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12,767 results on '"PROTEOGLYCAN"'

4. Critical Roles of SEA Domains

Author

Salido, Ezequiel M., Dong, Haidong, Series Editor, Radeke, Heinfried H., Series Editor, Rezaei, Nima, Series Editor, Steinlein, Ortrud, Series Editor, Xiao, Junjie, Series Editor, Rosenhouse-Dantsker, Avia, Series Editor, Gerlai, Robert, Series Editor, Bowes Rickman, Catherine, editor, Grimm, Christian, editor, Anderson, Robert E., editor, Ash, John D., editor, Pierce, Eric, editor, and Hollyfield, Joe G., editor

Published
2025
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7. Endothelial Glycocalyx Degradation Patterns in Sepsis-Associated Pediatric Acute Respiratory Distress Syndrome: A Single Center Retrospective Observational Study.

Author

Hippensteel, Joseph, Miller, Kristen, Oshima, Kaori, Pham, Andrew, Richter, Robert, Belperio, John, Sierra, Yamila, Mourani, Peter, Schmidt, Eric, Sapru, Anil, Maddux, Aline, Schwingshackl, Andreas, and Sallee, Colin

Subjects
acute respiratory distress syndrome, glycocalyx, glycosaminoglycan, mechanical ventilation, pediatric intensive care, pediatrics, proteoglycan, sepsis, Humans, Child, Retrospective Studies, Syndecan-1, Chondroitin Sulfates, Prospective Studies, Glycocalyx, Respiratory Distress Syndrome, Sepsis, Heparitin Sulfate, Biomarkers, Proteoglycans, Disaccharides
Abstract

BACKGROUND: Sepsis-associated destruction of the pulmonary microvascular endothelial glycocalyx (EGCX) creates a vulnerable endothelial surface, contributing to the development of acute respiratory distress syndrome (ARDS). Constituents of the EGCX shed into circulation, glycosaminoglycans and proteoglycans, may serve as biomarkers of endothelial dysfunction. We sought to define the patterns of plasma EGCX degradation products in children with sepsis-associated pediatric ARDS (PARDS), and test their association with clinical outcomes. METHODS: We retrospectively analyzed a prospective cohort (2018-2020) of children (≥1 month to 60% of the severe PARDS patients (test for trend, p = 0.04). Higher total heparan sulfate and N-sulfated disaccharide levels were independently associated with fewer 28-day ventilator-free days in children with sepsis-associated PARDS (all p

Published
2024

8. Targeting TGF‐β signaling, oxidative stress, and cellular senescence rescues osteoporosis in gerodermia osteodysplastica.

Author

Chan, W. L., Bucher, C. H., Goldes, J., Ma, A. C., Steiner, M., Willie, B. M., Mundlos, S., and Kornak, U.

Subjects
*MESENCHYMAL stem cells, *CELLULAR aging, *CANCELLOUS bone, *REACTIVE oxygen species, *CARRIER proteins
Abstract

GORAB is a key regulator of Golgi vesicle transport and protein glycanation. Loss of GORAB function in gerodermia osteodysplastica (GO) causes shortening of glycosaminoglycan chains, leading to extracellular matrix disorganization that results in wrinkled skin, osteoporosis and elevated TGF‐β signaling. In this study, we investigated the role of TGF‐β‐signaling, oxidative stress, and resulting cellular senescence in the osteoporosis phenotype of GO. Treatment of GorabPrx1 conditional knockouts with the TGF‐β neutralizing antibody 1D11 rescued the trabecular bone loss, indicating that TGF‐β overactivation causes osteoporosis in GO. Using an inducible knockout system, we demonstrated that TGF‐β dysregulation was not a cell‐intrinsic effect of GORAB inactivation, but a consequence of a disorganized extracellular matrix. Enhanced TGF‐β signaling caused elevated Nox4 expression in GorabPrx1 mutants and in GO patients' fibroblasts, resulting in overproduction of mitochondrial superoxide. The resulting oxidative stress was detected in GORAB null cells and also in wildtype bystander cells. The same effect was observed in zebrafish after TALEN‐mediated gorab inactivation, indicating that the pathway is evolutionarily conserved. Treating GorabPrx1 mutants with the antioxidant N‐acetylcysteine ameliorated the osteoporosis phenotype. TGF‐β induced oxidative stress coincided with accumulation of DNA damage and elevated expression of senescence markers. Inactivation of Cdkn2a in the GorabPrx1 rescued the osteoporosis phenotype. Reduced colony formation and altered subpopulations of bone marrow stromal cells were normalized upon inactivation of Cdkn2a, thus further demonstrating the relevance of cellular senescence in the pathogenesis. Our results shed light on the causative role of a TGF‐β‐Nox4‐senescence axis and therapeutic strategies for GO. [ABSTRACT FROM AUTHOR]

Published
2024
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9. Versican Proteolysis by ADAMTS: Understanding Versikine Expression in Canine Spontaneous Mammary Carcinomas.

Author

Souza, Maria Carolina, Nunes, Simone, Figuerêdo, Samantha Hellen Santos, de Almeida, Bruno Sousa, Santos, Isac Patrick Conceição, Cassali, Geovanni Dantas, Arruda, Sérgio Marcos, Cardoso, Thiago Marconi de Souza, Estrela-Lima, Alessandra, and Damasceno, Karine Araújo

Subjects
*BREAST tumor diagnosis, *GLYCOPROTEIN analysis, *PHENOMENOLOGICAL biology, *CANCER, *CANCER invasiveness, *RESEARCH funding, *BREAST tumors, *CELL proliferation, *GLYCOPROTEINS, *BIOCHEMISTRY, *DOGS, *IMMUNE system, *TUMOR markers, *GENE expression, *EXTRACELLULAR matrix proteins, *METASTASIS, *IMMUNOLOGIC receptors, *PROTEOLYTIC enzymes, *ANIMAL experimentation, *COLLAGEN, *EXTRACELLULAR matrix, *DISEASE progression
Abstract

Simple Summary: A tumor's extracellular matrix (ECM) serves as a vital connection and support network, orchestrating events that regulate tumor activity. Versican (VCAN), a proteoglycan found within the ECM, plays a crucial role in invasion and metastasis. Like the ECM, VCAN can undergo cleavage by metalloproteinases, such as a disintegrin and metalloproteinase with thrombospondin motifs (ADAMTS). This proteolytic process produces a bioactive fragment known as versikine (VKINE). Remarkably, this fragment exhibits immunomodulatory activity in certain cancer types. Consequently, the proteolysis of VCAN and associated factors may be valuable indicators of tumor progression. Background: The present study investigates VKINE, a bioactive proteolytic fragment of the proteoglycan VCAN, as a novel and significant element in the tumor extracellular matrix (ECM). Although VKINE has been recognized for its immunomodulatory potential in certain tumor types, its impact on ECM degradation and prognostic implications remains poorly understood. Objectives: This study aimed to evaluate VCAN proteolysis and its association with ADAMTS enzymes involved in extracellular matrix remodeling in spontaneous canine mammary gland cancer. Methods: The expression levels of VKINE, ADAMTS enzymes, and collagen fibers were comparatively analyzed in situ and in invasive areas of carcinoma in mixed tumor (CMT) and carcinosarcoma (CSS) with different prognoses. Results: VKINE was notably expressed in the stroma adjacent to the invasion areas in CMT, whereas ADAMTS-15 was identified as the enzyme associated with VCAN proteolysis. Inverse correlations were observed between type III collagen and VCAN expression in in situ areas. Conclusions: Our findings suggest that VKINE and ADAMTS-15 play crucial roles in the tumor microenvironment, influencing invasiveness and type III collagen deposition. This study contributes to a better understanding of the dynamics within the ECM, paving the way for potential new tools in diagnosing and treating human and canine mammary tumors. [ABSTRACT FROM AUTHOR]

Published
2024
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10. Serum decorin and biglycan levels as predictive biomarkers for lung fibrosis severity and mortality risk in COVID-19 patients

Author

Shaaf Ahmad, Kaleem Maqsood, Farwa Liaqat, and Nabila Roohi

Subjects
COVID-19, decorin, biglycan, proteoglycan, lung fibrosis, Medicine (General), R5-920
Abstract

IntroductionIndividuals experiencing severe symptoms of COVID-19 are at the greatest risk of developing post-COVID lung fibrosis, which significantly impacts long-term health outcomes. This study aims to investigate the predictive potential of serum biomarkers, specifically decorin and biglycan, in assessing the severity and mortality risk among COVID-19 patients.MethodsFor this study, healthy controls and COVID-19 patients (n = 240) among them 186 with moderate and 54 with severe symptoms from Ittefaq Hospital and Mayo Hospital, Lahore, Pakistan were recruited satisfying the inclusion and exclusion criteria. Patients were followed up for 2 months. Serum level of decorin and biglycan was evaluated by ELISA. One-way ANOVA and Independent sample “t”-test were applied at significance level p

