Your search keyword '"glycosaminoglycans"' showing total 41,298 results

1. Enzymatic Modulation of the Pulmonary Glycocalyx Enhances Susceptibility to Streptococcus pneumoniae.

Author

Goekeri, Cengiz, Linke, Kerstin A. K., Hoffmann, Karen, Lopez-Rodriguez, Elena, Gluhovic, Vladimir, Voß, Anne, Kunder, Sandra, Zappe, Andreas, Timm, Sara, Nettesheim, Alina, Schickinger, Sebastian M. K., Zobel, Christian M., Pagel, Kevin, Gruber, Achim D., Ochs, Matthias, Witzenrath, Martin, and Nouailles, Geraldine

Abstract

The pulmonary epithelial glycocalyx is rich in glycosaminoglycans such as hyaluronan and heparan sulfate. Despite their presence, the importance of these glycosaminoglycans in bacterial lung infections remains elusive. To address this, we intranasally inoculated mice with Streptococcus pneumoniae in the presence or absence of enzymes targeting pulmonary hyaluronan and heparan sulfate, followed by characterization of subsequent disease pathology, pulmonary inflammation, and lung barrier dysfunction. Enzymatic degradation of hyaluronan and heparan sulfate exacerbated pneumonia in mice, as evidenced by increased disease scores and alveolar neutrophil recruitment. However, targeting epithelial hyaluronan in combination with S. pneumoniae infection further exacerbated systemic disease, indicated by elevated splenic bacterial load and plasma concentrations of proinflammatory cytokines. In contrast, enzymatic cleavage of heparan sulfate resulted in increased bronchoalveolar bacterial burden, lung damage, and pulmonary inflammation in mice infected with S. pneumoniae. Accordingly, heparinase-treated mice also exhibited disrupted lung barrier integrity as evidenced by higher alveolar edema scores and vascular protein leakage into the airways. This finding was corroborated in a human alveolus-on-a-chip platform, confirming that heparinase treatment also disrupts the human lung barrier during S. pneumoniae infection. Notably, enzymatic pretreatment with either hyaluronidase or heparinase also rendered human epithelial cells more sensitive to pneumococci-induced barrier disruption, as determined by transepithelial electrical resistance measurements, consistent with our findings in murine pneumonia. Taken together, these findings demonstrate the importance of intact hyaluronan and heparan sulfate in limiting pneumococci-induced damage, pulmonary inflammation, and epithelial barrier function and integrity. [ABSTRACT FROM AUTHOR]

Published

2024

2. Novel simultaneous analysis of 18 types of glycosaminoglycan-derived disaccharides using 4-aminobenzoic acid ethyl ester derivatization by HPLC with fluorescence detection.

Author

Ishii, Takamasa, Hirai, Kengo, Higashi, Kyohei, Aijima, Ayaka, Yokota, Nae, Toida, Toshihiko, Iwasaki, Yusuke, Ito, Rie, Higashi, Nobuaki, and Akiyama, Hiroshi

Subjects

*HEPARAN sulfate, *DISACCHARIDES, *ETHYL esters, *HYALURONIC acid, *HIGH performance liquid chromatography, *GLYCOSAMINOGLYCANS, *CHONDROITIN sulfates

Abstract

Glycosaminoglycans (GAGs), including hyaluronic acid (HA), chondroitin sulfate (CS)/dermatan sulfate (DS), heparan sulfate (HS)/heparin (HP), and keratan sulfate (KS), play pivotal roles in living organisms. Generally, GAGs are analyzed after enzymatic digestion into unsaturated or saturated disaccharides. Due to high structural similarity between disaccharides, however, separation during analysis is challenging. Additionally, little is known about the structures of GAGs and their functional relationships. Elucidating the function of GAGs requires highly sensitive quantitative analytical methods. We developed a method for the simultaneous analysis of 18 types of disaccharides derived from HA (1 type), CS/DS (7 types), HS/HP (8 types), and KS (2 types) potentially detectable in analyses of human urine. The simple method involves HPLC separation with fluorescence detection following derivatization of GAG-derived disaccharides using 4-aminobenzoic acid ethyl ester (ABEE) as a pre-labeling agent and 2-picoline borane as a reductant. The ABEE derivatization reaction can be performed under aqueous conditions, and excess derivatization reagents can be easily, rapidly, and safely removed. This method enables highly sensitive simultaneous analysis of the 18 abovementioned types of GAG-derived disaccharides using HPLC with fluorescence detection in small amounts of urine (1 mL) in a single run. The versatile method described here could be applied to the analysis of GAGs in other biological samples. [ABSTRACT FROM AUTHOR]

Published

2024

3. Alterations in Hurler–Scheie Syndrome Revealed by Mass Spectrometry-Based Proteomics and Phosphoproteomics Analysis.

Author

Ramarajan, Madan Gopal, Parthasarathy, K.T. Shreya, Gaikwad, Kiran Bharat, Joshi, Neha, Garapati, Kishore, Kandasamy, Richard K., Sharma, Jyoti, and Pandey, Akhilesh

Subjects

*MYOSIN light chain kinase, *PROTEIN kinases, *CATHEPSIN D, *SPINDLE apparatus, *ENZYME deficiency, *GLYCOSAMINOGLYCANS

Abstract

Hurler–Scheie syndrome (MPS IH/S), also known as mucopolysaccharidosis type I-H/S (MPS IH/S), is a lysosomal storage disorder caused by deficiency of the enzyme alpha-L-iduronidase (IDUA) leading to the accumulation of glycosaminoglycans (GAGs) in various tissues, resulting in a wide range of symptoms affecting different organ systems. Postgenomic omics technologies offer the promise to understand the changes in proteome, phosphoproteome, and phosphorylation-based signaling in MPS IH/S. Accordingly, we report here a large dataset and the proteomic and phosphoproteomic analyses of fibroblasts derived from patients with MPS IH/S (n = 8) and healthy individuals (n = 8). We found that protein levels of key lysosomal enzymes such as cathepsin D, prosaposin, arylsulfatases (arylsulfatase A and arylsulfatase B), and IDUA were downregulated. We identified 16,693 unique phosphopeptides, corresponding to 4,605 proteins, in patients with MPS IH/S. We found that proteins related to the cell cycle, mitotic spindle assembly, apoptosis, and cytoskeletal organization were differentially phosphorylated in MPS IH/S. We identified 12 kinases that were differentially phosphorylated, including hyperphosphorylation of cyclin-dependent kinases 1 and 2, hypophosphorylation of myosin light chain kinase, and calcium/calmodulin-dependent protein kinases. Taken together, the findings of the present study indicate significant alterations in proteins involved in cytoskeletal changes, cellular dysfunction, and apoptosis. These new observations significantly contribute to the current understanding of the pathophysiology of MPS IH/S specifically, and the molecular mechanisms involved in the storage of GAGs in MPS more generally. Further translational clinical omics studies are called for to pave the way for diagnostics and therapeutics innovation for patients with MPS IH/S. [ABSTRACT FROM AUTHOR]

Published

2024

4. Prevalence and natural history of gibbus deformity in patients with Hurler syndrome.

Author

Huang, Shiwei, Lund, Troy, Orchard, Paul, Gupta, Ashish, and Nascene, David

Subjects

*RISK assessment, *MAGNETIC resonance imaging, *DISEASE prevalence, *RETROSPECTIVE studies, *MUCOPOLYSACCHARIDOSIS I, *CERVICAL vertebrae, *SPINE diseases, *COMORBIDITY, *DISEASE progression, *DISEASE incidence, *GLYCOSAMINOGLYCANS, *THORACIC vertebrae, *DISEASE risk factors, *DISEASE complications

Abstract

Introduction: Gibbus deformity has been documented as a common musculoskeletal abnormality in mucopolysaccharidosis type I (Hurler syndrome, MPS IH), and its recognition often leads to the diagnosis of MPS IH. While the incidence has been described, the progression of gibbus deformities is not well known. Here we describe the natural history of gibbus deformity in a single center patient population using serial spinal MRI scans. Methods: All spinal MRI scans in MPS IH patients were retrospectively reviewed. The presence, spinal location, and angulation of the gibbus deformities were collected. The angles between the superior endplate of the superior normal vertebral body and the inferior endplate of the inferior normal vertebral body were measured. Results: 24 of 47 patients (51%) were found to have cervico-thoracic deformity on their cervical MRI scans, and 19 of those 24 (79%) patients were found to have progressive cervico-thoracic deformity with average change of angle of 17.1 degrees [range 3.9, 62.8] over 5.3 years. 7 of 8 patients who had thoraco-lumbar MRI were found to have thoraco-lumbar deformity, and 4 of those 7 patients (57%) were found to have progressive thoraco-lumbar deformity with the average increase angle of 16.7 degrees [range 3.3, 47.1] over an average of 4.1 years. Conclusion: We found out that baseline spinal measurement cannot reliably predict the progression as multiple patients with normal alignment eventually developed severe deformity, whereases patients with severe deformity did not progress to require surgical intervention. [ABSTRACT FROM AUTHOR]

Published

2024

5. Effects of age, elastin density, and glycosaminoglycan accumulation on the delamination strength of human thoracic and abdominal aortas.

Author

Shahbad, Ramin, Kamenskiy, Alexey, Razian, Sayed Ahmadreza, Jadidi, Majid, and Desyatova, Anastasia

Subjects

AORTIC dissection, OLDER people, ABDOMINAL aorta, ELASTIN, SMOOTH muscle

Abstract

Aortic dissection is a life-threatening condition caused by layer separation. Despite extensive research, the relationship between the aortic wall's structural integrity and dissection risk remains unclear. Glycosaminoglycan (GAG) accumulation and elastin loss are suspected to play significant roles. We investigated how age-related changes in aortic structure affect dissection susceptibility. Peeling tests were performed on longitudinal and circumferential thoracic (TA) and abdominal aortic (AA) strips from 35 donors aged 13–76 years (mean 38 ± 15 years, 34 % female). GAG, elastin, collagen, and smooth muscle cell (SMC) contents were assessed using bidirectional histology. Young TAs resisted longitudinal peeling better than circumferential, with delamination strengths of 65.4 mN/mm and 44.2 mN/mm, respectively. Delamination strength decreased with age in both directions, more rapidly longitudinally, equalizing at ∼20–25 mN/mm in older TAs. Delamination strength in AAs was 22 % higher than in TAs. No sex differences were observed. GAG density increased, while elastin density decreased by 2.5 % and 4 % per decade, respectively. Collagen density did not change with age, while SMC density decreased circumferentially. GAGs partially mediated the reduction in longitudinal delamination strength due to aging, while circumferential strength reduction was not mediated by changes in either GAG or elastin densities. This study explains why aortic dissections are more common in TAs, especially in older individuals, and why they typically propagate spirally. TAs exhibit lower delamination strength compared to AAs and experience strength reduction with age, a phenomenon linked to increased GAG accumulation and elastin loss. These findings enhance our understanding of the pathophysiological mechanisms behind aortic dissection. This work explores the age-dependent relationships between delamination strength in human aortas and wall structural content. We investigated 35 human aortas from donors aged 13 to 76 years, providing new insights into the biomechanical and histological factors that influence aortic dissection risk. Our findings elucidate how variations in elastin, glycosaminoglycan, collagen, and smooth muscle cell densities impact the structural integrity of the aorta, contributing significantly to the understanding of aortic dissection mechanisms. [Display omitted] [ABSTRACT FROM AUTHOR]

Published

2024

6. Elevated fluid and glycosaminoglycan content in the Achilles tendon contribute to higher intratendinous pressures: Implications for Achilles tendinopathy.

