The effect of glycosaminoglycan loss on chondrocyte viability: A study on porcine cartilage explants

Otsuki, Shuhei; Brinson, Diana C.; Creighton, L.; Koshi, Mitsuo; Sah, Robert L.; D’Lima, Darryl D.; Lotz, Martin

doi:10.1002/art.23381

Cited by 52 publications

(42 citation statements)

References 42 publications

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“…Ϫ/Ϫ mice demonstrate an increased susceptibility to apoptosis, as induced by antibody to the CD95/Fas receptor, and the SZ is more susceptible to cell death induced by mechanical stress (7). These findings suggest that chromatin factor HMGB2 may facilitate survival of SZ chondrocytes.…”

Section: Discussionmentioning

confidence: 83%

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Aging-related loss of the chromatin protein HMGB2 in articular cartilage is linked to reduced cellularity and osteoarthritis

Taniguchi

Caramés

Ronfani

et al. 2009

Proc. Natl. Acad. Sci. U.S.A.

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126

139

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Osteoarthritis (OA) is the most common joint disease and typically begins with an aging-related disruption of the articular cartilage surface. Mechanisms leading to the aging-related cartilage surface degeneration remain to be determined. Here, we demonstrate that nonhistone chromatin protein high-mobility group box (HMGB) protein 2 is uniquely expressed in the superficial zone (SZ) of human articular cartilage. In human and murine cartilage, there is an agingrelated loss of HMGB2 expression, ultimately leading to its complete absence. Mice genetically deficient in HMGB2 (Hmgb2 ؊/؊ ) show earlier onset of and more severe OA. This is associated with a profound reduction in cartilage cellularity attributable to increased cell death. These cellular changes precede glycosaminoglycan depletion and progressive cartilage erosions. Chondrocytes from Hmgb2 ؊/؊ mice are more susceptible to apoptosis induction in vitro.In conclusion, HMGB2 is a transcriptional regulator specifically expressed in the SZ of human articular cartilage and supports chondrocyte survival. Aging is associated with a loss of HMGB2 expression and reduced cellularity, and this contributes to the development of OA.HMGB ͉ chondrocytes ͉ apoptosis ͉ superficial zone O steoarthritis (OA) represents the most common musculoskeletal disorder, and the number of affected individuals is predicted to increase as a result of population aging and an increase in life expectancy (1). Pharmacologic interventions that alter the progressive loss of articular cartilage are currently unavailable (2). Secondary forms of OA can develop in individuals with specific risk factors, such as joint trauma, malalignment, or metabolic disorders (3). Primary OA, the most common form, is not associated with specific risk factors, but its prevalence increases with age (4).The earliest manifestations of the OA process include changes in the superficial zone (SZ) of articular cartilage, which evolve into the progressive remodeling and degradation of the cartilage extracellular matrix, and other joint structures are also affected at later stages in the disease process (5). Mechanical stress has been implicated in initiating the superficial lesions (6); the SZ is more susceptible to cell death induced by mechanical stress (7), but molecular mechanisms remain to be elucidated. The SZ of articular cartilage is unique in cell morphology and extracellular matrix composition. The SZ is important in many respects because it forms a fluid-tissue interface of articular cartilage in the synovial cavity. The SZ spans the first 10-20% of full-thickness articular cartilage and is composed of densely packed collagen II fibrils maintained by elongated and flattened cells that lie in a parallel orientation to the cartilage surface (8). Unique to SZ is the production of superficial zone protein (SZP), also called proteoglycan-4 (PRG4) or lubricin, which is thought to contribute to the low-friction properties of articular cartilage (9, 10). The SZ possesses 3.5-fold more cells compared with the radial zo...

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Section: Discussionmentioning

confidence: 83%

“…Mechanical stress has been implicated in initiating the superficial lesions (6); the SZ is more susceptible to cell death induced by mechanical stress (7), but molecular mechanisms remain to be elucidated. The SZ of articular cartilage is unique in cell morphology and extracellular matrix composition.…”

mentioning

confidence: 99%

Aging-related loss of the chromatin protein HMGB2 in articular cartilage is linked to reduced cellularity and osteoarthritis

Taniguchi

Caramés

Ronfani

et al. 2009

Proc. Natl. Acad. Sci. U.S.A.