Published
2025
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12. Effect of NaCl Treatment on Intramuscular Collagen Characteristics and Related Endogenous Enzyme Activities of Beef during 72 h Postmortem

Author

LIAO Boqun, HE Junbao, WANG Xirui, CHEN Fang, ZHANG Yawei

Subjects
nacl, characteristics of intramuscular collagen, proteoglycan, postmortem aging, shear force, enzyme activity, Food processing and manufacture, TP368-456
Abstract

This study investigated the effects of treatment with different concentrations of sodium chloride (NaCl) on the characteristics of intramuscular collagen and related endogenous enzyme activities in beef during 72 h postmortem in order to provide theoretical evidence that NaCl contributes to improving postmortem beef tenderness. Enzyme-linked immunosorbent assay (ELISA) was used to determine the changes in the level of mature collagen cross-linking and endogenous enzyme activities in bovine longissimus dorsi muscle after being treated with 1% or 3% (m/m) NaCl solution. At the same time, differential scanning calorimetry (DSC), endogenous and exogenous fluorescence spectroscopy and sodium dodecyl sulfate polyacrylamide gel electrophoresis (SDS-PAGE) were used to determine physicochemical properties such as thermal solubility, thermal stability, surface hydrophobicity to characterize the structural changes and degradation status of collagen. The results showed that treatment of NaCl at both concentrations could regulate the activity of lysine oxidase, β-glucuronidase and β-galactosidase in beef during 72 h postmortem, thereby enhancing the thermal solubility of intramuscular collagen, reducing the thermal stability, promoting conformational changes and degradation of collagen and ultimately contributing to improving the tenderness of postmortem beef.

Published
2024
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13. Multiple Administration of Dexamethasone Possesses a Deferred Long-Term Effect to Glycosylated Components of Mouse Brain

Author

Stanislav D. Aladev, Dmitry K. Sokolov, Anastasia V. Strokotova, Galina M. Kazanskaya, Alexander M. Volkov, Svetlana V. Aidagulova, and Elvira V. Grigorieva

Subjects
glucocorticoid, dexamethasone, glucocorticoid receptor, brain extracellular matrix, glycosylation, proteoglycan, Medicine, Internal medicine, RC31-1245, Neurosciences. Biological psychiatry. Neuropsychiatry, RC321-571
Abstract

Glucocorticoids are used during glioblastoma treatment to prevent the cerebral edema effect surrounding normal brain tissue. The aim of our study was to investigate the long-term effects of multiple administrations of glucocorticoids onto the glycosylated components (proteoglycans and glycosaminoglycans) of normal brain extracellular matrix and the glucocorticoid receptor (GR, Nr3c1) in an experimental model in vivo. Two-month-old male C57Bl/6 mice (n = 90) were injected intraperitoneally with various doses of dexamethasone (DXM) (1; 2.5 mg/kg) for 10 days. The mRNA levels of the GR, proteoglycans core proteins, and heparan sulfate metabolism-involved genes were determined at the 15th, 30th, 60th, and 90th days by a real-time RT–PCR. The glycosaminoglycans content was studied using dot blot and staining with Alcian blue. A DXM treatment increased total GAG content (2-fold), whereas the content of highly sulfated glycosaminoglycans decreased (1.5–2-fold). The mRNA level of the heparan sulfate metabolism-involved gene Hs3St2 increased 5-fold, the mRNA level of Hs6St2 increased6–7-fold, and the mRNA level of proteoglycan aggrecan increased 2-fold. A correlation analysis revealed an association between the mRNA level of the GR and the mRNA level of 8 of the 14 proteoglycans-coding and 4 of the 13 heparan sulfate metabolism-involved genes supporting GR involvement in the DXM regulation of the expression of these genes. In summary, multiple DXM administrations led to an increase in the total GAG content and reorganized the brain extracellular matrix in terms of its glycosylation pattern.

Published
2024
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14. Glycocalyx engineering with heparan sulfate mimetics attenuates Wnt activity during adipogenesis to promote glucose uptake and metabolism

Author

Trieger, Greg W, Pessentheiner, Ariane R, Purcell, Sean C, Green, Courtney R, DeForest, Natalie, Willert, Karl, Majithia, Amit R, Metallo, Christian M, Godula, Kamil, and Gordts, Philip LSM

Subjects
Biochemistry and Cell Biology, Biological Sciences, Diabetes, Biotechnology, Obesity, Nutrition, 2.1 Biological and endogenous factors, Metabolic and endocrine, Humans, Adipogenesis, Glycocalyx, Diabetes Mellitus, Type 2, Heparitin Sulfate, Glucose, Wnt signaling, adipocyte, glucose, heparan sulfate, proteoglycan, Chemical Sciences, Medical and Health Sciences, Biochemistry & Molecular Biology, Biological sciences, Biomedical and clinical sciences, Chemical sciences
Abstract

Adipose tissue plays a crucial role in maintaining metabolic homeostasis by storing lipids and glucose from circulation as intracellular fat. As peripheral tissues like adipose tissue become insulin resistant, decompensation of blood glucose levels occurs causing type 2 diabetes (T2D). Currently, modulating the glycocalyx, a layer of cell-surface glycans, is an underexplored pharmacological treatment strategy to improve glucose homeostasis in T2D patients. Here, we show a novel role for cell-surface heparan sulfate (HS) in establishing glucose uptake capacity and metabolic utilization in differentiated adipocytes. Using a combination of chemical and genetic interventions, we identified that HS modulates this metabolic phenotype by attenuating levels of Wnt signaling during adipogenesis. By engineering, the glycocalyx of pre-adipocytes with exogenous synthetic HS mimetics, we were able to enhance glucose clearance capacity after differentiation through modulation of Wnt ligand availability. These findings establish the cellular glycocalyx as a possible new target for therapeutic intervention in T2D patients by enhancing glucose clearance capacity independent of insulin secretion.

Published
2023

15. Cant1 Affects Cartilage Proteoglycan Properties: Aggrecan and Decorin Characterization in a Mouse Model of Desbuquois Dysplasia Type 1.

Author

Gramegna Tota, Chiara, Leone, Alessandra, Khan, Asifa, Forlino, Antonella, Rossi, Antonio, and Paganini, Chiara

Subjects
*KNOCKOUT mice, *EXTRACELLULAR matrix, *PROTEOGLYCANS, *CARTILAGE, *LABORATORY mice, *DYSPLASIA, *GLYCOSAMINOGLYCANS
Abstract

Desbuquois dysplasia type 1 (DBQD1) is a recessive chondrodysplasia caused by mutations in the CANT1 gene, encoding for the Golgi Calcium-Activated Nucleotidase 1 (CANT1). The enzyme hydrolyzes UDP, the by-product of glycosyltransferase reactions, but it might play other roles in different cell types. Using a Cant1 knock-out mouse, we demonstrated that CANT1 is crucial for glycosaminoglycan (GAG) synthesis; however, its impact on the biochemical properties of cartilage proteoglycans remains unknown. Thus, in this work, we characterized decorin and aggrecan from primary chondrocyte cultures and cartilage biopsies of mutant mice at post-natal day 4 by Western blots and further investigated their distribution in the cartilage extracellular matrix (ECM) by immunohistochemistry. We demonstrated that the GAG synthesis defect caused by CANT1 impairment led to the synthesis and secretion of proteoglycans with shorter GAG chains compared with wild-type animals. However, this alteration did not result in the synthesis and secretion of decorin and aggrecan in the unglycanated form. Interestingly, the defect was not cartilage-specific since also skin decorin showed a reduced hydrodynamic size. Finally, immunohistochemical studies in epiphyseal sections of mutant mice demonstrated that the proteoglycan structural defect moderately affected decorin distribution in the ECM. [ABSTRACT FROM AUTHOR]

Published
2024
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16. Influence of feeding a soft diet on proteoglycan expression in rat temporomandibular joint discs.