Author

Pringels, Lauren, Van Valckenborgh, Gert-Jan, Segers, Patrick, Chevalier, Amélie, Stepman, Hedwig, Wezenbeek, Evi, Burssens, Arne, and Vanden Bossche, Luc

Subjects

GLYCOSAMINOGLYCANS, ACHILLES tendon, ACHILLES tendinitis

Abstract

• Intratendinous pressure of the Achilles tendon increases during tensile loading. It is unknown whether tendinopathic changes, namely fluid and glycosaminoglycan accumulation, may impact this. • Intratendinous pressure of 20 Achilles tendons was measured at rest and during loading under natural conditions and after administration of fluid and glycosaminoglycans. Additionally, half of the tendons were treated with hyaluronidase. • Elevated fluid and glycosaminoglycan content resulted in higher intratendinous pressures. Hyaluronidase reduced glycosaminoglycan content and lowered intratendinous pressures. • These findings show that fluid and glycosaminoglycan accumulation lead to increased intratendinous pressures and that hyaluronidase may serve as a potential treatment by restoring intratendinous pressures. Tendinopathy alters the compositional properties of the Achilles tendon by increasing fluid and glycosaminoglycan content. It has been speculated that these changes may affect intratendinous pressure, but the extent of this relationship remains unclear. Therefore, we aimed to investigate the impact of elevated fluid and glycosaminoglycan content on Achilles tendon intratendinous pressure and to determine whether hyaluronidase (HYAL) therapy can intervene in this potential relationship. Twenty paired fresh-frozen cadaveric Achilles tendons were mounted in a tensile-testing machine and loaded up to 5% strain. Intratendinous resting (at 0% strain) and dynamic pressure (at 5% strain) were assessed using the microcapillary infusion technique. First, intratendinous pressure was measured under native conditions before and after infusion of 2 mL physiological saline. Next, 80 mg of glycosaminoglycans were administered bilaterally to the paired tendons. The right tendons were additionally treated with 1500 units of HYAL. Finally, both groups were retested, and the glycosaminoglycan content was analyzed. It was found that both elevated fluid and glycosaminoglycan content resulted in higher intratendinous resting and dynamic pressures (p < 0.001). HYAL treatment induced a 2.3-fold reduction in glycosaminoglycan content (p = 0.002) and restored intratendinous pressures. The results of this study demonstrated that elevated fluid and glycosaminoglycan content in Achilles tendinopathy contribute to increased intratendinous resting and dynamic pressures, which can be explained by the associated increased volume and reduced permeability of the tendon matrix, respectively. HYAL degrades glycosaminoglycans sufficiently to lower intratendinous pressures and may, therefore, serve as a promising treatment. [Display omitted] [ABSTRACT FROM AUTHOR]

Published

2024

7. Hyaluronic acid/chitin thermosensitive hydrogel loaded with TGF-β1 promotes meniscus repair in rabbit meniscus full-thickness tear model.

Author

Wang, Ze, Huang, Wei, Jin, Shengyang, Gao, Fei, Sun, Tingfang, He, Yu, Jiang, Xulin, and Wang, Hong

Subjects

*MENISCUS injuries, *BIOLOGICAL models, *WOUND healing, *MENISCUS (Anatomy), *RESEARCH funding, *HYALURONIC acid, *TISSUE engineering, *CELL proliferation, *PHARMACEUTICAL gels, *CELL motility, *DESCRIPTIVE statistics, *IN vivo studies, *ANIMAL experimentation, *EXTRACELLULAR matrix, *TEMPERATURE, *TRANSFORMING growth factors-beta, *RABBITS, *GLYCOSAMINOGLYCANS

Abstract

Repair of the damaged meniscus is a scientific challenge owing to the poor self-healing potential of the white area of the meniscus. Tissue engineering provides a new method for the repair of meniscus injuries. In this study, we explored the superiority of 2% hyaluronic acid chitin hydrogel in temperature sensitivity, in vitro degradation, biocompatibility, cell adhesion, and other biological characteristics, and investigated the advantages of hyaluronic acid (HA) and Transforming Growth Factor β1 (TGF-β1) in promoting cell proliferation and a matrix formation phenotype. The hydrogel loaded with HA and TGF-β1 promoted cell proliferation. The HA + TGF-β1 mixed group showed the highest glycosaminoglycan (GAG) content and promoted cell migration. Hydroxypropyl chitin (HPCH), HA, and TGF-β1 were combined to form a composite hydrogel with a concentration of 2% after physical cross-linking, and this was injected into a rabbit model of a meniscus full-thickness tear. After 12 weeks of implantation, the TGF-β1 + HA/HPCH composite hydrogel was significantly better than HPCH, HA/HPCH, TGF-β1 + HPCH, and the control group in promoting meniscus repair. In addition, the new meniscus tissue of the TGF-β1 + HA/HPCH composite hydrogel had a tissue structure and biochemical content similar to that of the normal meniscus tissue. [ABSTRACT FROM AUTHOR]

Published

2024

8. Early structural valve deterioration following transcatheter aortic valve implantation in a patient with Scheie syndrome: a case report.

Author

Yanagino, Yusuke, Kainuma, Satoshi, Toda, Koichi, Kawamura, Ai, Kawamura, Takuji, Yoshioka, Daisuke, Taira, Masaki, Shimamura, Kazuo, and Miyagawa, Shigeru

Subjects

*HEART valve prosthesis implantation, *CORONARY artery bypass, *ARTIFICIAL blood circulation, *MITRAL stenosis, *BIOPROSTHETIC heart valves, *HEART failure

Abstract

Background: Scheie syndrome, an attenuated subtype of mucopolysaccharidosis type I, is a rare storage disease that causes progressive glycosaminoglycans (GAGs) accumulation. Cardiovascular disorders determine the prognosis, and cardiac valve abnormalities are the most common cause. The patients are usually young so mechanical valve replacement is often performed, but because of the features of this disease, the surgical treatment is very risky. Recently, transcatheter aortic valve implantation (TAVI) has been reported as an alternative choice for aortic stenosis, but optimal choice is still unclear. Here, we introduce a patient that underwent TAVI and refer to the histological finding of a biological valve extracted in relation to GAGs accumulation. Case presentation: A 54-year-old woman with Scheie syndrome underwent valve surgeries three times throughout her whole life. At age 41, she received a mitral valve replacement with a mechanical valve for mitral stenosis. She promptly developed severe diastolic dysfunction and low output syndrome after the release of aortic clamping, thus requiring temporary mechanical circulatory support4. At age 51, she suffered from heart failure due to severe aortic stenosis and underwent TAVI because conventional aortic valve replacement (AVR) was deemed too risky. Three years later, her heart failure relapsed, and an echocardiogram unexpectedly revealed thickened bioprosthetic valve leaflets and a significant pressure gradient across the valve, consistent with early structural valve deterioration. AVR was performed via median sternotomy with a mechanical valve. As with the first operation, she presented refractory heart failure requiring mechanical circulatory support and was meticulously managed. However, she steadily showed worsening of multiple organ systems and died 9 days after the operation. Pathological autopsy and histological examination revealed accumulation of tissue with GAGs on the leaflets of the bioprosthetic valve of TAVI, which may have been the cause of early structural valve deterioration. Conclusion: For patients with Scheie syndrome, a biological valve can be compromised by the accumulation of GAGs, thereby causing early SVD. These findings may support valve selection for these high-risk patients. [ABSTRACT FROM AUTHOR]

Published

2024

9. Preparation and characterization of bovine dental pulp-derived extracellular matrix hydrogel for regenerative endodontic applications: an in vitro study.

Author

Elnawam, Hisham, Thabet, Abdelrahman, Mobarak, Ahmed, Abdallah, Amr, and Elbackly, Rania

Subjects

ENDODONTICS, IN vitro studies, POLYMERS, MOLARS, MEDICAL protocols, PROTEINS, VASCULAR endothelial growth factors, DENTAL pulp, RESEARCH funding, T-test (Statistics), DATA analysis, CATTLE, TRYPSIN, ETHYLENEDIAMINETETRAACETIC acid, HYALURONIC acid, ENZYME-linked immunosorbent assay, DNA, MANN Whitney U Test, DESCRIPTIVE statistics, BONE morphogenetic proteins, HYDROCOLLOID surgical dressings, TISSUE scaffolds, ANIMAL experimentation, HISTOLOGICAL techniques, FIBROBLAST growth factors, ANALYSIS of variance, FRIEDMAN test (Statistics), STATISTICS, EXTRACELLULAR matrix, COLLAGEN, DATA analysis software, GLYCOSAMINOGLYCANS, TRANSFORMING growth factors-beta

Abstract

Background: The use of biological scaffolds in regenerative endodontics has gained much attention in recent years. The search for a new biomimetic scaffold that contains tissue-specific cell homing factors could lead to more predictable tissue regeneration. The aim of this study was to prepare and characterize decellularized bovine dental pulp-derived extracellular matrix (P-ECM) hydrogels for regenerative endodontic applications. Methods: Freshly extracted bovine molar teeth were collected. Bovine dental pulp tissues were harvested, and stored at -40º C. For decellularization, a 5-day protocol was implemented incorporating trypsin/EDTA, deionized water and DNase treatment. Decellularization was evaluated by DNA quantification and histological examination to assess collagen and glycosaminoglycans (GAGs) content. This was followed by the preparation of P-ECM hydrogel alone or combined with hyaluronic acid gel (P-ECM + HA). The fabricated scaffolds were then characterized using protein quantification, hydrogel topology and porosity, biodegradability, and growth factor content using Enzyme-linked immunosorbent assay (ELISA): transforming growth factor beta-1(TGF-β1), basic fibroblast growth factor (bFGF), bone morphogenetic protein 2 (BMP-2) and vascular endothelial growth factor (VEGF). Results: Decellularization was histologically confirmed, and DNA content was below (50 ng/mg tissue). P-ECM hydrogel was prepared with a final ECM concentration of 3.00 mg/ml while P-ECM + HA hydrogel was prepared with a final ECM concentration of 1.5 mg/ml. Total protein content in P-ECM hydrogel was found to be (439.0 ± 123.4 µg/µl). P-ECM + HA showed sustained protein release while the P-ECM group showed gradual decreasing release. Degradation was higher in P-ECM + HA which had a significantly larger fiber diameter, while P-ECM had a larger pore area percentage. ELISA confirmed the retention and release of growth factors where P-ECM hydrogel had higher BMP-2 release, while P-ECM + HA had higher release of TGF-β1, bFGF, and VEGF. Conclusions: Both P-ECM and P-ECM + HA retained their bioactive properties demonstrating a potential role as functionalized scaffolds for regenerative endodontic procedures. [ABSTRACT FROM AUTHOR]

Published

2024

10. Cardiac Molecular Analysis Reveals Aging‐Associated Metabolic Alterations Promoting Glycosaminoglycans Accumulation via Hexosamine Biosynthetic Pathway.

Author

Grilo, Luís F., Zimmerman, Kip D., Puppala, Sobha, Chan, Jeannie, Huber, Hillary F., Li, Ge, Jadhav, Avinash Y. L., Wang, Benlian, Li, Cun, Clarke, Geoffrey D., Register, Thomas C., Oliveira, Paulo J., Nathanielsz, Peter W., Olivier, Michael, Pereira, Susana P., and Cox, Laura A.

Subjects

*KREBS cycle, *CARDIAC hypertrophy, *HEART metabolism, *DISEASE risk factors, *AGE, *GLYCOSAMINOGLYCANS

Abstract

Age is a prominent risk factor for cardiometabolic disease, often leading to heart structural and functional changes. However, precise molecular mechanisms underlying cardiac remodeling and dysfunction exclusively resulting from physiological aging remain elusive. Previous research demonstrated age‐related functional alterations in baboons, analogous to humans. The goal of this study is to identify early cardiac molecular alterations preceding functional adaptations, shedding light on the regulation of age‐associated changes. Unbiased transcriptomics of left ventricle samples are performed from female baboons aged 7.5–22.1 years (human equivalent ≈30–88 years). Weighted‐gene correlation network and pathway enrichment analyses are performed, with histological validation. Modules of transcripts negatively correlated with age implicated declined metabolism‐oxidative phosphorylation, tricarboxylic acid cycle, glycolysis, and fatty‐acid β‐oxidation. Transcripts positively correlated with age suggested a metabolic shift toward glucose‐dependent anabolic pathways, including hexosamine biosynthetic pathway (HBP). This shift is associated with increased glycosaminoglycan synthesis, modification, precursor synthesis via HBP, and extracellular matrix accumulation, verified histologically. Upregulated extracellular matrix‐induced signaling coincided with glycosaminoglycan accumulation, followed by cardiac hypertrophy‐related pathways. Overall, these findings revealed a transcriptional shift in metabolism favoring glycosaminoglycan accumulation through HBP before cardiac hypertrophy. Unveiling this metabolic shift provides potential targets for age‐related cardiac diseases, offering novel insights into early age‐related mechanisms. [ABSTRACT FROM AUTHOR]

Published

2024

11. Senolytic therapy combining Dasatinib and Quercetin restores the chondrogenic phenotype of human osteoarthritic chondrocytes by the release of pro‐anabolic mediators.

