. Adjusted risk ratio (RR) of IADL limitations (RR 2.48, 95% CI: 1.80–3.40), ADL dependence (RR 2.07, 95% CI 1.15–3.76), and probable clinical anxiety (RR 2.53, 95% CI 1.69–3.79) were consistently elevated in survivors with severe Covid-19. Age was an additional independent risk factor for IADL limitations and ADL dependence; and setting (Hubei) for IADL limitations and anxiety. Tibetan ethnicity was a protective factor for anxiety but a risk factor for IADL limitations. Conclusion A significant proportion of Covid-19 survivors had disability and anxiety at discharge from hospital. Health systems need to be prepared for an additional burden resulting from rehabilitation needs of Covid-19 survivors.

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Application of microfluidic devices in studies of thrombosis and hemostasis

Zhang

Neelamegham

2017

Platelets

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Due to the importance of fluid flow during thrombotic episodes, it is quite appropriate to study clotting and bleeding processes in devices that have well-defined fluid shear environments. Two common devices for applying these defined shear stresses include the cone-and-plate viscometer and parallel-plate flow chamber. While such tools have many salient features, they require large amounts of blood or other protein components. With growth in the area of microfluidics over the last two decades, it has become feasible to miniaturize such flow devices. Such miniaturization not only enables saving of precious samples but also increases the throughput of fluid shear devices, thus, enabling the design of combinatorial experiments and making the technique more accessible to the larger scientific community. In addition to simple flows that are common in traditional flow apparatus, more complex geometries that mimic stenosed arteries and the human microvasculature can also be generated. The composition of the microfluidics cell substrate can also be varied for diverse basic science investigations, and clinical investigations that aim to assay either individual patient coagulopathy or response to anti-coagulation treatment. This review summarizes the current state of the art for such microfluidic devices and their applications in the field of thrombosis and hemostasis.

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Platelet GpIbα Binding to von Willebrand Factor Under Fluid Shear: Contributions of the D'D3‐Domain, A1‐Domain Flanking Peptide and O‐Linked Glycans

Madabhushi

Zhang

Kelkar

et al. 2014

JAHA

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BackgroundVon Willebrand Factor (VWF) A1‐domain binding to platelet receptor GpIbα is an important fluid‐shear dependent interaction that regulates both soluble VWF binding to platelets, and platelet tethering onto immobilized VWF. We evaluated the roles of different structural elements at the N‐terminus of the A1‐domain in regulating shear dependent platelet binding. Specifically, the focus was on the VWF D′D3‐domain, A1‐domain N‐terminal flanking peptide (NFP), and O‐glycans on this peptide.Methods and ResultsFull‐length dimeric VWF (ΔPro‐VWF), dimeric VWF lacking the D′D3 domain (ΔD′D3‐VWF), and ΔD′D3‐VWF variants lacking either the NFP (ΔD′D3NFP─‐VWF) or just O‐glycans on this peptide (ΔD′D3OG─‐VWF) were expressed. Monomeric VWF‐A1 and D′D3‐A1 were also produced. In ELISA, the apparent dissociation constant (KD) of soluble ΔPro‐VWF binding to immobilized GpIbα (KD≈100 nmol/L) was 50‐ to 100‐fold higher than other proteins lacking the D′D3 domain (KD~0.7 to 2.5 nmol/L). Additionally, in surface plasmon resonance studies, the on‐rate of D′D3‐A1 binding to immobilized GpIbα (kon=1.8±0.4×104 (mol/L)−1·s−1; KD=1.7 μmol/L) was reduced compared with the single VWF‐A1 domain (kon=5.1±0.4×104 (mol/L)−1·s−1; KD=1.2 μmol/L). Thus, VWF‐D′D3 primarily controls soluble VWF binding to GpIbα. In contrast, upon VWF immobilization, all molecular features regulated A1‐GpIbα binding. Here, in ELISA, the number of apparent A1‐domain sites available for binding GpIbα on ΔPro‐VWF was ≈50% that of the ΔD′D3‐VWF variants. In microfluidics based platelet adhesion measurements on immobilized VWF and thrombus formation assays on collagen, human platelet recruitment varied as ΔPro‐VWF<ΔD′D3‐VWF<ΔD′D3NFP─‐VWF<ΔD′D3OG─‐VWF.ConclusionsWhereas VWF‐D′D3 is the major regulator of soluble VWF binding to platelet GpIbα, both the D′D3‐domain and N‐terminal peptide regulate platelet translocation and thrombus formation.

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Changjie Zhang

Explore the variation of MMP3, JNK, p38 MAPKs, and autophagy at the early stage of osteoarthritis

Microclot array elastometry for integrated measurement of thrombus formation and clot biomechanics under fluid shear

Prevalence and risk factors of disability and anxiety in a retrospective cohort of 432 survivors of Coronavirus Disease-2019 (Covid-19) from China

Application of microfluidic devices in studies of thrombosis and hemostasis

Platelet GpIbα Binding to von Willebrand Factor Under Fluid Shear: Contributions of the D'D3‐Domain, A1‐Domain Flanking Peptide and O‐Linked Glycans

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