Author

Yasuno, Kozue, Ito, Arata, Yoshida, Michiko, Fukunaga, Tomohiro, Honda, Takahiro, Tsumaki, Hiroka, Yamaguchi, Kaya, and Mizoguchi, Itaru

Abstract

Extracellular matrix components play a significant role in maintaining tissue integrity and pathological processes of the temporomandibular joint (TMJ). This study aimed to evaluate the influence of a soft diet on the mRNA expression of proteoglycans and glycosaminoglycans (GAGs) linked to proteoglycan core proteins in rat TMJ discs. Thirty 4-week-old male Wistar rats were assigned to one of two groups: a control group fed a regular pellet diet and a soft diet group fed a powdered diet for 4 weeks. The mRNA expression levels of 12 proteoglycans in TMJ discs were evaluated using real-time polymerase chain reaction (PCR). In addition, histomorphometric and biochemical analyses were performed to evaluate the thickness and deoxyribonucleic acid (DNA), GAG, and water content of the TMJ discs. The TMJ disc thickness in the anterior, intermediate, and posterior bands decreased significantly in the soft diet group. The GAG content decreased significantly in the soft-diet group, whereas no significant differences in DNA content or water content ratio were observed between the groups. Real-time PCR indicated that the expression levels of aggrecan, versican, biglycan, decorin, fibromodulin, lumican, and chondroadherin decreased in the soft diet group. The expression levels of all versican isoforms decreased in the soft diet group. These results indicate that the biomechanical environment of the TMJ caused by a soft diet is closely related to the expression of proteoglycans in TMJ discs, which may eventually increase the fragility of the TMJ discs. • Feeding a soft diet decreased glycosaminoglycan content in the TMJ disc. • Feeding a soft diet decreased the proteoglycan expression in the TMJ disc. • Feeding a soft diet decreased versican isoform expression in the TMJ disc. [ABSTRACT FROM AUTHOR]

Published
2024
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17. Protective Effects of Vitamin D on Proteoglycans of Human Articular Chondrocytes through TGF-β1 Signaling.

Author

Guan, Jian, Li, Zhuoxin, Niu, Guodong, Li, Siwei, Li, Weishi, Song, Chunli, and Leng, Huijie

Abstract

The extracellular matrix of cartilage primarily constitutes of collagen and aggrecan. Cartilage degradation starts with aggrecan loss in osteoarthritis (OA). Vitamin D (VD) plays an essential role in several inflammation-related diseases and can protect the collagen in cartilage during OA. The present study focused on the role of VD in aggrecan turnover of human articular chondrocytes treated with tumor necrosis factor α (TNF-α) and the possible mechanism. Treatment with different doses of VD and different periods of intervention with TNF-α and TGF-β1 receptor (TGFβR1) inhibitor SB525334 were investigated. The viability of human chondrocytes and extracellular secretion of TGF-β1 were measured. The expression of intracellular TGFβR1 and VD receptor was examined. Transcriptional and translational levels of aggrecan and the related metabolic factors were analyzed. The results showed that TNF-α markedly reduced the viability, TGFβR1 expressions and aggrecan levels of human chondrocytes, and increased disintegrin and metalloproteinase with thrombospondin motifs. The alterations were partially inhibited by VD treatment. Furthermore, the effects of VD were blocked by the TGFβR1 inhibitor SB525334 in TNF-α-treated cells. VD may prevent proteoglycan loss due to TNF-α via TGF-β1 signaling in human chondrocytes. [ABSTRACT FROM AUTHOR]

Published
2024
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18. Solid‐Phase‐Supported Chemoenzymatic Synthesis and Analysis of Chondroitin Sulfate Proteoglycan Glycopeptides.

Author

Lin, Po‐han, Xu, Yongmei, Bali, Semiha Kevser, Kim, Jandi, Gimeno, Ana, Roberts, Elijah T., James, Deepak, Almeida, Nuno M. S., Loganathan, Narasimhan, Fan, Fei, Wilson, Angela K., Jonathan Amster, I., Moremen, Kelley W., Liu, Jian, Jiménez‐Barbero, Jesús, and Huang, Xuefei

Subjects
*CHONDROITIN sulfate proteoglycan, *PEPTIDES, *GLYCOPEPTIDES, *CHEMICAL synthesis, *SULFATION, *GLYCOSAMINOGLYCANS
Abstract

Proteoglycans (PGs), consisting of glycosaminoglycans (GAGs) linked with the core protein through a tetrasaccharide linkage region, play roles in many important biological events. The chemical synthesis of PG glycopeptides is extremely challenging. In this work, the enzymes required for synthesis of chondroitin sulfate (CS) PG (CSPG) have been expressed and the suitable sequence of enzymatic reactions has been established. To expedite CSPG synthesis, the peptide acceptor was immobilized on solid phase and the glycan units were directly installed enzymatically onto the peptide. Subsequent enzymatic chain elongation and sulfation led to the successful synthesis of CSPG glycopeptides. The CS dodecasaccharide glycopeptide was the longest homogeneous CS glycopeptide synthesized to date. The enzymatic synthesis was much more efficient than the chemical synthesis of the corresponding CS glycopeptides, which could reduce the total number of synthetic steps by 80 %. The structures of the CS glycopeptides were confirmed by mass spectrometry analysis and NMR studies. In addition, the interactions between the CS glycopeptides and cathepsin G were studied. The sulfation of glycan chain was found to be important for binding with cathepsin G. This efficient chemoenzymatic strategy opens new avenues to investigate the structures and functions of PGs. [ABSTRACT FROM AUTHOR]

Published
2024
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19. Biomimetic strategies for the deputization of proteoglycan functions.

Author

Rehan, Ibrahim F., Elnagar, Asmaa, Zigo, František, Sayed-Ahmed, Ahmed, and Shuhei Yamada

Subjects
PROTEOGLYCANS, TISSUE mechanics, GLYCANS, GRAFT copolymers, CELL communication, EXTRACELLULAR matrix, CELLULAR control mechanisms
Abstract

Proteoglycans (PGs), which have glycosaminoglycan chains attached to their protein cores, are essential for maintaining the morphology and function of healthy body tissues. Extracellular PGs perform various functions, classified into the following four categories: i) the modulation of tissue mechanical properties; ii) the regulation and protection of the extracellular matrix; iii) protein sequestration; and iv) the regulation of cell signaling. The depletion of PGs may significantly impair tissue function, encompassing compromised mechanical characteristics and unregulated inflammatory responses. Since PGs play critical roles in the function of healthy tissues and their synthesis is complex, the development of PG mimetic molecules that recapitulate PG functions for tissue engineering and therapeutic applications has attracted the interest of researchers for more than 20 years. These approaches have ranged from semisynthetic graft copolymers to recombinant PG domains produced by cells that have undergone genetic modifications. This review discusses some essential extracellular PG functions and approaches to mimicking these functions. [ABSTRACT FROM AUTHOR]

Published
2024
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20. Syndecans in hematopoietic cells and their niches.

Author

Hagen, Matthew W., Setiawan, Nicollette J., Woodruff, Kelsey A., and Termini, Christina M.

Subjects
*SYNDECANS, *HEPARAN sulfate proteoglycans, *HEMATOPOIETIC stem cells, *HEMATOPOIETIC system, *CELL adhesion, *SYSTEMS biology
Abstract

Heparan sulfate proteoglycans are a family of glycoproteins that modulate cell signaling by binding growth factors and changing their bioavailability. Syndecans are a specific family of transmembrane heparan sulfate proteoglycans that regulate cell adhesion, migration, and signaling. In this review, we will summarize emerging evidence for the functions of syndecans in the normal and malignant blood systems and their microenvironments. More specifically, we detail the known functions of syndecans within normal hematopoietic stem cells. Furthermore, we discuss the functions of syndecans in hematological malignancies, including myeloid malignancies, lymphomas, and bleeding disorders. As normal and malignant hematopoietic cells require cues from their microenvironments to function, we also summarize the roles of syndecans in cells of the stromal, endothelial, and osteolineage compartments. Syndecan biology is a rapidly evolving field; a comprehensive understanding of these molecules and their place in the hematopoietic system promises to improve our grasp on disease processes and better predict the efficacies of growth factor-targeting therapies. [ABSTRACT FROM AUTHOR]

Published
2024
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21. Sdc4 deletion perturbs intervertebral disc matrix homeostasis and promotes early osteopenia in the aging mouse spine.

Author

Sao, Kimheak and Risbud, Makarand V.