Author

Maurer, Svenja, Kirsch, Valeria, Ruths, Leonie, Brenner, Rolf E., and Riegger, Jana

Subjects

*GROWTH factors, *GENE expression, *HUMAN phenotype, *DASATINIB, *QUERCETIN, *GLYCOSAMINOGLYCANS

Abstract

Cellular senescence is associated with various age‐related disorders and is assumed to play a major role in the pathogenesis of osteoarthritis (OA). Based on this, we tested a senolytic combination therapy using Dasatinib (D) and Quercetin (Q) on aged isolated human articular chondrocytes (hACs), as well as in OA‐affected cartilage tissue (OARSI grade 1–2). Stimulation with D + Q selectively eliminated senescent cells in both, cartilage explants and isolated hAC. Furthermore, the therapy significantly promoted chondroanabolism, as demonstrated by increased gene expression levels of COL2A1, ACAN, and SOX9, as well as elevated collagen type II and glycosaminoglycan biosynthesis. Additionally, D + Q treatment significantly reduced the release of SASP factors (IL6, CXCL1). RNA sequencing analysis revealed an upregulation of the anabolic factors, inter alia, FGF18, IGF1, and TGFB2, as well as inhibitory effects on cytokines and the YAP‐1 signaling pathway, explaining the underlying mechanism of the chondroanabolic promotion upon senolytic treatment. Accordingly, stimulation of untreated hAC with conditioned medium of D + Q‐treated cells similarly induced the expression of chondrogenic markers. Detailed analyses demonstrated that chondroanabolic effects could be mainly attributed to Dasatinib, while monotherapeutical application of Quercetin or Navitoclax did not promote the chondroanabolism. Overall, D + Q therapy restored the chondrogenic phenotype in OA hAC most likely by creating a pro‐chondroanabolic environment through the reduction of SASP factors and upregulation of growth factors. This senolytic approach could therefore be a promising candidate for further testing as a disease‐modifying osteoarthritis drug. [ABSTRACT FROM AUTHOR]

Published

2024

12. The diagnosis and management of mucopolysaccharidosis type II.

Author

Mao, Shao-Jia, Chen, Qing-Qing, Dai, Yang-Li, Dong, Guan-Ping, and Zou, Chao-Chun

Subjects

*THERAPEUTIC use of enzymes, *HEMATOPOIETIC stem cell transplantation, *GENE therapy, *RESPIRATORY infections, *CELL physiology, *ENZYMES, *DIAGNOSTIC errors, *ESTERASES, *X-linked genetic disorders, *MUCOPOLYSACCHARIDOSIS II, *GLYCOSAMINOGLYCANS, *GENETIC testing

Abstract

Mucopolysaccharidosis type II (MPS II) is a rare X-linked recessive inherited lysosomal storage disease. With pathogenic variants of the IDS gene, the activity of iduronate-2-sulfatase (IDS) is reduced or lost, causing the inability to degrade glycosaminoglycans (GAGs) in cells and influencing cell function, eventually resulting in multisystemic manifestations, such as a coarse face, dysostosis multiplex, recurrent respiratory tract infections, and hernias. Diagnosing MPS II requires a combination of clinical manifestations, imaging examinations, urinary GAGs screening, enzyme activity, and genetic testing. Currently, symptomatic treatment is the main therapeutic approach. Owing to economic and drug availability issues, only a minority of patients opt for enzyme replacement therapy or hematopoietic stem cell transplantation. The limited awareness of the disease, the lack of widespread detection technology, and uneven economic development contribute to the high rates of misdiagnosis and missed diagnosis in China. [ABSTRACT FROM AUTHOR]

Published

2024

13. Diseased Tendon Models Demonstrate Influence of Extracellular Matrix Alterations on Extracellular Vesicle Profile.

Author

Shama, Kariman A., Greenberg, Zachary Franklin, Tammame, Chadine, He, Mei, and Taylor, Brittany L.

Subjects

*EXTRACELLULAR vesicles, *TENDONS, *EXTRACELLULAR matrix, *TENDINOPATHY, *BIOMIMICRY, *POLYCAPROLACTONE, *GLYCOSAMINOGLYCANS

Abstract

Tendons enable movement through their highly aligned extracellular matrix (ECM), predominantly composed of collagen I. Tendinopathies disrupt the structural integrity of tendons by causing fragmentation of collagen fibers, disorganization of fiber bundles, and an increase in glycosaminoglycans and microvasculature, thereby driving the apparent biomechanical and regenerative capacity in patients. Moreover, the complex cellular communication within the tendon microenvironment ultimately dictates the fate between healthy and diseased tendon, wherein extracellular vesicles (EVs) may facilitate the tendon's fate by transporting biomolecules within the tissue. In this study, we aimed to elucidate how the EV functionality is altered in the context of tendon microenvironments by using polycaprolactone (PCL) electrospun scaffolds mimicking healthy and pathological tendon matrices. Scaffolds were characterized for fiber alignment, mechanical properties, and cellular activity. EVs were isolated and analyzed for concentration, heterogeneity, and protein content. Our results show that our mimicked healthy tendon led to an increase in EV secretion and baseline metabolic activity over the mimicked diseased tendon, where reduced EV secretion and a significant increase in metabolic activity over 5 days were observed. These findings suggest that scaffold mechanics may influence EV functionality, offering insights into tendon homeostasis. Future research should further investigate how EV cargo affects the tendon's microenvironment. [ABSTRACT FROM AUTHOR]

Published

2024

14. Deciphering the Role of Proteoglycans and Glycosaminoglycans in Health and Disease.

Author

Debruin, Danielle, McRae, Natasha L., Addinsall, Alex B., McCulloch, Daniel R., Barker, Robert G., Debrincat, Didier, Hayes, Alan, Murphy, Robyn M., and Stupka, Nicole

Subjects

*DUCHENNE muscular dystrophy, *RESPIRATORY muscles, *EXTRACELLULAR matrix, *GLYCOSAMINOGLYCANS, *PROTEOGLYCANS, *SOLEUS muscle, *HINDLIMB

Abstract

Versican is increased with inflammation and fibrosis, and is upregulated in Duchenne muscular dystrophy. In fibrotic diaphragm muscles from dystrophic mdx mice, genetic reduction of versican attenuated macrophage infiltration and improved contractile function. Versican is also implicated in myogenesis. Here, we investigated whether versican modulated mdx hindlimb muscle pathology, where inflammation and regeneration are increased but fibrosis is minimal. Immunohistochemistry and qRT-PCR were used to assess how fiber type and glucocorticoids (α-methylprednisolone) modify versican expression. To genetically reduce versican, female mdx and male versican haploinsufficient (hdf) mice were bred resulting in male mdx-hdf and mdx (control) pups. Versican expression, contractile function, and pathology were evaluated in hindlimb muscles. Versican immunoreactivity was greater in slow versus fast hindlimb muscles. Versican mRNA transcripts were reduced by α-methylprednisolone in soleus, but not in fast extensor digitorum longus, muscles. In juvenile (6-wk-old) mdx-hdf mice, versican expression was most robustly decreased in soleus muscles leading to improved force output and a modest reduction in fatiguability. These functional benefits were not accompanied by decreased inflammation. Muscle architecture, regeneration markers, and fiber type also did not differ between mdx-hdf mice and mdx littermates. Improvements in soleus contractile function were not retained in adult (20-wk-old) mdx-hdf mice. In conclusion, soleus muscles from juvenile mdx mice were most responsive to pharmacological or genetic approaches targeting versican; however, the benefits of versican reduction were limited due to low fibrosis. Preclinical matrix research in dystrophy should account for muscle phenotype (including age) and the interdependence between inflammation and fibrosis. [ABSTRACT FROM AUTHOR]

Published

2024

15. Kinetic Studies on the Interaction of HIV-1 Gag Protein with the HIV-1 RNA Packaging Signal.

Author

Rink, Constance, Kroupa, Tomas, Datta, Siddhartha A. K., and Rein, Alan

Subjects

*GAG proteins, *HAIRPIN (Genetics), *VIRAL proteins, *BINDING sites, *HIV, *GLYCOSAMINOGLYCANS

Abstract

During HIV-1 virus assembly, the genomic RNA (vRNA) is selected for packaging by the viral protein Gag because it contains a specific packaging signal, Psi. While there have been numerous studies of Gag–Psi interactions, there is almost no information on the kinetic aspects of this interaction. We investigated the kinetics of Gag binding to different RNAs using switchSENSE DRX2 technology. We measured the association rate of Gag binding to monomeric Psi, to a "Multiple Binding Site Mutant" Psi that is inactive for genome packaging in vivo, and to a scrambled Psi. We discovered that Gag binds more rapidly to Psi RNA than to the mutant or scrambled RNAs. Furthermore, rapid Gag association kinetics are retained within sub-regions of Psi: Gag associates more rapidly with RNA containing only the 3′ two of the three Psi stem-loops than with monomeric RNA containing the 5′ two stem-loops or a scrambled RNA. No differences were detectable with individual Psi stem-loops. Interestingly, the rate of binding of Gag molecules to Psi increases with increasing Gag concentration, suggesting cooperativity in binding. The results are consistent with the hypothesis that selectivity in packaging derives from kinetic differences in initiation of particle assembly. [ABSTRACT FROM AUTHOR]

Published

2024

16. Dyslipidemia and hyperglycemia induce overexpression of Syndecan-3 in erythrocytes and modulate erythrocyte adhesion.

Author

Mallanna, Smitha Honnalagere, Thimmulappa, Rajesh K, and Chilkunda, Nandini D

Subjects

*ERYTHROCYTE membranes, *LIQUID chromatography-mass spectrometry, *GLYCEMIC control, *BODY mass index, *EXTRACELLULAR matrix, *ERYTHROCYTES, *GLYCOSAMINOGLYCANS, *FIBRONECTINS

Abstract

Erythrocytes are important vascular components that play vital roles in maintaining vascular homeostasis, in addition to carrying oxygen. Previously, we reported that the changes in the internal milieu (e.g. hyperglycemia or hypercholesterolemia) increase erythrocyte adhesion to various extracellular matrix components, potentially through altering glycosaminoglycans (GAGs). In this study, we have investigated the expression of syndecan (Sdc) family members that could be involved in mediating cytoadherence under conditions of dyslipidemia and hyperglycemia. Among the Sdc family members analysed, we found significant overexpression of Sdc-3 in erythrocyte membranes harvested from high-fat-fed control and diabetic animals. Animal studies revealed a positive correlation between Sdc-3 expression, blood sugar levels and erythrocyte adhesion. In the human study, diabetic cohorts with body mass index >24.9 showed significantly increased expression of Sdc-3. Interestingly, blocking the Sdc-3 moiety with an anti-Sdc-3 antibody revealed that the core protein might not be directly involved in erythrocyte adhesion to fibronectin despite the GAGs bringing about adhesion. Lastly, Nano liquid chromatography-mass spectrometry/MS verified the presence of Sdc-3 in erythrocyte membranes. In conclusion, the high-fat diet and diabetes modulated Sdc-3 expression in the erythrocyte membrane, which may alter its adhesive properties and promote vascular complications. [ABSTRACT FROM AUTHOR]

Published

2024

17. Plasma Glycosaminoglycans: A new Promising tool for Assessment of Non-Metastatic Renal Cell Carcinoma Patients Following Nephrectomy.