Self Cite

126

139

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“…3,4 A number of studies have used chondroitinase ABC (CABC) to deplete cartilage of glycosaminoglycan (GAG) and to investigate the immediate effects on both mechanical properties and biologic responses to such perturbation of the tissue. [5][6][7] CABC specifically depolymerizes chondroitin and dermatan sulfate, 8 while collagen, the collagen network arrangement, keratan sulfate, and link protein remain unaffected by the enzyme. 9,10 It has been shown that the compressive Young's modulus obtained from an indentation test decreases significantly after treatment with collagenase and CABC.…”

Section: Introductionmentioning

confidence: 99%

Influence of Temporary Chondroitinase ABC-Induced Glycosaminoglycan Suppression on Maturation of Tissue-Engineered Cartilage

Bian

Crivello

et al. 2009

Tissue Engineering Part A

100

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“…Therefore, in the present study, we sought to determine the efficacy of TXC on chondrocyte autophagy, as a chondroprotective agent. Excessive mechanical loading of articular cartilage causes damage to chondrocytes and the ECM, and initiates a pathogenetic process that occurs due to abnormal chondrocyte activation and results in the spreading of chondrocyte death and damage to the ECM beyond the initial area that was exposed to the highest mechanical load (24,25). The understanding of the mechanisms involved in these cellular changes may provide the potential to identify targets for pharmacological interventions in order to attenuate or prevent the subsequent development of OA.…”

Section: Discussionmentioning

confidence: 99%

Tougu Xiaotong capsule promotes chondrocyte autophagy by regulating the Atg12/LC3 conjugation systems

Li¹,

Liu²,

Liang³

et al. 2014

International Journal of Molecular Medicine

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Abstract. We have previously reported that Tougu Xiaotong capsule (TXC) inhibits tidemark replication and cartilage degradation by regulating chondrocyte autophagy in vivo. Autophagy, a cell protective mechanism for maintaining cellular homeostasis, has been shown to be a constitutively active and protective process for chondrocyte survival. However, it remains unclear whether TXC promotes chondrocyte autophagy by regulating the autophagy-related (Atg)12/microtubuleassociated protein 1 light chain 3 (LC3) conjugation systems. Thus, in the present study, we investigated the effects of TXC on primary chondrocytes treated with cobalt chloride (CoCl 2 ). We found that CoCl 2 induced a decrease in chondrocyte viability and the autophagosome formation of chondrocytes, indicating that CoCl 2 induced autophagic death in a dose-and time-dependent manner. To determine the effects of TXC on CoCl 2 -exposed chondrocytes, we assessed cell viability by MTT assay. Our results revealed that TXC enhanced the viability of CoCl 2 -exposed chondrocytes. To gain insight into the mechanisms responsible for the enhancing effects of TXC on CoCl 2 -exposed chondrocytes, the expression of Atg genes was assessed in chondrocytes exposed to CoCl 2 and treated with or without TXC. The results revealed that the expression of beclin 1, Atg3, Atg5, Atg7, Atg10, Atg12 and LC3 II/LC3 I in the chondrocytes treated with TXC increased, compared to that in the untreated chondrocytes. In addition, ultrastructural analysis indicated that treated chondrocytes contained more autophagosomes than the untreated cells, suggesting that TXC increased the formation of autophagosomes in the chondrocytes to clear the CoCl 2 -induced autophagic death. Therefore, these data suggest that TXC is a potential therapeutic agent for the reduction of cartilage degradation that occurs in osteoarthritis.

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The effect of glycosaminoglycan loss on chondrocyte viability: A study on porcine cartilage explants

Cited by 52 publications

References 42 publications

Aging-related loss of the chromatin protein HMGB2 in articular cartilage is linked to reduced cellularity and osteoarthritis

Aging-related loss of the chromatin protein HMGB2 in articular cartilage is linked to reduced cellularity and osteoarthritis

Influence of Temporary Chondroitinase ABC-Induced Glycosaminoglycan Suppression on Maturation of Tissue-Engineered Cartilage

Tougu Xiaotong capsule promotes chondrocyte autophagy by regulating the Atg12/LC3 conjugation systems

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