Subjects
*INTERVERTEBRAL disk, *NUCLEUS pulposus, *SPINE, *BONE density, *COMPACT bone, *OSTEOPENIA, *HOMEOSTASIS, *BONE mechanics
Abstract

• Syndecan 4 null mice show vertebral osteopenia, reduced bone stiffness, and functionally altered bone biomechanics. • Osteopenic phenotype in Sdc4 null mice is driven by elevated osteoclast numbers. • Syndecan 4 fine-tunes collagen maturity and ECM composition in the intervertebral disc during early adult life. • Transcriptomic analysis shows dysregulation in heparan sulfate biosynthesis, UPR, and degradation along with decreased mitochondria metabolism. Syndecan 4 (SDC4), a cell surface heparan sulfate proteoglycan, is known to regulate matrix catabolism by nucleus pulposus cells in an inflammatory milieu. However, the role of SDC4 in the aging spine has never been explored. Here we analyzed the spinal phenotype of Sdc4 global knockout (KO) mice as a function of age. Micro-computed tomography showed that Sdc4 deletion severely reduced vertebral trabecular and cortical bone mass, and biomechanical properties of vertebrae were significantly altered in Sdc4 KO mice. These changes in vertebral bone were likely due to elevated osteoclastic activity. The histological assessment showed subtle phenotypic changes in the intervertebral disc. Imaging-Fourier transform-infrared analyses showed a reduced relative ratio of mature collagen crosslinks in young adult nucleus pulposus (NP) and annulus fibrosus (AF) of KO compared to wildtype discs. Additionally, relative chondroitin sulfate levels increased in the NP compartment of the KO mice. Transcriptomic analysis of NP tissue using CompBio, an AI-based tool showed biological themes associated with prominent dysregulation of heparan sulfate GAG degradation, mitochondria metabolism, autophagy, endoplasmic reticulum (ER)-associated misfolded protein processes and ER to Golgi protein processing. Overall, this study highlights the important role of SDC4 in fine-tuning vertebral bone homeostasis and extracellular matrix homeostasis in the mouse intervertebral disc. [ABSTRACT FROM AUTHOR]

Published
2024
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22. Combined genetic-pharmacologic inactivation of tightly linked ADAMTS proteases in temporally specific windows uncovers distinct roles for versican proteolysis and glypican-6 in cardiac development.

Author

Mead, Timothy J., Bhutada, Sumit, Foulcer, Simon J., Peruzzi, Niccolò, Nelson, Courtney M., Seifert, Deborah E., Larkin, Jonathan, Tran-Lundmark, Karin, Filmus, Jorge, and Apte, Suneel S.

Subjects
*HEDGEHOG signaling proteins, *PROTEOLYSIS, *NUCLEIC acid hybridization, *CONGENITAL heart disease, *PROTEOLYTIC enzymes, *HEART development
Abstract

• Combined genetic-pharmacologic ADAMTS1 and ADAMTS5 inactivation in mice. • Degradomics identification of putative ADAMTS1 and ADAMTS5 substrates. • A requirement for versican proteolysis and glypican-6 in heart development. • Novel roles for ADAMTS1, ADAMTS5 and glypican-6 in hedgehog signaling in the heart. Extracellular matrix remodeling mechanisms are understudied in cardiac development and congenital heart defects. We show that matrix-degrading metalloproteases ADAMTS1 and ADAMTS5, are extensively co-expressed during mouse cardiac development. The mouse mutants of each gene have mild cardiac anomalies, however, their combined genetic inactivation to elicit cooperative roles is precluded by tight gene linkage. Therefore, we coupled Adamts1 inactivation with pharmacologic ADAMTS5 blockade to uncover stage-specific cooperative roles and investigated their potential substrates in mouse cardiac development. ADAMTS5 blockade was achieved in Adamts1 null mouse embryos using an activity-blocking monoclonal antibody during distinct developmental windows spanning myocardial compaction or cardiac septation and outflow tract rotation. Synchrotron imaging, RNA in situ hybridization, immunofluorescence microscopy and electron microscopy were used to determine the impact on cardiac development and compared to Gpc6 and ADAMTS-cleavage resistant versican mutants. Mass spectrometry-based N-terminomics was used to seek relevant substrates. Combined inactivation of ADAMTS1 and ADAMTS5 prior to 12.5 days of gestation led to dramatic accumulation of versican-rich cardiac jelly and inhibited formation of compact and trabecular myocardium, which was also observed in mice with ADAMTS cleavage-resistant versican. Combined inactivation after 12.5 days impaired outflow tract development and ventricular septal closure, generating a tetralogy of Fallot-like defect. N-terminomics of combined ADAMTS knockout and control hearts identified a cleaved glypican-6 peptide only in the controls. ADAMTS1 and ADAMTS5 expression in cells was associated with specific glypican-6 cleavages. Paradoxically, combined ADAMTS1 and ADAMTS5 inactivation reduced cardiac glypican-6 and outflow tract Gpc6 transcription. Notably, Gpc6 −/− hearts demonstrated similar rotational defects as combined ADAMTS inactivated hearts and both had reduced hedgehog signaling. Thus, versican proteolysis in cardiac jelly at the canonical Glu441-Ala442 site is cooperatively mediated by ADAMTS1 and ADAMTS5 and required for proper ventricular cardiomyogenesis, whereas, reduced glypican-6 after combined ADAMTS inactivation impairs hedgehog signaling, leading to outflow tract malrotation. [ABSTRACT FROM AUTHOR]

Published
2024
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23. Multiple Administration of Dexamethasone Possesses a Deferred Long-Term Effect to Glycosylated Components of Mouse Brain.

Author

Aladev, Stanislav D., Sokolov, Dmitry K., Strokotova, Anastasia V., Kazanskaya, Galina M., Volkov, Alexander M., Aidagulova, Svetlana V., and Grigorieva, Elvira V.

Subjects
HEPARAN sulfate, GENETIC regulation, GLUCOCORTICOID receptors, STAINS & staining (Microscopy), CEREBRAL edema
Abstract

Glucocorticoids are used during glioblastoma treatment to prevent the cerebral edema effect surrounding normal brain tissue. The aim of our study was to investigate the long-term effects of multiple administrations of glucocorticoids onto the glycosylated components (proteoglycans and glycosaminoglycans) of normal brain extracellular matrix and the glucocorticoid receptor (GR, Nr3c1) in an experimental model in vivo. Two-month-old male C57Bl/6 mice (n = 90) were injected intraperitoneally with various doses of dexamethasone (DXM) (1; 2.5 mg/kg) for 10 days. The mRNA levels of the GR, proteoglycans core proteins, and heparan sulfate metabolism-involved genes were determined at the 15th, 30th, 60th, and 90th days by a real-time RT–PCR. The glycosaminoglycans content was studied using dot blot and staining with Alcian blue. A DXM treatment increased total GAG content (2-fold), whereas the content of highly sulfated glycosaminoglycans decreased (1.5–2-fold). The mRNA level of the heparan sulfate metabolism-involved gene Hs3St2 increased 5-fold, the mRNA level of Hs6St2 increased6–7-fold, and the mRNA level of proteoglycan aggrecan increased 2-fold. A correlation analysis revealed an association between the mRNA level of the GR and the mRNA level of 8 of the 14 proteoglycans-coding and 4 of the 13 heparan sulfate metabolism-involved genes supporting GR involvement in the DXM regulation of the expression of these genes. In summary, multiple DXM administrations led to an increase in the total GAG content and reorganized the brain extracellular matrix in terms of its glycosylation pattern. [ABSTRACT FROM AUTHOR]

Published
2024
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24. NaCl处理对牛肉宰后72 h内肌内胶原蛋白特性及 相关内源酶活性的影响.

Author

廖博群, 贺军宝, 王希睿, 陈 芳, and 张雅玮

Abstract

Copyright of Shipin Kexue/ Food Science is the property of Food Science Editorial Department and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published
2024
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25. Skeletal Dysplasias Caused by Defects in Glycosaminoglycan Sulfation

Author

Gramegna Tota, Chiara, Leone, Alessandra, Paganini, Chiara, Khan, Asifa, Rossi, Antonio, Superti-Furga, Andrea, Karamanos, Nikos K., Series Editor, Kletsas, Dimitris, Editorial Board Member, Oh, Eok-Soo, Editorial Board Member, Passi, Alberto, Editorial Board Member, Pihlajaniemi, Taina, Editorial Board Member, Ricard-Blum, Sylvie, Editorial Board Member, Sagi, Irit, Editorial Board Member, Savani, Rashmin, Editorial Board Member, Watanabe, Hideto, Editorial Board Member, Rossi, Antonio, editor, and Zaucke, Frank, editor

Published
2024
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28. Site- and Zone-Dependent Changes in Proteoglycan Content and Biomechanical Properties of Bluntly and Sharply Grooved Equine Articular Cartilage.