Author

Ali, Awais, Omneya, Abdelkarem, and Adil, Kashif

Subjects

*RENAL cell carcinoma, *ENZYME-linked immunosorbent assay, *OVERALL survival, *GLYCOSAMINOGLYCANS, *STANDARD deviations

Abstract

Background: Non-invasive detection of renal cell carcinoma (RCC) recurrence is a major challenge that could radically affect patient survival. To date, there are no approved biomarkers for inclusion in the monitoring and follow-up of RCC; therefore, assessment of treatment response is lacking. Materials and Methods: A Cross-sectional study was carried out on biopsy-proven renal cell carcinoma patients scheduled for nephrectomy at Hayatabad Medical Complex (HMC) Hospital, Peshawar, Pakistan, between September 2022 and January 2024. Results: A total of 160 samples were included in the study. Eighty samples were obtained from biopsy-proven non-metastatic renal cell carcinoma patients, of which 40 were collected pre-nephrectomy, 40 were collected post-nephrectomy from the same patients, and 80 samples were collected from age and gender-matched healthy individuals. Total plasma glycosaminoglycans (GAGs) levels were analyzed through a manual enzyme-linked immunosorbent assay using a non-competitive sandwich technique. Quantitative variables were summarized as means and standard deviation, while qualitative variables were summarized as frequency and percentage. A paired t-test was performed to check whether the difference between the mean plasma GAG levels in prenephrectomy and post-nephrectomy groups was significant. Conclusion: The results revealed that post-nephrectomy GAG levels have significantly decreased compared to pre-nephrectomy levels (P<0.001). Plasma glycosaminoglycan levels could be promising markers for monitoring renal cell carcinoma patients post-nephrectomy. [ABSTRACT FROM AUTHOR]

Published

2024

18. Contribution of Separation Sciences to the Deciphering of the Binding Sites of Glycosaminoglycans to Proteins.

Author

Jeanroy, Frédéric, Demesmay, Claire, and Dugas, Vincent

Subjects

*ANALYTICAL chemistry, *LITERATURE reviews, *BINDING sites, *SUGAR analysis, *AFFINITY chromatography, *GLYCOSAMINOGLYCANS

Abstract

Following the rapid developments in genomics and proteomics in recent decades, the analysis of the associated sugars became a critical center of interest, particularly in the field of analytical chemistry. Indeed, their synthetic route, diversity and complexity make these carbohydrates, and in particular glycosaminoglycans (GAG), a real analytical puzzle. These polymers are involved in a wide range of biological processes through their particular interaction with proteins. This article aims to show the contribution of separation sciences to the identification and characterization of interaction sites on GAGs. After a brief review of the structure and diversity of GAGs, the question was: do GAGs have a specific interaction motif with proteins? A literature review showed that this question is still controversial and that the reality is more nuanced. This review presents the different separative strategies used to try to identify such a specific GAG binding site if there is one. [ABSTRACT FROM AUTHOR]

Published

2024

19. Genetic Variance in Heparan Sulfation Is Associated With Salt Sensitivity.

Author

Oppelaar, Jetta J., Ferwerda, Bart, Romman, Mohamed A., Sahebdin, Ghazalah N., Zwinderman, Aeilko H., Galenkamp, Henrike, Boekholdt, S. Matthijs, van den Born, Bert-Jan H., Olde Engberink, Rik H. G., and Vogt, Liffert

Abstract

BACKGROUND: High heritability of salt sensitivity suggests an essential role for genetics in the relationship between sodium intake and blood pressure (BP). The role of glycosaminoglycan genes, which are crucial for salinity tolerance, remains to be elucidated. METHODS: Interactions between 54 126 variants in 130 glycosaminoglycan genes and daily sodium excretion on BP were explored in 20 420 EPIC-Norfolk (European Prospective Investigation Into Cancer in Norfolk) subjects. The UK Biobank (n=414 132) and the multiethnic HELIUS study (Healthy Life in an Urban Setting; n=2239) were used for validation. Afterward, the urinary glycosaminoglycan composition was studied in HELIUS participants (n=57) stratified by genotype and upon dietary sodium loading in a time-controlled crossover intervention study (n=12). RESULTS: rs2892799 in NDST3 (heparan sulfate N-deacetylase/N-sulfotransferase 3) showed the strongest interaction with sodium on mean arterial pressure (false discovery rate 0.03), with higher mean arterial pressure for the C allele in high sodium conditions. Also, rs9654628 in HS3ST5 (heparan sulfate-glucosamine 3-sulfotransferase 5) showed an interaction with sodium on systolic BP (false discovery rate 0.03). These interactions were multiethnically validated. Stratifying for the rs2892799 genotype showed higher urinary expression of N-sulfated heparan sulfate epitope D0S0 for the T allele. Conversely, upon dietary sodium loading, urinary D0S0 expression was higher in participants with stable BP after sodium loading, and sodium-induced effects on this epitope were opposite in individuals with and without BP response to sodium. CONCLUSIONS: The C allele of rs2892799 in NDST3 exhibits higher BP in high sodium conditions when compared with low sodium conditions, whereas no differences were detected for the T allele. Concomitantly, both alleles demonstrate distinct expressions of D0S0, which, in turn, correlates with sodium-mediated BP elevation. These findings underscore the potential significance of genetic glycosaminoglycan variation in human BP regulation. [ABSTRACT FROM AUTHOR]

Published

2024

20. Influence of the Structural Mechanics and Surface Properties of Injectable Chitosan Methacrylate-Based Hydrogels for Autologous Chondrocyte Implantation.

Author

Mohan, Kirthana, Das, Dipin, and Thomas, Lynda Velutheril

Subjects

STRUCTURAL mechanics, FREE surfaces, POLYETHYLENE glycol, EXTRACELLULAR matrix, SURFACE properties, GLYCOSAMINOGLYCANS

Abstract

Current strategies for autologous chondrocyte implantation explore the use of gel systems that have structural similarity to an extracellular matrix of cartilage tissue and can act as chondrocyte carriers. However, the major requirement is to address the challenge of maintaining the phenotype and bio-functionality of chondrocytes which often undergo dedifferentiation on expansion, and the appropriate mechanical properties of the matrix that can influence cell attachment and growth. Injectable gel systems are developed in this study by blending different ratios of methacrylated chitosan and polyethylene glycol diacrylate, and photocross-linking the system to attain a stable gel. We hypothesize a multiscale approach of evaluating various parameters like the physical and structural properties of the gel, its wettability and surface free energy and mechano-rheological properties along with the biological characterization (viability assay, collagen, and glycosaminoglycan estimation by immunostaining, biochemical analysis, and RT-PCR assay) of the gel in ascertaining its ideal matrix system. The study provides a correlation between the different parameters to arrive at the most optimum characteristic of an ideal gel system which is dependent not only on the elastic modulus and surface free energy properties of the matrix but also on the composition of the matrix and the phenotype and functionality of the encapsulated chondrocytes. [ABSTRACT FROM AUTHOR]

Published

2024

21. Rational design of glycosaminoglycan binding cyclic peptides using cPEPmatch

Author

Brianda L. Santini, Margrethe Gaardløs, Dariusz Wyrzykowski, Sven Rothemund, Anja Penk, Martin Zacharias, and Sergey A. Samsonov

Subjects

Cyclic peptides, Glycosaminoglycans, Antithrombin, Rational design, Molecular dynamics, Nuclear magnetic resonance, Biotechnology, TP248.13-248.65

Abstract

Cyclic peptides present a robust platform for drug design, offering high specificity and stability due to their conformationally constrained structures. In this study, we introduce an updated version of the Cyclic Peptide Matching program (cPEPmatch) tailored for the identification of cyclic peptides capable of mimicking protein-glycosaminoglycan (GAG) binding sites. We focused on engineering cyclic peptides to replicate the GAG-binding affinity of antithrombin III (ATIII), a protein that plays a crucial role in modulating anticoagulation through interaction with the GAG heparin. By integrating computational and experimental methods, we successfully identified a cyclic peptide binder with promising potential for future optimization. MD simulations and MM-GBSA calculations were used to assess binding efficacy, supplemented by umbrella sampling to approximate free energy landscapes. The binding specificity was further validated through NMR and ITC experiments. Our findings demonstrate that the computationally designed cyclic peptides effectively target GAGs, suggesting their potential as novel therapeutic agents. This study advances our understanding of peptide-GAG interactions and lays the groundwork for future development of cyclic peptide-based therapeutics.

Published

2024

22. Calculation of continuous reference intervals for biological parameters exhibiting strong age‐dependent level changes: Its application to glycosaminoglycans and sialic acid in urine

Author

Carlos Emilio Rodríguez, Mette Diswall, Anders Olsson, Torleif Jonsson, Eva Johansson, and Maria Blomqvist

Subjects

age‐dependent reference intervals, continuous reference intervals, glycoproteinosis, glycosaminoglycans, mucopolysaccharidosis, sialic acid, Diseases of the endocrine glands. Clinical endocrinology, RC648-665, Genetics, QH426-470

Abstract

Abstract Glycosaminoglycan (GAG) and sialic acid (total and free) assays are used as first‐line screening tests for the diagnosis of mucopolysaccharidoses and glycoproteinoses, respectively. There is a pronounced age‐dependent variation in the urinary concentrations of these metabolites in the normal population, and the stratification of the reference values into discrete age ranges may lead to an undesirably high number of false‐positive or false‐negative results. The aim of this study was to design a method for calculating continuous reference intervals as a function of age and its application to the analysis of GAGs and sialic acid (total, free, and conjugated) in urine. In the postpubertal period, concentrations of urinary GAGs and sialic acid have reached a plateau, so a traditional calculation of the reference range in this specific age group was considered appropriate. In the prepubertal period, a nonlinear regression performed with the Excel add‐in Solver was used to fit the logarithmized concentrations of the controls to a curve that represents the mean values as a function of age. A uniform distribution of the residuals was obtained, which allowed the calculation of the reference intervals by adding the values of their 2.5 and 97.5 percentiles to the independent variable of the regression curve to calculate the upper and lower reference curves. The main advantages of the developed method are (1) a reduction in the number of control samples needed to obtain adequate reference intervals and (2) an improvement in the reliability of diagnostic screening by reducing the uncertainty generated by the gaps in the traditional age‐stratified method.

Published

2024

23. Elevated fluid and glycosaminoglycan content in the Achilles tendon contribute to higher intratendinous pressures: Implications for Achilles tendinopathy

Author

Lauren Pringels, Gert-Jan Van Valckenborgh, Patrick Segers, Amélie Chevalier, Hedwig Stepman, Evi Wezenbeek, Arne Burssens, and Luc Vanden Bossche

Subjects

Achilles tendon, Achilles tendinopathy, Intratendinous pressure, Glycosaminoglycans, Tendon fluid, Sports, GV557-1198.995, Sports medicine, RC1200-1245

Abstract

Background: Tendinopathy alters the compositional properties of the Achilles tendon by increasing fluid and glycosaminoglycan content. It has been speculated that these changes may affect intratendinous pressure, but the extent of this relationship remains unclear. Therefore, we aimed to investigate the impact of elevated fluid and glycosaminoglycan content on Achilles tendon intratendinous pressure and to determine whether hyaluronidase (HYAL) therapy can intervene in this potential relationship. Methods: Twenty paired fresh-frozen cadaveric Achilles tendons were mounted in a tensile-testing machine and loaded up to 5% strain. Intratendinous resting (at 0% strain) and dynamic pressure (at 5% strain) were assessed using the microcapillary infusion technique. First, intratendinous pressure was measured under native conditions before and after infusion of 2 mL physiological saline. Next, 80 mg of glycosaminoglycans were administered bilaterally to the paired tendons. The right tendons were additionally treated with 1500 units of HYAL. Finally, both groups were retested, and the glycosaminoglycan content was analyzed. Results: It was found that both elevated fluid and glycosaminoglycan content resulted in higher intratendinous resting and dynamic pressures (p

Published

2024

24. The diagnosis and management of mucopolysaccharidosis type II

Author

Shao-Jia Mao, Qing-Qing Chen, Yang-Li Dai, Guan-Ping Dong, and Chao-Chun Zou

Subjects

Mucopolysaccharidosis type II, Glycosaminoglycans, Enzyme replacement therapy, Hematopoietic stem cell transplantation, Substrate reduction therapy, Gene therapy, Pediatrics, RJ1-570

Abstract

Abstract Mucopolysaccharidosis type II (MPS II) is a rare X-linked recessive inherited lysosomal storage disease. With pathogenic variants of the IDS gene, the activity of iduronate-2-sulfatase (IDS) is reduced or lost, causing the inability to degrade glycosaminoglycans (GAGs) in cells and influencing cell function, eventually resulting in multisystemic manifestations, such as a coarse face, dysostosis multiplex, recurrent respiratory tract infections, and hernias. Diagnosing MPS II requires a combination of clinical manifestations, imaging examinations, urinary GAGs screening, enzyme activity, and genetic testing. Currently, symptomatic treatment is the main therapeutic approach. Owing to economic and drug availability issues, only a minority of patients opt for enzyme replacement therapy or hematopoietic stem cell transplantation. The limited awareness of the disease, the lack of widespread detection technology, and uneven economic development contribute to the high rates of misdiagnosis and missed diagnosis in China.

Published

2024

25. Urinary Free Glycosaminoglycans Identify Adults at High Risk of Developing Early-stage High-grade Bladder Cancer

Author

Francesco Gatto, Sinisa Bratulic, Francesca Maccari, Fabio Galeotti, Nicola Volpi, Jens Nielsen, Yair Lotan, and Henrik Kjölhede

Subjects

Bladder cancer, Screening, Urinary biomarkers, Cancer metabolism, Glycosaminoglycans, Diseases of the genitourinary system. Urology, RC870-923, Neoplasms. Tumors. Oncology. Including cancer and carcinogens, RC254-282

Abstract

Background and objective: Screening for bladder cancer (BCa) could reduce mortality via early detection of early-stage high-grade (Ta/T1 N0 M0 grade 2–3) disease. Noninvasive biomarkers could aid in screening, but current markers lack the specificity required. The urinary free glycosaminoglycan profile (GAGome) is a promising biomarker for early detection of BCa metabolism. Methods: In a prospective case-control development study, we included patients with BCa or no evidence of disease (NED) and measured the urinary GAGome. We then developed a score to predict the probability of BCa using GAGome features that correlated with BCa versus NED according to Bayesian regression. Next, in a retrospective, population-based, case-control study, we included adults from the Lifelines Cohort Study who were presumed healthy at baseline. All cases with BCa confirmed in the cancer registry by the 2-yr or 6-yr study visit were matched to randomly selected control subjects. We developed a reference logistic regression model using age and sex to predict BCa at 7 yr after baseline. We then added the GAGome score to the model and assessed model improvement using the likelihood ratio test. We dichotomized outputs for the reference model and saturated model (reference + GAGome score) into high-risk versus low-risk categories using a 99% specificity cutoff and estimated the sensitivity for association with BCa at 7 yr. Key findings and limitations: We prospectively included 51 individuals with BCa and 38 with NED and observed alterations in three GAGome features compatible with BCa. We developed a score that discriminated BCa with an area under the receiver operating characteristic curve of 0.77 (95% confidence interval [CI] 0.67–0.87). We retrospectively selected a cohort of 1088 presumed healthy adults (median age 48 yr, 56% females), of whom 48 had developed BCa by 7 yr after baseline (median time to diagnosis 1.4 yr). The GAGome score was an independent predictor of BCa at 7 yr when added to the reference model (p

Published

2024

26. Urinary syndecan‐1 in dogs anesthetized with isoflurane or sevoflurane: A randomized, prospective study

Author

Stephanie Harris, Katherine Gerken, Stuart Clark‐Price, Ellan Hung, Tom Jukier, Amy Yanke, Kendon Kuo, and Maureen McMichael

Subjects

canine, endothelium, glycocalyx, glycosaminoglycans, inhalant anesthesia, Veterinary medicine, SF600-1100

Abstract

Abstract Background Syndecan‐1 (SDC1) is an established marker of endothelial glycocalyx shedding. Most research on SDC1 has focused on plasma or serum concentrations, and little is known about urine concentrations. Objectives Measure urinary SDC1 concentrations in dogs undergoing anesthesia with either sevoflurane or isoflurane and assess the effects of anesthesia duration and IV crystalloids on urinary SDC1 concentrations. Animals Thirty‐one client‐owned dogs undergoing anesthesia for magnetic resonance imaging (MRI) with or without surgery for suspected intervertebral disk disease (IVDD) were used. Methods Dogs with suspected IVDD were randomized to undergo anesthesia with either sevoflurane or isoflurane. Urine was collected before and immediately after anesthesia for the analysis of SDC1. Urinary creatinine concentrations also were measured, and the ratio of urinary SDC1 to urinary creatinine (USCR) was used to account for dilution. Results Median (range) USCR was significantly higher after anesthesia compared with baseline for all groups combined (P

Published

2024

27. Synthesis and Reactivity of Masked Organic Sulfates.

Author

Kumar Villuri, Bharath and Desai, Umesh R.

Subjects

*HORMONE synthesis, *XENOBIOTICS, *STEROID synthesis, *BILE acids, *STEROID hormones

Abstract

Nature offers a variety of structurally unique, sulfated endobiotics including sulfated glycosaminoglycans, sulfated tyrosine peptides, sulfated steroids/bile acids/catecholamines. Sulfated molecules display a large number of biological activities including antithrombotic, antimicrobial, anticancer, anti‐inflammatory, and others, which arise from modulation of intracellular signaling and enhanced in vivo retention of certain hormones. These characteristics position sulfated molecules very favorably as drug‐like agents. However, few have reached the clinic. Major hurdles exist in realizing sulfated molecules as drugs. This state‐of‐the‐art has been transformed through recent works on the development of sulfate masking technologies for both alkyl (sulfated carbohydrates, sulfated steroids) and aryl (sTyr‐bearing peptides/proteins, sulfated flavonoids) sulfates. This review compiles the literature on different strategies implemented for different types of sulfate groups. Starting from early efforts in protection of sulfate groups to the design of newer SuFEx, trichloroethyl, and gem‐dimethyl‐based protection technologies, this review presents the evolution and application of concepts in realizing highly diverse, sulfated molecules as candidate drugs and/or prodrugs. Overall, the newer strategies for sulfate masking and demasking are likely to greatly enhance the design and development of sulfated molecules as non‐toxic drugs of the future. [ABSTRACT FROM AUTHOR]

Published

2024

28. Osteochondral Tissue-On-a-Chip: A Novel Model for Osteoarthritis Research.

Author

González-Guede, Irene, Garriguez-Perez, Daniel, and Fernandez-Gutierrez, Benjamin

Subjects

*TOTAL knee replacement, *TISSUE viability, *LACTATE dehydrogenase, *MICROPHYSIOLOGICAL systems, *CYTOTOXINS, *GLYCOSAMINOGLYCANS, *ALKALINE phosphatase, *KNEE

Abstract

The existing in vitro and in vivo models for studying osteoarthritis have significant limitations in replicating the complexity of joint tissues. This research aims to validate a Tissue-On-a-Chip system for osteoarthritis research. Osteochondral tissues obtained from knee replacement surgeries of patients with osteoarthritis were cultured in an Organ-On-a-Chip system. This system was designed to supply oxygen and glucose to the cartilage from the bone. The distribution of oxygen and glucose was evaluated by fluorescence using Image-iT Green Hypoxia and 2-NBDG, respectively. Cytotoxicity was measured using lactate dehydrogenase (LDH) levels in chip cultures compared to plate cultures (12 tissues per method). Glycosaminoglycans (GAGs), alkaline phosphatase (ALP), Coll2-1, and procollagen type II N-terminal propeptide (PIINP) were measured in the perfused medium of the Tissue-On-a-Chip over a period of 70 days. Fluorescence of Image-iT Green Hypoxia was observed only in the cartilage area, while 2-NBDG was distributed throughout the tissue. An increase in LDH levels was noted in the plate cultures on day 24 and in the Tissue-On-a-Chip cultures on day 63. Compared to the start of the culture, GAG content increased on day 52, while ALP showed variations. A notable increase in GAG, ALP, and Coll2-1 levels was observed on day 59. PIINP levels remained stable throughout the experiment. The validated osteochondral Tissue-On-a-Chip system can replicate the joint microenvironment, with hypoxic conditions in cartilage and normoxic conditions in bone. Tissue survival and component stability were maintained for approximately two months. This platform is a useful tool for evaluating new drugs and represents a viable alternative to animal models. [ABSTRACT FROM AUTHOR]

Published

2024

29. Discriminating Benign from Malignant Lung Diseases Using Plasma Glycosaminoglycans and Cell-Free DNA.

Author

Qvick, Alvida, Bratulic, Sinisa, Carlsson, Jessica, Stenmark, Bianca, Karlsson, Christina, Nielsen, Jens, Gatto, Francesco, and Helenius, Gisela

Subjects

*CELL-free DNA, *LUNG cancer, *LUNG diseases, *LIQUID chromatography, *MULTIOMICS

Abstract

We aimed to investigate the use of free glycosaminoglycan profiles (GAGomes) and cfDNA in plasma to differentiate between lung cancer and benign lung disease, in a cohort of 113 patients initially suspected of lung cancer. GAGomes were analyzed in all samples using the MIRAM® Free Glycosaminoglycan Kit with ultra-high-performance liquid chromatography and electrospray ionization triple quadrupole mass spectrometry. In a subset of samples, cfDNA concentration and NGS-data was available. We detected two GAGome features, 0S chondroitin sulfate (CS), and 4S CS, with cancer-specific changes. Based on the observed GAGome changes, we devised a model to predict lung cancer. The model, named the GAGome score, could detect lung cancer with 41.2% sensitivity (95% CI: 9.2–54.2%) at 96.4% specificity (95% CI: 95.2–100.0%, n = 113). When we combined the GAGome score with a cfDNA-based model, the sensitivity increased from 42.6% (95% CI: 31.7–60.6%, cfDNA alone) to 70.5% (95% CI: 57.4–81.5%) at 95% specificity (95% CI: 75.1–100%, n = 74). Notably, the combined GAGome and cfDNA testing improved the sensitivity, compared to cfDNA alone, especially in ASCL stage I (55.6% vs 11.1%). Our findings show that plasma GAGome profiles can enhance cfDNA testing performance, highlighting the applicability of a multiomics approach in lung cancer diagnostics. [ABSTRACT FROM AUTHOR]

Published

2024

30. Role of the GalNAc-galectin pathway in the healing of premature rupture of membranes.

Author

Chen, Jia-Le, Liu, Lou, Peng, Xin-Rui, Wang, Yan, Xiang, Xiang, Chen, Yu, Xu, De-Xiang, and Chen, Dao-Zhen

Subjects

*PROTEIN kinase B, *FETAL membranes, *EPITHELIAL-mesenchymal transition, *WOUND healing, *NEONATAL mortality, *GLYCOSAMINOGLYCANS

Abstract

Background: Premature rupture of the membranes (PROM) is a key cause of preterm birth and represents a major cause of neonatal mortality and morbidity. Natural products N-acetyl-d-galactosamine (GalNAc), which are basic building blocks of important polysaccharides in biological cells or tissues, such as chitin, glycoproteins, and glycolipids, may improve possible effects of wound healing. Methods: An in vitro inflammation and oxidative stress model was constructed using tumor necrosis-α (TNF-α) and lipopolysaccharide (LPS) action on WISH cells. Human amniotic epithelial cells (hAECs) were primarily cultured by digestion to construct a wound model. The effects of GalNAc on anti-inflammatory and anti-oxidative stress, migration and proliferation, epithelial-mesenchymal transition (EMT), glycosaminoglycan (GAG)/hyaluronic acid (HA) production, and protein kinase B (Akt) pathway in hAECs and WISH cells were analyzed using the DCFH-DA fluorescent probe, ELISA, CCK-8, scratch, transwell migration, and western blot to determine the mechanism by which GalNAc promotes amniotic wound healing. Results: GalNAc decreased IL-6 expression in TNF-α-stimulated WISH cells and ROS expression in LPS-stimulated WISH cells (P < 0.05). GalNAc promoted the expression of Gal-1 and Gal-3 with anti-inflammatory and anti-oxidative stress effects. GalNAc promoted the migration of hAECs (50% vs. 80%) and WISH cells through the Akt signaling pathway, EMT reached the point of promoting fetal membrane healing, and GalNAc did not affect the activity of hAECs and WISH cells (P > 0.05). GalNAc upregulated the expression of sGAG in WISH cells (P < 0.05) but did not affect HA levels (P > 0.05). Conclusions: GalNAc might be a potential target for the prevention and treatment of PROM through the galectin pathway, including (i) inflammation; (ii) epithelial-mesenchymal transition; (iii) proliferation and migration; and (iv) regression, remodeling, and healing. [ABSTRACT FROM AUTHOR]

Published

2024

31. Utilisation of Snails for Wound Healing: A Review.

Author

Fadhilah, Diana, Santoso, Putra, and Maliza, Rita

Subjects

*SNAILS, *GLYCOSAMINOGLYCANS, *MUCUS, *PEPTIDES, *POLYPHENOLS

Abstract

Snails exhibit remarkable adaptability, allowing them to flourish in diverse environmental conditions and resulting in thriving populations in specific regions. This abundance has led communities to harness snails for various purposes, including their use as animal feed, daily dietary source, and in traditional wound-healing practices with historical roots. The primary objective of this systematic review is to identify the snail species commonly employed in wound healing and evaluate the bioactivity of compounds derived from different snail species. This review was conducted using literature review method, drawing from international databases such as Scopus, and encompassed publications from 2013 to 2023. A total of 22 articles met the inclusion and exclusion criteria. Snail body parts that have been explored for wound-healing purposes include both the body and the shell, along with snail secretions, particularly their mucus. Various methods have been employed to extract mucus, involving manual stimulation of the snail's body, spraying with a saline solution (NaCl), application of electric shock, and the use of ozone gas through nebulisation. Prominent snail species found to be beneficial for wound healing include Achatina fulica, Helix aspersa, Eobania desertorum, Helix lucurus, Cornu bistrialis, Theba pisana, and Megalobulimus lopesi. These snail species demonstrate potential applications in the treatment of burns, excision wounds, incision wounds, and diabetic ulcers. Key compounds within snail secretions encompass mucopolysaccharides, polyphenols, peptides, and glycosaminoglycans. These compounds exert significant effects on haemostasis, inflammation control, cellular proliferation, and re-epithelialisation, significantly contributing to the wound healing process. [ABSTRACT FROM AUTHOR]

Published

2024

32. Perineuronal net deglycosylation associates with tauopathy‐induced gliosis and neurodegeneration.

Author

Logsdon, Aric F., Foresi, Brian, Hu, Shannon J., Quah, Emily, Meuret, Cristiana J., Le, Jaden P., Hendrickson, Aarun S., Redford, Ingrid K., Kumar, Asmit, Phan, Bao Anh, Doan, Tammy P., Noonan, Cassidy, Hendricks, Nzinga E., Wheeler, Jeanna M., Kraemer, Brian C., and Alonge, Kimberly M.