Author

Mohammadi, Ali, Te Moller, Nikae, Ebrahimi, Mohammadhossein, Plomp, Saskia, Brommer, Harold, van Weeren, P, Mäkelä, Janne, Töyräs, Juha, and Korhonen, Rami

Subjects
Articular cartilage, Chondral defect model, Digital densitometry, Horse, Osteoarthritis (OA), Proteoglycan, Stress–relaxation, Horses, Animals, Cartilage, Articular, Proteoglycans
Abstract

In this study, we mapped and quantified changes of proteoglycan (PG) content and biomechanical properties in articular cartilage in which either blunt or sharp grooves had been made, both close to the groove and more remote of it, and at the opposing joint surface (kissing site) in equine carpal joints. In nine adult Shetland ponies, standardized blunt and sharp grooves were surgically made in the radiocarpal and middle carpal joints of a randomly chosen front limb. The contralateral control limb was sham-operated. At 39 weeks after surgery, ponies were euthanized. In 10 regions of interest (ROIs) (six remote from the grooves and four directly around the grooves), PG content as a function of tissue-depth and distance-to-groove was estimated using digital densitometry. Biomechanical properties of the cartilage were evaluated in the six ROIs remote from the grooves. Compared to control joints, whole tissue depth PG loss was found in sites adjacent to sharp and, to a larger extent, blunt grooves. Also, superficial PG loss of the surgically untouched kissing cartilage layers was observed. Significant PG loss was observed up to 300 µm (sharp) and at 500 µm (blunt) from the groove into the surrounding tissue. Equilibrium modulus was lower in grooved cartilage than in controls. Grooves, in particular blunt grooves, gave rise to severe PG loss close to the grooved sites and to mild degeneration more remote from the grooves in both sharply and bluntly grooved cartilage and at the kissing sites, resulting in loss of mechanical strength over the 9-month period.

Published
2022

29. Degradation of Proteoglycans and Collagen in Equine Meniscal Tissues.

Author

Dubuc, Julia, Schneider, Melodie Jil, Dubuc, Valerie, Richard, Helene, Pinsard, Maxime, Bancelin, Stephane, Legare, Francois, Girard, Christiane, and Laverty, Sheila

Subjects
*SECOND harmonic generation, *STAINS & staining (Microscopy), *PROTEOGLYCANS, *EXTRACELLULAR matrix, *CHONDROITIN sulfate proteoglycan
Abstract

Investigate meniscal extracellular matrix degradation. Equine menisci (n = 34 from 17 horses) were studied. Site-matched sections were cut and scored from three regions (ROIs; n = 102) and stained for histology, proteoglycan (safranin O and fast green), aggrecan, and collagen cleavage (NITEGE, DIPEN, and C1,2C antibodies, respectively). Picrosirius red and second harmonic generation microscopy were performed to investigate collagen ultrastructure. A total of 42 ROIs met the inclusion criteria and were included in the final analysis. The median (range) ROI histological score was 3 (0–9), providing a large spectrum of pathology. The median (range) proteoglycan score was 1 (0–3), representing superficial and central meniscal loss. The median (range) of DIPEN, NITEGE, and C1,2C scores was 1 (0–3), revealing immunostaining of the femoral and tibial surfaces. The proteoglycan scores exhibited significant positive associations with both histologic evaluation (p = 0.03) and DIPEN scores (p = 0.02). Additionally, a robust positive association (p = 0.007) was observed between the two aggrecanolysis indicators, NITEGE and DIPEN scores. A negative association (p = 0.008) was identified between NITEGE and histological scores. The C1,2C scores were not associated with any other scores. Picrosirius red and second harmonic generation microscopy (SHGM) illustrated the loss of the collagen matrix and structure centrally. Proteoglycan and collagen degradation commonly occur superficially in menisci and less frequently centrally. The identification of central meniscal proteoglycan and collagen degradation provides novel insight into central meniscal degeneration. However, further research is needed to elucidate the etiology and sequence of degradative events. [ABSTRACT FROM AUTHOR]

Published
2024
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30. A Systematic Review of Extracellular Matrix-Related Alterations in Parkinson's Disease.

Author

Chapman, Mary Ann and Sorg, Barbara A.

Subjects
*PARKINSON'S disease, *FOCAL adhesions, *CELL anatomy, *EXTRACELLULAR matrix, *CELL adhesion
Abstract

The role of the extracellular matrix (ECM) in Parkinson's disease (PD) is not well understood, even though it is critical for neuronal structure and signaling. This systematic review identified the top deregulated ECM-related pathways in studies that used gene set enrichment analyses (GSEA) to document transcriptomic, proteomic, or genomic alterations in PD. PubMed and Google scholar were searched for transcriptomics, proteomics, or genomics studies that employed GSEA on data from PD tissues or cells and reported ECM-related pathways among the top-10 most enriched versus controls. Twenty-seven studies were included, two of which used multiple omics analyses. Transcriptomics and proteomics studies were conducted on a variety of tissue and cell types. Of the 17 transcriptomics studies (16 data sets), 13 identified one or more adhesion pathways in the top-10 deregulated gene sets or pathways, primarily related to cell adhesion and focal adhesion. Among the 8 proteomics studies, 5 identified altered overarching ECM gene sets or pathways among the top 10. Among the 4 genomics studies, 3 identified focal adhesion pathways among the top 10. The findings summarized here suggest that ECM organization/structure and cell adhesion (particularly focal adhesion) are altered in PD and should be the focus of future studies. [ABSTRACT FROM AUTHOR]

Published
2024
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31. The Proteoglycans Biglycan and Decorin Protect Cardiac Cells against Irradiation-Induced Cell Death by Inhibiting Apoptosis.

Author

Gáspár, Renáta, Diószegi, Petra, Nógrádi-Halmi, Dóra, Erdélyi-Furka, Barbara, Varga, Zoltán, Kahán, Zsuzsanna, and Csont, Tamás

Subjects
*PROTEOGLYCANS, *HEART cells, *CELL death, *DOUBLE-strand DNA breaks, *APOPTOSIS, *CELL nuclei, *CARDIOTONIC agents
Abstract

Radiation-induced heart disease (RIHD), a common side effect of chest irradiation, is a primary cause of mortality among patients surviving thoracic cancer. Thus, the development of novel, clinically applicable cardioprotective agents which can alleviate the harmful effects of irradiation on the heart is of great importance in the field of experimental oncocardiology. Biglycan and decorin are structurally related small leucine-rich proteoglycans which have been reported to exert cardioprotective properties in certain cardiovascular pathologies. Therefore, in the present study we aimed to examine if biglycan or decorin can reduce radiation-induced damage of cardiomyocytes. A single dose of 10 Gray irradiation was applied to induce radiation-induced cell damage in H9c2 cardiomyoblasts, followed by treatment with either biglycan or decorin at various concentrations. Measurement of cell viability revealed that both proteoglycans improved the survival of cardiac cells post-irradiation. The cardiocytoprotective effect of both biglycan and decorin involved the alleviation of radiation-induced proapoptotic mechanisms by retaining the progression of apoptotic membrane blebbing and lowering the number of apoptotic cell nuclei and DNA double-strand breaks. Our findings provide evidence that these natural proteoglycans may exert protection against radiation-induced damage of cardiac cells. [ABSTRACT FROM AUTHOR]

Published
2024
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32. Increased expression of chondroitin sulfate proteoglycans in dentate gyrus and amygdala causes postinfectious seizures.

Author

Patel, Dipan C, Swift, Nathaniel, Tewari, Bhanu P, Browning, Jack L, Prim, Courtney, Chaunsali, Lata, Kimbrough, Ian F, Olsen, Michelle L, and Sontheimer, Harald

Subjects
*DENTATE gyrus, *CHONDROITIN sulfates, *GRANULE cells, *AMYGDALOID body, *SEIZURES (Medicine), *CHONDROITIN sulfate proteoglycan, *PROTEOGLYCANS
Abstract

Alterations in the extracellular matrix are common in patients with epilepsy and animal models of epilepsy, yet whether they are the cause or consequence of seizures and epilepsy development is unknown. Using Theiler's murine encephalomyelitis virus (TMEV) infection-induced model of acquired epilepsy, we found de novo expression of chondroitin sulfate proteoglycans (CSPGs), a major extracellular matrix component, in dentate gyrus (DG) and amygdala exclusively in mice with acute seizures. Preventing the synthesis of CSPGs specifically in DG and amygdala by deletion of the major CSPG aggrecan reduced seizure burden. Patch-clamp recordings from dentate granule cells revealed enhanced intrinsic and synaptic excitability in seizing mice that was significantly ameliorated by aggrecan deletion. In situ experiments suggested that dentate granule cell hyperexcitability results from negatively charged CSPGs increasing stationary cations on the membrane, thereby depolarizing neurons, increasing their intrinsic and synaptic excitability. These results show increased expression of CSPGs in the DG and amygdala as one of the causal factors for TMEV-induced acute seizures. We also show identical changes in CSPGs in pilocarpine-induced epilepsy, suggesting that enhanced CSPGs in the DG and amygdala may be a common ictogenic factor and potential therapeutic target. [ABSTRACT FROM AUTHOR]

Published
2024
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33. The significant role of glycosaminoglycans in tooth development.

Author

Inubushi, Toshihiro, Nag, Priyanka, Sasaki, Jun-Ichi, Shiraishi, Yuki, and Yamashiro, Takashi

Subjects
*DENTITION, *GLYCOSAMINOGLYCANS, *CHONDROITIN sulfates, *DERMATAN sulfate, *CHONDROITIN sulfate proteoglycan, *MEMBRANE proteins, *HEPARAN sulfate
Abstract

This review delves into the roles of glycosaminoglycans (GAGs), integral components of proteoglycans, in tooth development. Proteoglycans consist of a core protein linked to GAG chains, comprised of repeating disaccharide units. GAGs are classified into several types, such as hyaluronic acid, heparan sulfate, chondroitin sulfate, dermatan sulfate, and keratan sulfate. Functioning as critical macromolecular components within the dental basement membrane, these GAGs facilitate cell adhesion and aggregation, and play key roles in regulating cell proliferation and differentiation, thereby significantly influencing tooth morphogenesis. Notably, our recent research has identified the hyaluronan-degrading enzyme Transmembrane protein 2 (Tmem2) and we have conducted functional analyses using mouse models. These studies have unveiled the essential role of Tmem2-mediated hyaluronan degradation and its involvement in hyaluronan-mediated cell adhesion during tooth formation. This review provides a comprehensive summary of the current understanding of GAG functions in tooth development, integrating insights from recent research, and discusses future directions in this field. [ABSTRACT FROM AUTHOR]

Published
2024
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34. Role of proteoglycan synthesis genes in osteosarcoma stem cells.

Author

Ryoma Osumi, Kengo Sugihara, Makoto Yoshimoto, Kazuya Tokumura, Yuki Tanaka, and Eiichi Hinoi

Subjects
STEM cells, OSTEOSARCOMA, RNA interference, SMALL interfering RNA, GENES, CHONDROITIN sulfate proteoglycan, GLYCANS, RNA synthesis
Abstract

Osteosarcoma stem cells (OSCs) contribute to the pathogenesis of osteosarcoma (OS), which is the most common malignant primary bone tumor. The significance and underlying mechanisms of action of proteoglycans (PGs) and glycosaminoglycans (GAGs) in OSC phenotypes and OS malignancy are largely unknown. This study aimed to investigate the role of PG/GAG biosynthesis and the corresponding candidate genes in OSCs and poor clinical outcomes in OS using scRNA-seq and bulk RNA-seq datasets of clinical OS specimens, accompanied by biological validation by in vitro genetic and pharmacological analyses. The expression of b-1,3-glucuronyltransferase 3 (B3GAT3), one of the genes responsible for the biosynthesis of the common core tetrasaccharide linker region of PGs, was significantly upregulated in both OSC populations and OS tissues and was associatedwith poor survival in patientswithOSwith high stemcell properties. Moreover, the genetic inactivation of B3GAT3 by RNA interference and pharmacological inhibition of PGbiosynthesis abrogated the self-renewal potential of OSCs. Collectively, these findings suggest a pivotal role for B3GAT3 and PG/GAG biosynthesis in the regulation of OSC phenotypes and OS malignancy, thereby providing a potential target for OSC-directed therapy. [ABSTRACT FROM AUTHOR]

Published
2024
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35. Enzymatic digestion does not compromise sliding-mediated cartilage lubrication.

Author

Kupratis, Meghan E., Rahman, Atia, Burris, David L., Corbin, Elise A., and Price, Christopher

Subjects
EXTRACELLULAR fluid, CARTILAGE, ARTICULAR cartilage, SLIDING friction, DIGESTION, TISSUE mechanics, SYNOVIAL fluid, COMPRESSION loads
Abstract

Articular cartilage's remarkable low-friction properties are essential to joint function. In osteoarthritis (OA), cartilage degeneration (e.g. , proteoglycan loss and collagen damage) decreases tissue modulus and increases permeability. Although these changes impair lubrication in fully depressurized and slowly slid cartilage, new evidence suggests such relationships may not hold under biofidelic sliding conditions more representative of those encountered in vivo. Our recent studies using the convergent stationary contact area (cSCA) configuration demonstrate that articulation (i.e. , sliding) generates interfacial hydrodynamic pressures capable of replenishing cartilage interstitial fluid/pressure lost to compressive loading through a mechanism termed tribological rehydration. This fluid recovery sustains in vivo -like kinetic friction coefficients (µ k <0.02 in PBS and <0.005 in synovial fluid) with little sensitivity to mechanical properties in healthy tissue. However, the tribomechanical function of compromised cartilage under biofidelic sliding conditions remains unknown. Here, we investigated the effects of OA-like changes in cartilage mechanical properties, modeled via enzymatic digestion of mature bovine cartilage, on its tribomechanical function during cSCA sliding. We found no differences in sliding-driven tribological rehydration behaviors or µ k between naïve and digested cSCA cartilage (in PBS or synovial fluid). This suggests that OA-like cartilage retains sufficient functional properties to support naïve-like fluid recovery and lubrication under biofidelic sliding conditions. However, OA-like cartilage accumulated greater total tissue strains due to elevated strain accrual during initial load application. Together, these results suggest that elevated total tissue strains—as opposed to activity-mediated strains or friction-driven wear—might be the key biomechanical mediator of OA pathology in cartilage. Osteoarthritis (OA) decreases cartilage's modulus and increases its permeability. While these changes compromise frictional performance in benchtop testing under low fluid load support (FLS) conditions, whether such observations hold under sliding conditions that better represent the joints' dynamic FLS conditions in vivo is unclear. Here, we leveraged biofidelic benchtop sliding experiments—that is, those mimicking joints' native sliding environment—to examine how OA-like changes in mechanical properties effect cartilage's natural lubrication. We found no differences in sliding-mediated fluid recovery or kinetic friction behaviors between naïve and OA-like cartilage. However, OA-like cartilage experienced greater strain accumulation during load application, suggesting that elevated tissue strains (not friction-driven wear) may be the primary biomechanical mediator of OA pathology. [Display omitted] [ABSTRACT FROM AUTHOR]

Published
2024
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36. The efficacy and tolerability of proteoglycan F in the treatment of knee osteoarthritis: A prospective, randomized, double-blind controlled trial

Author

Huyen Thi Thanh Vu, Huong Thi Thu Nguyen, Thu Thi Hoai Nguyen, Thanh Xuan Nguyen, Tam Ngoc Nguyen, Anh Lan Nguyen, Luong Thi Hong Nguyen, Huyen Thi La, Hien Thi Thu Vu, Quyen Thi Tu Bui, Thu Nguyet Nghiem, Arunasiri Iddamalgoda, Kenichi Ito, Tatsuji Takahashi, Tuyen Danh Le, Thang Pham, and Anh Trung Nguyen

Subjects
Osteoarthritis, Knee, Proteoglycan, Effective, Diseases of the musculoskeletal system, RC925-935
Abstract

Objective: To identify the efficacy and tolerability of Proteoglycan F in patients with primary knee OA.Design: A 24-week randomized, placebo-controlled, double-blind clinical trial with two arms: (1) Proteoglycan F (received 10 ​mg proteoglycan daily, for 24 weeks) and (2) control group (received placebo). Knee symptoms and joint cartilage status (evaluated by ultrasound and MRI of knee joints), quality of life, serum cytokine levels (IL-1β and TNF-α), and safety evaluation were measured before, during, and after the treatment. Results: After 24-week treatment, pain reduction (in the KOOS pain score) of at least 20% and at least 50% (NRS scale) compared to baseline in the PGF group was significantly higher than those in the control group. The PGF group had greater reductions in the total scores of subchondral bone marrow edema, and bone cocoon under cartilage on knee MRI (classification according to WORMs), which were −2.27 (-4.0; −0.51) and −1.77 (-3.08; −0.46), respectively (p ​

Published
2024
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37. Biomimetic strategies for the deputization of proteoglycan functions

Author

Ibrahim F. Rehan, Asmaa Elnagar, František Zigo, Ahmed Sayed-Ahmed, and Shuhei Yamada

Subjects
proteoglycan, glycosaminoglycan, mimetic molecule, graft copolymer, therapeutic application, Biology (General), QH301-705.5
Abstract

Proteoglycans (PGs), which have glycosaminoglycan chains attached to their protein cores, are essential for maintaining the morphology and function of healthy body tissues. Extracellular PGs perform various functions, classified into the following four categories: i) the modulation of tissue mechanical properties; ii) the regulation and protection of the extracellular matrix; iii) protein sequestration; and iv) the regulation of cell signaling. The depletion of PGs may significantly impair tissue function, encompassing compromised mechanical characteristics and unregulated inflammatory responses. Since PGs play critical roles in the function of healthy tissues and their synthesis is complex, the development of PG mimetic molecules that recapitulate PG functions for tissue engineering and therapeutic applications has attracted the interest of researchers for more than 20 years. These approaches have ranged from semisynthetic graft copolymers to recombinant PG domains produced by cells that have undergone genetic modifications. This review discusses some essential extracellular PG functions and approaches to mimicking these functions.