Subjects

*PERINEURONAL nets, *CHONDROITIN sulfates, *ALZHEIMER'S disease, *NEUROFIBRILLARY tangles, *TAUOPATHIES, *GLYCOSAMINOGLYCANS, *CHONDROITIN sulfate proteoglycan

Abstract

Alzheimer's disease (AD) is a progressive neurodegenerative disorder characterized by clinical symptoms of memory and cognitive deficiencies. Postmortem evaluation of AD brain tissue shows proteinopathy that closely associate with the progression of this dementing disorder, including the accumulation of extracellular beta amyloid (Aβ) and intracellular hyperphosphorylated tau (pTau) with neurofibrillary tangles (NFTs). Current therapies targeting Aβ have limited clinical efficacy and life‐threatening side effects and highlight the need for alternative treatments targeting pTau and other pathophysiologic mechanisms driving AD pathogenesis. The brain's extracellular matrices (ECM), particularly perineuronal nets (PNNs), play a crucial role in brain functioning and neurocircuit stability, and reorganization of these unique PNN matrices has been associated with the progression of AD and accumulation of pTau in humans. We hypothesize that AD‐associated changes in PNNs may in part be driven by the accumulation of pTau within the brain. In this work, we investigated whether the presence of pTau influenced PNN structural integrity and PNN chondroitin sulfate‐glycosaminoglycan (CS‐GAG) compositional changes in two transgenic mouse models expressing tauopathy‐related AD pathology, PS19 (P301S) and Tau4RTg2652 mice. We show that PS19 mice exhibit an age‐dependent loss of hippocampal PNN CS‐GAGs, but not the underlying aggrecan core protein structures, in association with pTau accumulation, gliosis, and neurodegeneration. The loss of PNN CS‐GAGs were linked to shifts in CS‐GAG sulfation patterns to favor the neuroregenerative isomer, 2S6S‐CS. Conversely, Tau4RTg2652 mice exhibit stable PNN structures and normal CS‐GAG isomer composition despite robust pTau accumulation, suggesting a critical interaction between neuronal PNN glycan integrity and neighboring glial cell activation. Overall, our findings provide insights into the complex relationship between PNN CS‐GAGs, pTau pathology, gliosis, and neurodegeneration in mouse models of tauopathy, and offer new therapeutic insights and targets for AD treatment. [ABSTRACT FROM AUTHOR]

Published

2024

33. Extracellular Matrix Components and Mechanosensing Pathways in Health and Disease.

Author

Berdiaki, Aikaterini, Neagu, Monica, Tzanakakis, Petros, Spyridaki, Ioanna, Pérez, Serge, and Nikitovic, Dragana

Subjects

*CELL receptors, *CHONDROITIN sulfates, *TISSUE mechanics, *EXTRACELLULAR matrix, *HEPARAN sulfate, *GLYCOSAMINOGLYCANS

Abstract

Glycosaminoglycans (GAGs) and proteoglycans (PGs) are essential components of the extracellular matrix (ECM) with pivotal roles in cellular mechanosensing pathways. GAGs, such as heparan sulfate (HS) and chondroitin sulfate (CS), interact with various cell surface receptors, including integrins and receptor tyrosine kinases, to modulate cellular responses to mechanical stimuli. PGs, comprising a core protein with covalently attached GAG chains, serve as dynamic regulators of tissue mechanics and cell behavior, thereby playing a crucial role in maintaining tissue homeostasis. Dysregulation of GAG/PG-mediated mechanosensing pathways is implicated in numerous pathological conditions, including cancer and inflammation. Understanding the intricate mechanisms by which GAGs and PGs modulate cellular responses to mechanical forces holds promise for developing novel therapeutic strategies targeting mechanotransduction pathways in disease. This comprehensive overview underscores the importance of GAGs and PGs as key mediators of mechanosensing in maintaining tissue homeostasis and their potential as therapeutic targets for mitigating mechano-driven pathologies, focusing on cancer and inflammation. [ABSTRACT FROM AUTHOR]

Published

2024

34. 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

35. Synthesis and Biological Profiling of Seven Heparin and Heparan Sulphate Analogue Trisaccharides.

Author

Demeter, Fruzsina, Peleskei, Zsófia, Kútvölgyi, Katalin, Rusznyák, Ágnes, Fenyvesi, Ferenc, Kajtár, Richárd, Sipos, Éva, Lekli, István, Molnár, Petra, Szöllősi, Attila Gábor, Lisztes, Erika, Tóth, Balázs István, Borbás, Anikó, and Herczeg, Mihály

Subjects

*TRISACCHARIDES, *BIOSYNTHESIS, *CHEMICAL synthesis, *EXTRACELLULAR matrix, *WAGE increases, *GLYCOSAMINOGLYCANS, *HEPARIN

Abstract

Researchers are paying increasing attention to the strongly negatively charged heteropolysaccharides in cells, in the extracellular matrix or in the cell wall. Examples of such molecules are glycosaminoglycans (e.g., heparin, heparan sulphate). It is well known from the literature that heparin and its derivatives have anti-inflammatory, angiogenic, metastatic and growth factor inhibitory activity. Herein, we present the efficient synthesis of six non-glycosaminoglycan (Glc-GlcA-Glc-sequenced) and one heparin-related (GlcN-GlcA-Glc-sequenced) trisaccharides with various functional group patterns. The anti-inflammatory, antioxidant and cell growth-inhibitory/cytotoxic effects of the synthesized compounds were tested. Among the investigated molecules, we have found some derivatives with a promising anti-inflammatory and antioxidant effect. [ABSTRACT FROM AUTHOR]

Published

2024

36. Mucopolysaccharidosis-Plus Syndrome: Is This a Type of Mucopolysaccharidosis or a Separate Kind of Metabolic Disease?

Author

Cyske, Zuzanna, Gaffke, Lidia, Pierzynowska, Karolina, and Węgrzyn, Grzegorz

Subjects

*CONGENITAL heart disease, *HEMATOPOIETIC system, *HEPARAN sulfate, *DISEASE nomenclature, *BIOCHEMICAL substrates, *GLYCOSAMINOGLYCANS

Abstract

Several years ago, dozens of cases were described in patients with symptoms very similar to mucopolysaccharidosis (MPS). This new disease entity was described as mucopolysaccharidosis-plus syndrome (MPSPS). The name of the disease indicates that in addition to the typical symptoms of conventional MPS, patients develop other features such as congenital heart defects and kidney and hematopoietic system disorders. The symptoms are highly advanced, and patients usually do not survive past the second year of life. MPSPS is inherited in an autosomal recessive manner and is caused by a homozygous-specific mutation in the gene encoding the VPS33A protein. To date, it has been described in 41 patients. Patients with MPSPS exhibited excessive excretion of glycosaminoglycans (GAGs) in the urine and exceptionally high levels of heparan sulfate in the plasma, but the accumulation of substrates is not caused by a decrease in the activity of any lysosomal enzymes. Here, we discuss the pathomechanisms and symptoms of MPSPS, comparing them to those of MPS. Moreover, we asked the question whether MPSPS should be classified as a type of MPS or a separate disease, as contrary to 'classical' MPS types, despite GAG accumulation, no defects in lysosomal enzymes responsible for degradation of these compounds could be detected in MPSPS. The molecular mechanism of the appearance of GAG accumulation in MPSPS is suggested on the basis of results available in the literature. [ABSTRACT FROM AUTHOR]

Published

2024

37. TNFα-Induced Inflammation Model—Evaluation of Concentration and Passage-Dependent Effects on Bovine Chondrocytes.

Author

Ossendorff, Robert, Wang, Su, Kurth, Sarah, Jaenisch, Max, Assaf, Elio, Strauss, Andreas C., Bertheloot, Damien, Welle, Kristian, Burger, Christof, Wirtz, Dieter C., and Schildberg, Frank A.

Subjects

*NF-kappa B, *TUMOR necrosis factors, *MATRIX metalloproteinases, *GENE expression, *CARTILAGE cells, *GLYCOSAMINOGLYCANS

Abstract

Inflammation models are widely used in the in vitro investigation of new therapeutic approaches for osteoarthritis. TNFα (tumor necrosis factor alpha) plays an important role in the inflammatory process. Current inflammation models lack uniformity and make comparisons difficult. Therefore, this study aimed to systematically investigate whether the effects of TNFα are concentration-dependent and whether chondrocyte expansion has an effect on the inflammatory model. Bovine chondrocytes were enzymatically isolated, expanded to passages 1–3, and transferred into a 3D pellet culture. Chondrocyte pellets were stimulated with recombinant bovine TNFα at different concentrations for 48 h to induce inflammation. Gene expression of anabolic (collagen 2, aggrecan, cartilage oligomeric protein (COMP)), catabolic (matrix metalloproteinases (MMP3, MMP13)), dedifferentiation (collagen 1) markers, inflammation markers (interleukin-6 (IL-6), nuclear factor kappa B (NFkB), cyclooxygenase-2 (COX), prostaglandin-E-synthase-2 (PTGES2)), and the apoptosis marker caspase 3 was determined. At the protein level, concentrations of IL-6, nitric oxide (NO), and sulfated glycosaminoglycans (GAG) were evaluated. Statistical analysis was performed using the independent t-test, and significance was defined as p < 0.05. In general, TNFα caused a decrease in anabolic markers and an increase in the expression of catabolic and inflammatory markers. There was a concentration-dependent threshold of 10 ng/mL to induce significant inflammatory effects. Most of the markers analyzed showed TNFα concentration-dependent effects (COMP, PRG4, AGN, Col1, MMP3, and NFkB). There was a statistical influence of selected gene expression markers from different passages on the TNFα chondrocyte inflammation model, including Col2, MMP13, IL-6, NFkB, COX2, and PTGES2. Considering the expression of collagen 2 and MMP3, passage 3 chondrocytes showed a higher sensitivity to TNFα stimulation compared to passages 1 and 2. On the other hand, MMP13, IL-6, NFkB, and caspase 3 gene expression were lower in P3 chondrocytes compared to the other passages. On the protein level, inflammatory effects showed a similar pattern, with cytokine effects starting at 10 ng/mL and differences between the passages. TNFα had a detrimental effect on cartilage, with a clear threshold observed at 10 ng/mL. Although TNFα effects showed concentration-dependent patterns, this was not consistent for all markers. The selected passage showed a clear influence, especially on inflammation markers. Further experiments were warranted to explore the effects of TNFα concentration and passage in long-term stimulation. [ABSTRACT FROM AUTHOR]

Published

2024

38. Structural Insights into Endostatin–Heparan Sulfate Interactions Using Modeling Approaches.

Author

Uciechowska-Kaczmarzyk, Urszula, Frank, Martin, Samsonov, Sergey A., and Maszota-Zieleniak, Martyna

Subjects

*AMINO acid residues, *ENDOSTATIN, *HEPARAN sulfate, *MOLECULAR dynamics, *MOLECULAR docking, *GLYCOSAMINOGLYCANS