Published
2024
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38. Proteoglycan Dysfunction: A Common Link Between Intervertebral Disc Degeneration and Skeletal Dysplasia

Author

Kimheak Sao and Makarand V. Risbud

Subjects
intervertebral disc degeneration, proteoglycan, skeletal dysplasia, nucleus pulposus, Neurology. Diseases of the nervous system, RC346-429
Abstract

Proteoglycans through their sulfated glycosaminoglycans regulate cell-matrix signaling during tissue development, regeneration, and degeneration processes. Large extracellular proteoglycans such as aggrecan, versican, and perlecan are especially important for the structural integrity of the intervertebral disc and cartilage during development. In these tissues, proteoglycans are responsible for hydration, joint flexibility, and the absorption of mechanical loads. Loss or reduction of these molecules can lead to disc degeneration and skeletal dysplasia, evident from loss of disc height or defects in skeletal development respectively. In this review, we discuss the common proteoglycans found in the disc and cartilage and elaborate on various murine models and skeletal dysplasias in humans to highlight how their absence and/or aberrant expression causes accelerated disc degeneration and developmental defects.

Published
2024
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39. Suppression of inflammatory macrophages reduces atherosclerosis.

Author

Majee, Srayasi and Banerjee, Anushka

Subjects
*MACROPHAGES, *ATHEROSCLEROSIS, *INFLAMMATION, *PROTEOGLYCANS, *TISSUES
Abstract

The article comments on the study "Suppression of Inflammatory Macrophages Reduces Atherosclerosis," by Srayasi Majee and Anushka Banerjee. Topics mentioned include the role of macrophages in atherosclerosis, antheroprotective role of human proteoglycan 4, some strategies to ameliorate atherosclerosis, and the development of macrophages in tissues.

Published
2024
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40. 静态拉伸对大鼠椎间盘髓核和纤维环的影响.

Author

莫 骏 and 罗宗平

Subjects
*NUCLEUS pulposus, *MATRIX metalloproteinase inhibitors, *MATRIX metalloproteinases, *EXTRACELLULAR matrix, *GENE expression, *INTERVERTEBRAL disk
Abstract

BACKGROUND: Traction is clinically used for the early treatment of intervertebral disc degeneration, but its effect on the normal intervertebral disc remains unknown. Whether it directly causes intervertebral disc degeneration or has a positive effect is the key point of this study. OBJECTIVE: To design a static traction model and observe the effect of static traction on the nucleus pulposus and annulus fibrosus of the intervertebral disc METHODS: Twenty Sprague-Dawley rats, 3 months of age, were included in the study. The intervertebral disc spaces between 7/8, 8/9 and 9/10 were stretched by 1 mm, and the intervertebral disc spaces between 6/7 and 10/11 were used as control. Five rats were randomly selected at 2, 4, 6, and 8 weeks of traction to perform MRI T2-weighted scans of the caudal vertebra, tissue section staining, and RT-PCR gene assays for anabolic metabolism to observe the effects of static traction on the nucleus pulposus and annulus fibrosus of the intervertebral disc. RESULTS AND CONCLUSION: After short-term static traction of the rat caudal vertebra, the T2-weighted image signal in the nucleus pulposus region was enhanced. During the traction period, nucleus pulposus cells grew well, the intercellular matrix was abundant, and the annulus fibrosus arranged regularly. The RT-PCR results showed that after traction, the mRNA expression of proteoglycan increased, the expression of matrix metalloproteinase-3 decreased, the expression of type I and II collagen decreased, and the expression of matrix metalloproteinase-13 increased and tissue inhibitor of matrix metalloproteinase 1 increased. These gene results also indicated that traction made proteoglycan more inclined to an anabolic state, and type I and II collagen more inclined to a catabolic state. To conclude, static traction promotes proteoglycan anabolism making the nucleus pulposus moist. [ABSTRACT FROM AUTHOR]

Published
2024
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41. Developmental patterns of extracellular matrix molecules in the embryonic and postnatal mouse hindbrain.

Author

Wéber, Ildikó, Dakos, Adél, Mészár, Zoltán, Matesz, Clara, and Birinyi, András

Subjects
EXTRACELLULAR matrix, RHOMBENCEPHALON, PERINEURONAL nets, CYTOCHEMISTRY, MOLECULES, IMMUNOGLOBULINS
Abstract

Normal brain development requires continuous communication between developing neurons and their environment filled by a complex network referred to as extracellular matrix (ECM). The ECM is divided into distinct families of molecules including hyaluronic acid, proteoglycans, glycoproteins such as tenascins, and link proteins. In this study, we characterize the temporal and spatial distribution of the extracellular matrix molecules in the embryonic and postnatal mouse hindbrain by using antibodies and lectin histochemistry. In the embryo, hyaluronan and neurocan were found in high amounts until the time of birth whereas versican and tenascin-R were detected in lower intensities during the whole embryonic period. After birth, both hyaluronic acid and neurocan still produced intense staining in almost all areas of the hindbrain, while tenascin-R labeling showed a continuous increase during postnatal development. The reaction with WFA and aggrecan was revealed first 4th postnatal day (P4) with low staining intensities, while HAPLN was detected two weeks after birth (P14). The perineuronal net appeared first around the facial and vestibular neurons at P4 with hyaluronic acid cytochemistry. One week after birth aggrecan, neurocan, tenascin-R, and WFA were also accumulated around the neurons located in several hindbrain nuclei, but HAPLN1 was detected on the second postnatal week. Our results provide further evidence that many extracellular macromolecules that will be incorporated into the perineuronal net are already expressed at embryonic and early postnatal stages of development to control differentiation, migration, and synaptogenesis of neurons. In late postnatal period, the experience-driven neuronal activity induces formation of perineuronal net to stabilize synaptic connections. [ABSTRACT FROM AUTHOR]

Published
2024
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42. Endothelial Glycocalyx Degradation Patterns in Sepsis-Associated Pediatric Acute Respiratory Distress Syndrome: A Single Center Retrospective Observational Study.

Author

Sallee, Colin J., Hippensteel, Joseph A., Miller, Kristen R., Oshima, Kaori, Pham, Andrew T., Richter, Robert P., Belperio, John, Sierra, Yamila L., Schwingshackl, Andreas, Mourani, Peter M., Schmidt, Eric P., Sapru, Anil, and Maddux, Aline B.

Subjects
*GLYCOCALYX, *SEPSIS, *RESPIRATORY distress syndrome, *LIQUID chromatography, *IMMUNOASSAY
Abstract

Background: Sepsis-associated destruction of the pulmonary microvascular endothelial glycocalyx (EGCX) creates a vulnerable endothelial surface, contributing to the development of acute respiratory distress syndrome (ARDS). Constituents of the EGCX shed into circulation, glycosaminoglycans and proteoglycans, may serve as biomarkers of endothelial dysfunction. We sought to define the patterns of plasma EGCX degradation products in children with sepsis-associated pediatric ARDS (PARDS), and test their association with clinical outcomes. Methods: We retrospectively analyzed a prospective cohort (2018-2020) of children (≥1 month to <18 years of age) receiving invasive mechanical ventilation for acute respiratory failure for ≥72 h. Children with and without sepsis-associated PARDS were selected from the parent cohort and compared. Blood was collected at time of enrollment. Plasma glycosaminoglycan disaccharide class (heparan sulfate, chondroitin sulfate, and hyaluronan) and sulfation subtypes (heparan sulfate and chondroitin sulfate) were quantified using liquid chromatography tandem mass spectrometry. Plasma proteoglycans (syndecan-1) were measured through an immunoassay. Results: Among the 39 mechanically ventilated children (29 with and 10 without sepsis-associated PARDS), sepsis-associated PARDS patients demonstrated higher levels of heparan sulfate (median 639 ng/mL [interquartile range, IQR 421-902] vs 311 [IQR 228-461]) and syndecan-1 (median 146 ng/mL [IQR 32-315] vs 8 [IQR 8-50]), both p = 0.01. Heparan sulfate subtype analysis demonstrated greater proportions of N -sulfated disaccharide levels among children with sepsis-associated PARDS (p = 0.01). Increasing N- sulfated disaccharide levels by quartile were associated with severe PARDS (n = 9/29) with the highest quartile including >60% of the severe PARDS patients (test for trend, p = 0.04). Higher total heparan sulfate and N- sulfated disaccharide levels were independently associated with fewer 28-day ventilator-free days in children with sepsis-associated PARDS (all p < 0.05). Conclusions: Children with sepsis-associated PARDS exhibited higher plasma levels of heparan sulfate disaccharides and syndecan-1, suggesting that EGCX degradation biomarkers may provide insights into endothelial dysfunction and PARDS pathobiology. [ABSTRACT FROM AUTHOR]

Published
2024
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43. Analysis of Extracellular ATP Distribution in the Intervertebral Disc.