Abstract

Glycosaminoglycans (GAGs) play a key role in a variety of biological processes in the extracellular matrix (ECM) via interactions with their protein targets. Due to their high flexibility, periodicity and electrostatics-driven interactions, GAG-containing complexes are very challenging to characterize both experimentally and in silico. In this study, we, for the first time, systematically analyzed the interactions of endostatin, a proteolytic fragment of collagen XVIII known to be anti-angiogenic and anti-tumoral, with heparin (HP) and representative heparan sulfate (HS) oligosaccharides of various lengths, sequences and sulfation patterns. We first used conventional molecular docking and a docking approach based on a repulsive scaling–replica exchange molecular dynamics technique, as well as unbiased molecular dynamic simulations, to obtain dynamically stable GAG binding poses. Then, the corresponding free energies of binding were calculated and the amino acid residues that contribute the most to GAG binding were identified. We also investigated the potential influence of Zn2+ on endostatin–HP complexes using computational approaches. These data provide new atomistic details of the molecular mechanism of HP's binding to endostatin, which will contribute to a better understanding of its interplay with proteoglycans at the cell surface and in the extracellular matrix. [ABSTRACT FROM AUTHOR]

Published

2024

39. The acute effect of exercise on the endothelial glycocalyx in healthy adults: A systematic review and meta‐analysis.

Author

Saz‐Lara, Alicia, Cavero‐Redondo, Iván, del Saz‐Lara, Andrea, Rodríguez‐Gutiérrez, Eva, Bizzozero‐Peroni, Bruno, and Pascual‐Morena, Carlos

Subjects

*EXERCISE physiology, *CARDIOVASCULAR diseases risk factors, *RESISTANCE training, *INTERVAL training, *GLYCOCALYX

Abstract

Background: In recent years, it has been demonstrated that when the endothelial glycocalyx, composed of proteoglycans, glycosaminoglycans and glycoproteins, is altered or modified, this property is lost, playing a fundamental role in cardiovascular pathologies. Cardiovascular risk factors can destroy the endothelial glycocalyx layer. Exercise has a positive effect on cardiovascular risk factors, but little is known about its direct effect on the integrity of the endothelial layer. Methods: The Cochrane Library, PubMed, Web of Science and Scopus databases were searched from their inception to June 30, 2022. The DerSimonian and Laird method was used to compute pooled effect size estimates and their respective 95% confidence intervals for the acute effect of exercise (within 24 h) on the endothelial glycocalyx and its components in healthy adults. Results: Ten studies were included in the meta‐analysis, with a total of 252 healthy subjects. The types of exercise included were resistance training, interval training, resistance training and maximal incremental exercise, with a duration range of 30–60 min. Glycocalyx assessment times included ranged from 0 to 90 min post‐exercise. Our findings showed that endothelial glycocalyx increases after acute effect of exercise in healthy population (.56, 95% CI:.38,.74). The acute effect of exercise on endothelial glycocalyx components were.47 (95% CIs:.27,.67) for glycosaminoglycans,.67 (95% CIs:.08, 1.26) for proteoglycans and.61 (95% CIs:.35,.86) for glycoproteins. Conclusions: In a healthy population, various types of exercise showed an acute improvement of the endothelial glycocalyx and its individual components. [ABSTRACT FROM AUTHOR]

Published

2024

40. Short preconditioning with TGFβ of equine adipose tissue-derived mesenchymal stem cells predisposes towards an anti-fibrotic secretory phenotype: A possible tool for treatment of endometrosis in mares.

Author

Wong, Yat Sen, Mançanares, Ana Carolina, Navarrete, Felipe, Poblete, Pamela, Mendez-Pérez, Lidice, Rodriguez-Alvarez, Lleretny, and Castro, Fidel Ovidio

Subjects

*MESENCHYMAL stem cells, *GLYCOSAMINOGLYCANS, *TRANSFORMING growth factors-beta, *PHENOTYPES, *MARES, *GENE expression, *CARTILAGE regeneration, *ADIPOGENESIS

Abstract

Endometrosis in mares is a disease resulting from chronic inflammation characterized by peri glandular fibrosis. There is no effective treatment so far, which opens the door for exploring the use of stem cells as a candidate. Transforming growth factor beta (TGFβ) is crucial for the establishment and progression of fibrosis in mare's endometrosis. We aimed to develop regenerative approaches to treat endometrosis by using mesenchymal stem cells (MSC), for which understanding the effect of TGFβ on exogenous MSC is crucial. We isolated and characterized equine adipose MSC from six donors. Cells were pooled and exposed to 10 ng/ml of TGFβ for 0, 4, and 24 h, after which cells were analyzed for proliferation, migration, mesodermal differentiation, expression of fibrosis-related mRNAs, and prostaglandin E2 secretion. At 24 h of exposition to TGFβ, there was a progressive increase in the contraction of the monolayer, leading to nodular structures, while cell viability did not change. Exposure to TGFβ impaired adipogenic and osteogenic differentiation after 4 h of treatment, which was more marked at 24 h, represented by a decrease in Oil red and Alizarin red staining, as well as a significant drop (p < 0.05) in the expression of key gene regulators of differentiation processes (PPARG for adipose and RUNX2 for osteogenic differentiation). TGFβ increased chondrogenic differentiation as shown by the upsurge in size of the resulting 3D cell pellet and intensity of Alcian Blue staining, as well as the significant up-regulation of SOX9 expression (p < 0.05) at 4 h, which reached a maximum peak at 24 h (p < 0.01), indicative of up-regulation of glycosaminoglycan synthesis. Preconditioning MSC with TGFβ led to a significant increase (p < 0.05) in the expression of myofibroblast gene markers aSMA, COL1A1, and TGFβ at 24 h exposition time. In contrast, the expression of COL3A1 did not change with respect to the control but registered a significant downregulation compared to 4 h (p < 0.05). TGFβ also affected the expression of genes involved in PGE 2 synthesis and function; COX2 , PTGES, and the PGE 2 receptor EP4 were all significantly upregulated early at 4 h (p < 0.05). Cells exposed to TGFβ showed a significant upregulation of PGE 2 secretion at 4 h compared to untreated cells (p < 0.05); conversely, at 24 h, the PGE 2 values decreased significantly compared to control cells (p < 0.05). Preconditioning MSC for 4 h led to an anti-fibrotic secretory phenotype, while a longer period (24 h) led to a pro-fibrotic one. It is tempting to propose a 4-h preconditioning of exogenous MSC with TGFβ to drive them towards an anti-fibrotic phenotype for cellular and cell-free therapies in fibrotic diseases such as endometrosis of mares. • TGF beta induces an anti-fibrotic phenotype in MSC exposed to it for 4h • TGF beta induces a pro-fibrotic phenotype in MSC exposed to it for 24h • TGF beta impairs osteogenic and adipogenic differentiation of MSC. • TGF beta improves chondrogenic differentiation. • The anti-fibrotic action of TGF beta seems to be mediated by PGE 2. [ABSTRACT FROM AUTHOR]

Published

2024

41. Natural Regenerative Hydrogels for Wound Healing.

Author

Chelu, Mariana, Calderon Moreno, Jose M., Musuc, Adina Magdalena, and Popa, Monica

Subjects

BIOPOLYMERS, WOUND healing, POLYSACCHARIDES, REGENERATIVE medicine, CHEMICAL structure, XANTHAN gum

Abstract

Regenerative hydrogels from natural polymers have come forth as auspicious materials for use in regenerative medicine, with interest attributed to their intrinsic biodegradability, biocompatibility, and ability to reassemble the extracellular matrix. This review covers the latest advances in regenerative hydrogels used for wound healing, focusing on their chemical composition, cross-linking mechanisms, and functional properties. Key carbohydrate polymers, including alginate, chitosan, hyaluronic acid, and polysaccharide gums, including agarose, carrageenan, and xanthan gum, are discussed in terms of their sources, chemical structures and specific properties suitable for regenerative applications. The review further explores the categorization of hydrogels based on ionic charge, response to physiological stimuli (i.e., pH, temperature) and particularized roles in wound tissue self-healing. Various methods of cross-linking used to enhance the mechanical and biological performance of these hydrogels are also examined. By highlighting recent innovations and ongoing challenges, this article intends to give a detailed understanding of natural hydrogels and their potential to revolutionize regenerative medicine and improve patient healing outcomes. [ABSTRACT FROM AUTHOR]

Published

2024

42. Human Serum, Following Absorption of Fish Cartilage Hydrolysate, Promotes Dermal Fibroblast Healing through Anti-Inflammatory and Immunomodulatory Proteins.

Author

Le Faouder, Julie, Guého, Aurélie, Lavigne, Régis, Wauquier, Fabien, Boutin-Wittrant, Line, Bouvret, Elodie, Com, Emmanuelle, Wittrant, Yohann, and Pineau, Charles

Subjects

PRIMARY cell culture, HUMAN cell culture, PROTEOMICS, GLYCOSAMINOGLYCANS, FIBROBLASTS

Abstract

Background/Objectives: Marine collagen peptides (MCPs) and glycosaminoglycans (GAGs) have been described as potential wound-healing (WH) agents. Fish cartilage hydrolysate (FCH) is a natural active food ingredient obtained from enzymatic hydrolysis which combines MCPs and GAGs. Recently, the clinical benefits of FCH supplementation for the skin, as well as its mode of action, have been demonstrated. Some of the highlighted mechanisms are common to the WH process. The aim of the study is therefore to investigate the influence of FCH supplementation on the skin healing processes and the underlying mechanisms. Methods: To this end, an ex vivo clinical approach, which takes into account the clinical digestive course of nutrients, coupled with primary cell culture on human dermal fibroblasts (HDFs) and ultra-deep proteomic analysis, was performed. The effects of human serum enriched in circulating metabolites resulting from FCH ingestion (FCH-enriched serum) were assessed on HDF WH via an in vitro scratch wound assay and on the HDF proteome via diaPASEF (Data Independent Acquisition—Parallel Accumulation Serial Fragmentation) proteomic analysis. Results: Results showed that FCH-enriched human serum accelerated wound closure. In support, proteins with anti-inflammatory and immunomodulatory properties and proteins prone to promote hydration and ECM stability showed increased expression in HDFs after exposure to FCH-enriched serum. Conclusions: Taken together, these data provide valuable new insights into the mechanisms that may contribute to FCH's beneficial impact on human skin functionality by supporting WH. Further studies are needed to reinforce these preliminary data and investigate the anti-inflammatory and immunomodulatory properties of FCH. [ABSTRACT FROM AUTHOR]

Published

2024

43. A Toxoplasma gondii thioredoxin with cell adhesion and antioxidant function.

Author

Dawei Wang, Yuyi Shi, Ziwen Cheng, Like Luo, Kuo Cheng, Shengqi Gan, Che Liu, Zeliang Chen, and Baoling Yang

Subjects

CELL receptors, PARASITE life cycles, RECOMBINANT proteins, CELL adhesion, TOXOPLASMA gondii, GLYCOSAMINOGLYCANS

Abstract

Background: Toxoplasma gondii (T. gondii) is a widespread, zoonotic protozoan intracellular parasite with a complex life cycle, which can cause toxoplasmosis, a potentially serious disease. During the invasion process, T. gondii proteins first bind to the relevant host cell receptors, such as glycosaminoglycan molecule (GAG-binding motif), which is one of the main receptors for parasites or virus to infect host cells. However, research on TGME49_216510 (T. gondii Trx21), a protein from Toxoplasma gondii, is limited. Methods: Bioinformatics analysis of the Trx21 protein was performed firstly. And specific primers were then designed using the conserved domain and GAG-binding motif to amplify, express, and purify a fragment of the Trx21 protein. The purified Trx21-GST protein was used for antioxidant and cell adhesion experiments. Simultaneously, mice were immunized with Trx21-His to generate specific polyclonal antibodies for subcellular localization analysis. Results: The Trx21 protein, consisting of 774 amino acids, included a transmembrane region, three GAG-binding motifs, and a Thioredoxin-like domain. The recombinant Trx21-His protein had a molecular mass of about 31 kDa, while the Trx21-GST protein had a molecular mass of about 55 kDa, which was analyzed by SDS-PAGE and Western blot. Subcellular localization analysis by IFA revealed that Trx21 is predominantly distributed in the cytoplasm of T. gondii. Furthermore, Trx21 exhibited a protective effect on supercoiled DNA against metal-catalyzed oxidation (MCO) and demonstrated adhesion abilities to Vero cells. Conclusions: These results indicate that Trx21 plays an important role in host cell interaction and oxidative damage. [ABSTRACT FROM AUTHOR]