Author

Yin, Xue, Vesvoranan, Oraya, Andreopoulos, Fotios, Dauer, Edward A., Gu, Weiyong, and Huang, C.-Y. Charles

Abstract

Progressive loss of proteoglycans (PGs) is the major biochemical change during intervertebral disc (IVD) degeneration. Adenosine triphosphate (ATP) as the primary energy source is not only critical for cell survival but also serves as a building block in PG synthesis. Extracellular ATP can mediate a variety of physiological functions and was shown to promote extracellular matrix (ECM) production in the IVD. Therefore, the objective of this study was to develop a 3D finite element model to predict extracellular ATP distribution in the IVD and evaluate the impact of degeneration on extracellular ATP distribution. A novel 3D finite element model of the IVD was developed by incorporating experimental measurements of ATP metabolism and ATP-PG binding kinetics into the mechano-electrochemical mixture theory. The new model was validated by experimental data of porcine IVD, and then used to analyze the extracellular distribution of ATP in human IVDs. Extracellular ATP was shown to bind specifically with PGs in IVD ECM. It was found that annulus fibrosus cells hydrolyze ATP faster than that of nucleus pulposus (NP) cells whereas NP cells exhibited a higher ATP release. The distribution of extracellular ATP in a porcine model was consistent with experimental data in our previous study. The predictions from a human IVD model showed a high accumulation of extracellular ATP in the NP region, whereas the extracellular ATP level was reduced with tissue degeneration. This study provides an understanding of extracellular ATP metabolism and its potential biological influences on the IVD via purinergic signaling. [ABSTRACT FROM AUTHOR]

Published
2024
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44. Identification of kinesin family member (KIF22) homozygous variants in spondyloepimetaphyseal dysplasia with joint laxity, lepdodactylic type and demonstration of proteoglycan biosynthesis impairment.

Author

Dubail, Johanne, Rondeau, Sophie, Michot, Caroline, Baujat, Geneviève, Capri, Yline, Thévenon, Julien, Charpie, Maelle, Pejin, Zagorka, Phan, Gilles, Huber, Céline, and Cormier-Daire, Valérie

Abstract

Heterozygous variants in KIF22 , encoding a kinesin-like protein, are responsible for spondyloepimetaphyseal dysplasia with joint laxity, leptodactilic type (lepto-SEMDJL), characterized by short stature, flat face, generalized joint laxity with multiple dislocations, and progressive scoliosis and limb deformity. By targeted gene sequencing analysis, we identified a homozygous KIF22 variant (NM_007317.3: c.146G>A, p.Arg49Gln) in 3 patients from 3 unrelated families. The clinical features appeared similar to those of patients carrying heterozygous KIF22 variant (c.443C>T or c.446G>A), although the spinal involvement appeared later and was less severe in patients with a recessive variant. Relatives harboring the c.146G>A variant at the heterozygous state were asymptomatic. The homozygous KIF22 variant c.146G>A affected a conserved residue located in the active site and potentially destabilized ATP binding. RT-PCR and western blot analyses demonstrated that both dominant and recessive KIF22 variants do not affect KIF22 mRNA and protein expression in patient fibroblasts compared to controls. As lepto-SEMDJL presents phenotypic overlap with chondrodysplasias with multiple dislocations (CMD), related to defective proteoglycan biosynthesis, we analyzed proteoglycan synthesis in patient skin fibroblasts. Compared to controls, DMMB assay showed a significant decrease of total sulfated proteoglycan content in culture medium but not in the cell layer, and immunofluorescence demonstrated a strong reduction of staining for chondroitin sulfates but not for heparan sulfates, similarly in patients with recessive or dominant KIF22 variants. These data identify a new recessive KIF22 pathogenic variant and link for the first time KIF22 pathogenic variants to altered proteoglycan biosynthesis and place the lepto-SEMDJL in the CMD spectrum. [ABSTRACT FROM AUTHOR]

Published
2024
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45. Differential Proteoglycan Expression in Atherosclerosis Alters Platelet Adhesion and Activation.

Author

Drysdale, Amelia, Blanco-Lopez, Maria, White, Stephen J., Unsworth, Amanda J., and Jones, Sarah

Subjects
*BLOOD platelet activation, *BLOOD platelet aggregation, *ATHEROSCLEROTIC plaque, *ATHEROSCLEROSIS, *EXTRACELLULAR matrix, *CHONDROITIN sulfate proteoglycan, *THROMBOSIS, *ASPIRIN
Abstract

Proteoglycans are differentially expressed in different atherosclerotic plaque phenotypes, with biglycan and decorin characteristic of ruptured plaques and versican and hyaluronan more prominent in eroded plaques. Following plaque disruption, the exposure of extracellular matrix (ECM) proteins triggers platelet adhesion and thrombus formation. In this study, the impact of differential plaque composition on platelet function and thrombus formation was investigated. Platelet adhesion, activation and thrombus formation under different shear stress conditions were assessed in response to individual proteoglycans and composites representing different plaque phenotypes. The results demonstrated that all the proteoglycans tested mediated platelet adhesion but not platelet activation, and the extent of adhesion observed was significantly lower than that observed with type I and type III collagens. Thrombus formation upon the rupture and erosion ECM composites was significantly reduced (p < 0.05) compared to relevant collagen alone, indicating that proteoglycans negatively regulate platelet collagen responses. This was supported by results demonstrating that the addition of soluble biglycan or decorin to whole blood markedly reduced thrombus formation on type I collagen (p < 0.05). Interestingly, thrombus formation upon the erosion composite displayed aspirin sensitivity, whereas the rupture composite was intensive to aspirin, having implications for current antiplatelet therapy regimes. In conclusion, differential platelet responses and antiplatelet efficacy are observed on ECM composites phenotypic of plaque rupture and erosion. Proteoglycans inhibit thrombus formation and may offer a novel plaque-specific approach to limit arterial thrombosis. [ABSTRACT FROM AUTHOR]

Published
2024
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46. Salmon nasal cartilage proteoglycan stimulates hair growth.

Author

Akio Nakane, Shouhei Hirose, Noriaki Kawai, Naoki Fujimoto, Eriko Kondo, and Krisana Asano

Subjects
*ENDOTHELIAL growth factors, *CARTILAGE, *INSULIN receptors, *SALMON, *BALDNESS, *GLYCANS, *FACTORS of production, *HAIR growth, *OVARIAN follicle
Abstract

Hair loss is a commonly encountered problem. In this study, hair growth was enhanced by daily oral ingestion of salmon nasal cartilage proteoglycan (PG) in mice. Proteoglycan stimulated vesicular endothelial growth factor production in human follicle dermal papilla cells through insulin growth factor-1 receptor signaling, suggesting the possibility of hair loss improvement by PG ingestion. [ABSTRACT FROM AUTHOR]

Published
2024
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47. Mutable Collagenous Tissue: A Concept Generator for Biomimetic Materials and Devices.

Author

Candia Carnevali, M. Daniela, Sugni, Michela, Bonasoro, Francesco, and Wilkie, Iain C.

Abstract

Echinoderms (starfish, sea-urchins and their close relations) possess a unique type of collagenous tissue that is innervated by the motor nervous system and whose mechanical properties, such as tensile strength and elastic stiffness, can be altered in a time frame of seconds. Intensive research on echinoderm 'mutable collagenous tissue' (MCT) began over 50 years ago, and over 20 years ago, MCT first inspired a biomimetic design. MCT, and sea-cucumber dermis in particular, is now a major source of ideas for the development of new mechanically adaptable materials and devices with applications in diverse areas including biomedical science, chemical engineering and robotics. In this review, after an up-to-date account of present knowledge of the structural, physiological and molecular adaptations of MCT and the mechanisms responsible for its variable tensile properties, we focus on MCT as a concept generator surveying biomimetic systems inspired by MCT biology, showing that these include both bio-derived developments (same function, analogous operating principles) and technology-derived developments (same function, different operating principles), and suggest a strategy for the further exploitation of this promising biological resource. [ABSTRACT FROM AUTHOR]

Published
2024
Full Text
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