Published

2024

44. 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

45. Novel Fundoscopic Features in Mucopolysaccharidosis Type VI: Multimodal Evaluation of Scleral Deposits.

Author

Magalhães, Augusto, Ribeiro, Margarida, Meira, Jorge, Moleiro, Ana Filipa, Rodrigues, Esmeralda, and Leão-Teles, Elisa

Subjects

*OPTICAL coherence tomography, *DERMATAN sulfate, *ENZYME deficiency, *GENETIC disorders, *GLYCOSAMINOGLYCANS

Abstract

Introduction: Mucopolysaccharidosis type VI (MPS VI) is a rare inherited metabolic disorder, primarily attributed to the deficiency of the enzyme N-acetylgalactosamine-4-sulfatase, responsible for the degradation of dermatan sulfate and chondroitin-4-sulfate. Therefore, there is a widespread accumulation of partially degraded glycosaminoglycans. Corneal opacification is the hallmark ocular feature in the MPS. Retinal and scleral involvement in this MPS is extremely rare. The purpose of this work was to describe novel fundoscopic alterations present in patients with MPS VI. Case Presentation: This is a case series involving three non-related patients referred to our department from the Unit of Inherited Metabolic Diseases. Multimodal imaging was performed in every patient. Fundus photography and enhanced depth imaging optical coherence tomography (EDI-OCT) were performed. Multiple areas of yellow/orange patches were observed on fundus photography, corresponding to areas in which deposits of intermediate reflectivity in the EDI-OCT could be seen at the scleral level with associated choroidal thinning. This finding suggested the presence of scleral deposits of glycosaminoglycans. Conclusion: To our knowledge, this is the first case series in the literature encompassing patients with MPS VI with suspected deposits of glycosaminoglycans in the sclera. The better control of the systemic comorbidities, the increase in life expectancy, and the timely management of corneal disease have allowed the identification of new, late-onset ocular manifestations in MPS patients. In addition, new imaging techniques have introduced the possibility of better characterizing and understanding these manifestations. [ABSTRACT FROM AUTHOR]

Published

2024

46. Evaluation of Chondral Defect Repair Using Human Fibronectin Adhesion Assay-Derived Chondroprogenitors Suspended in Lyophilized Fetal Collagen Scaffold: An Ex Vivo Osteochondral Unit Model Study.

Author

Parasuraman, Ganesh, Amirtham, Soosai Manickam, Francis, Deepak Vinod, Livingston, Abel, Ramasamy, Boopalan, Sathishkumar, Solomon, and Vinod, Elizabeth

Subjects

*FLOW cytometry, *ARTICULAR cartilage, *FREEZE-drying, *DESCRIPTIVE statistics, *FIBRONECTINS, *CELL culture, *CHONDROGENESIS, *HISTOLOGICAL techniques, *WESTERN immunoblotting, *STAINS & staining (Microscopy), *GLYCOSAMINOGLYCANS

Abstract

Introduction: Chondral defect repair is challenging due to a scarcity of reparative cells and the need to fill a large surface area, compounded by the absence of self-healing mechanisms. Fibronectin adhesion assay-derived chondroprogenitors (FAA-CPs) have emerged as a promising alternative with enhanced chondrogenic ability and reduced hypertrophy. De-cellularized bio-scaffolds are reported to act as extracellular matrix, mimicking the structural and functional characteristics of native tissue, thereby facilitating cell attachment and differentiation. This study primarily assessed the synergistic effect of FAA-CPs suspended in fetal cartilage-derived collagen-containing scaffolds in repairing chondral defects. Methodology: The de-cellularized and lyophilized fetal collagen was prepared from the tibio-femoral joint of a 36 + 4-week gestational age fetus. FAA-CPs were isolated from osteoarthritic cartilage samples (n = 3) and characterized. In ex vivo analysis, FAA-CPs at a density of 1 × 106 cells were suspended in the lyophilized scaffold and placed into the chondral defects created in the Osteochondral Units and harvested on the 35th day for histological examination. Results: The lyophilized scaffold of de-cellularized fetal cartilage with FAA-CPs demonstrated effective healing of the critical size chondral defect. This was evidenced by a uniform distribution of cells, a well-organized collagen-fibrillar network, complete filling of the defect with alignment to the surface, and favorable integration with the adjacent cartilage. However, these effects were less pronounced in the plain scaffold control group and no demonstrable repair observed in the empty defect group. Conclusion: This study suggests the synergistic potential of FAA-CPs and collagen scaffold for chondral repair which needs to be further explored for clinical therapy. [ABSTRACT FROM AUTHOR]

Published

2024

47. A biological guide to glycosaminoglycans: current perspectives and pending questions.

Author

Ricard‐Blum, Sylvie, Vivès, Romain R., Schaefer, Liliana, Götte, Martin, Merline, Rosetta, Passi, Alberto, Heldin, Paraskevi, Magalhães, Ana, Reis, Celso A., Skandalis, Spyros S., Karamanos, Nikos K., Perez, Serge, and Nikitovic, Dragana

Abstract

Mammalian glycosaminoglycans (GAGs), except hyaluronan (HA), are sulfated polysaccharides that are covalently attached to core proteins to form proteoglycans (PGs). This article summarizes key biological findings for the most widespread GAGs, namely HA, chondroitin sulfate/dermatan sulfate (CS/DS), keratan sulfate (KS), and heparan sulfate (HS). It focuses on the major processes that remain to be deciphered to get a comprehensive view of the mechanisms mediating GAG biological functions. They include the regulation of GAG biosynthesis and postsynthetic modifications in heparin (HP) and HS, the composition, heterogeneity, and function of the tetrasaccharide linkage region and its role in disease, the functional characterization of the new PGs recently identified by glycoproteomics, the selectivity of interactions mediated by GAG chains, the display of GAG chains and PGs at the cell surface and their impact on the availability and activity of soluble ligands, and on their move through the glycocalyx layer to reach their receptors, the human GAG profile in health and disease, the roles of GAGs and particular PGs (syndecans, decorin, and biglycan) involved in cancer, inflammation, and fibrosis, the possible use of GAGs and PGs as disease biomarkers, and the design of inhibitors targeting GAG biosynthetic enzymes and GAG–protein interactions to develop novel therapeutic approaches. [ABSTRACT FROM AUTHOR]

Published

2024

48. Butyrate Increases Heparin Synthesis and Storage in Human Mast Cells.

Author

Alam, Syed Benazir, Yan, Zhimin, Verma, Nishita Hiresha, Unsworth, Larry D., and Kulka, Marianna

Subjects

*MAST cells, *SHORT-chain fatty acids, *SODIUM butyrate, *CELL anatomy, *CELL physiology, *BUTYRATES, *GLYCOSAMINOGLYCANS, *HEPARIN

Abstract

Sulphated glycosaminoglycans (GAGs) such as heparin are a major component of mast cell granules and form the matrix within which biogenic mediators are stored. Since GAGs released from mast cells also play an important role in helminth expulsion, understanding GAG storage can offer new insights into mast cell function. Sodium butyrate (NaBu), a short-chain fatty acid, causes ultrastructural changes within the granules of human mast cells (HMC-1) and increases their histamine content. Therefore, we hypothesized that NaBu treatment would also modify the storage of polysaccharides such as GAGs. NaBu (1 mM) significantly increased GAG content and granularity in a time- and concentration-dependent manner without affecting cell viability and metabolic activity. NaBu increased the expression of enzymes associated with heparin biosynthesis (GLCE, NDST1, NDST2, HS6ST1, and GALT1) in a time-dependent manner. A cholesteryl butyrate emulsion (CholButE) increased heparin content after 24 and 48 h and modestly altered the expression of genes involved in heparin biosynthesis. Similar to NaBu, CholButE reduced cell proliferation without significantly altering viability or metabolic activity. These data show that butyrate increases the synthesis and storage of heparin in human mast cells, perhaps by altering their metabolic pathways. [ABSTRACT FROM AUTHOR]

Published

2024

49. Colloidal Stability of Chitosan/DNA Polyelectrolyte Complexes in Presence of Biological Polyanions.

Author

Nando Rodríguez, Jesrael Luz Elena, Figueroa Ochoa, Edgar Benjamín, Renteria Urquiza, Maite, and Bravo‐Anaya, Lourdes Mónica

Subjects

*PHYSICAL & theoretical chemistry, *NUCLEIC acids, *POLYANIONS, *COLLOIDAL stability, *POLYELECTROLYTES, *GLYCOSAMINOGLYCANS

Abstract

Natural or synthetic polycations are used in nucleic acid‐based therapies as complexing agents which interact electrostatically with nucleic acids, condense them into nanoparticles, protect them and control their entry into cells. However, although the literature on the formation of nanoparticles known as complexes is well documented, fewer studies have focused on the physical chemistry behind their disassembly, especially under physicochemical conditions found in an intracellular environment. There are several theories of the disassembly of these complexes, one of them consisting in the exchange between the polycations of these particles with biological polyanions. This project is focused on the study of the complexation mechanism of chitosan and calf‐thymus DNA, as well as the stability of the obtained complexes in presence of biological polyanions, i.e., glycosaminoglycans (GAGs). In the presence of polyelectrolyte complexes, GAGs that are present in cells are expected to compete with nucleic acids and dissociate the complex if polycation–GAG association is thermodynamically favored. It is found that chitosan/DNA complexes colloidal stability depends on its [N+]/[P−] charge ratio (R). Furthermore, it is determined that the aggregation onset of the complexes, generated by the addition of different GAGs, depends on the structure and the charge density of the GAGs. [ABSTRACT FROM AUTHOR]

Published

2024

50. A regenerative approach for temporomandibular joint repair: An in vitro and ex vivo study.

Author

Guastaldi, Fernando P. S., Matheus, Henrique R., Hadad, Henrique, Randolph, Mark A., and Redmond, Robert W.

Subjects

*IN vitro studies, *ARTICULAR cartilage, *RESEARCH funding, *TISSUE engineering, *IN vivo studies, *GLYCOPROTEINS, *REGENERATION (Biology), *LASER therapy, *IMMUNOHISTOCHEMISTRY, *CARTILAGE cells, *ANIMAL experimentation, *HISTOLOGICAL techniques, *MANDIBULAR condyle, *RABBITS, *GLYCOSAMINOGLYCANS, TEMPOROMANDIBULAR joint surgery

Abstract

Background: Current clinical approaches to regenerate temporomandibular joint (TMJ) articulating cartilage defects only treat the symptoms (i.e. pain and dysfunction) and do not seek to restore joint integrity for long‐term relief. Therefore, we investigated a novel self‐assembling tissue‐engineered cartilage to overcome this significant clinical issue for TMJ regenerative purposes. Objectives: Examine the maturation of dynamic self‐regenerating cartilage (dSRC) using auricular chondrocytes and evaluate a novel combinatorial approach with fractional laser treatment and dSRC implantation for TMJ cartilage repair. Materials and Methods: A suspension of 107 freshly harvested rabbit ear chondrocytes was cultured under a continuous reciprocating motion to form the dSRC. After 2, 4 and 8 weeks of culture, dSRC samples were stained with H&E, Safranin‐O and Toluidine Blue. Immunohistochemistry (IHC) was performed for collagens type I and II. Channels (300–500 μm diameter and 1.2–1.5 mm depth) were created in six freshly harvested condyles using a fractional Erbium laser. Two groups were tested: dSRC in a laser‐ablated lesion (experimental) and an empty laser‐ablated channel (control). TMJ condyles were cultured for up to 8 weeks and analysed as described above. Results: H&E staining showed a high cell density in dSRC compared to native cartilage. All dSRC groups demonstrated intense Safranin‐O staining, indicating high glycosaminoglycan (GAG) production and intense Toluidine Blue staining showed high proteoglycan content. IHC confirmed that dSRC consisted predominantly of collagen type II. The experimental group showed improved cartilage repair at both time points compared to the empty channels. Conclusion: dSRC viability and successful matrix formation were demonstrated in vitro. The combination of fractional laser ablation and dSRC implantation enhanced cartilage repair. [ABSTRACT FROM AUTHOR]

Published

2024