Meniscus is more susceptible than cartilage to catabolic and anti-anabolic effects of adipokines

Nishimuta, James F.; Levenston, Marc E.

doi:10.1016/j.joca.2015.04.014

Cited by 23 publications

(16 citation statements)

References 48 publications

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“…Consistent with previous observations of juvenile tissues (30), nitrite release was greater in cartilage than meniscus, perhaps due to greater cellularity of cartilage tissue (as evidenced by greater DNA content). While cumulative nitrite release was greater in co-cultured meniscus than in meniscus cultured alone, the nitrite release rate was unaffected.…”

Section: Discussionsupporting

confidence: 91%

“…Adipose tissues can also produce a wide range of signaling molecules, and considerable recent interest has focused on the effects of fat-secreted factors on other tissues. In studies on the isolated effects of individual adipokines that can be produced by IFP, we found that several adipokines (most notably resistin) stimulated catabolic and anti-anabolic responses in cartilage tissues, with meniscus exhibiting greater sensitivity than articular cartilage (30). In contrast, the current co-culture study found that both cartilage and meniscus tissues displayed a modest anti-catabolic response to co-culture with fat (lower MMP-2 production) and cartilage but not meniscus exhibited a substantial anabolic response.…”

Section: Discussionmentioning

confidence: 99%

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Co-culture with infrapatellar fat pad differentially stimulates proteoglycan synthesis and accumulation in cartilage and meniscus tissues

Nishimuta

Bendernagel

Levenston

2016

Connective Tissue Research

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Purpose: Although osteoarthritis is widely viewed as a disease of the whole joint, relatively few studies have focused on interactions among joint tissues in joint homeostasis and degeneration. In particular, few studies have examined effects of the infrapatellar fat pad (IFP) on cartilaginous tissues. The aim of this study was to test the hypothesis that co-culture with healthy IFP would induce degradation of cartilage and meniscus tissues. Materials and Methods: Bovine articular cartilage, meniscus, and IFP were cultured isolated or as cartilage-fat or meniscus-fat co-cultures for up to 14 days. Conditioned media were assayed for sulfated glycosaminoglycan (sGAG) content, nitrite content and matrix metalloproteinase (MMP) activity, and explants were assayed for sGAG and DNA contents. Results: Co-cultures exhibited increased cumulative sGAG release and sGAG release rates for both cartilage and meniscus, and cartilage (but not meniscus) exhibited a substantial synergestic effect of co-culture (sGAG release in co-culture was significantly greater than the summed release from isolated cartilage and fat). Fat co-culture did not significantly alter sGAG content of either cartilage or meniscus explants, indicating that IFP co-culture stimulated net sGAG production by cartilage. Nitrite release was increased relative to isolated tissue controls in co-cultured meniscus but not cartilage, with no synergistic effect of co-culture. Interestingly, MMP-2 production was decreased by co-culture for both cartilage and meniscus. Conclusions: This study demonstrates that healthy IFP may modulate joint homeostasis by stimulating sGAG production in cartilage. Counter to our hypothesis, healthy IFP did not promote degradation of either cartilage or meniscus tissue.

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Section: Discussionsupporting

confidence: 91%

Section: Discussionmentioning

confidence: 99%

Co-culture with infrapatellar fat pad differentially stimulates proteoglycan synthesis and accumulation in cartilage and meniscus tissues

Nishimuta

Bendernagel

Levenston

2016

Connective Tissue Research

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“…It has a positive correlation with obesity, insulin resistance, and chronic inflammation [153, 170] (Figures 1(a) and 1(b)). In murine models, cartilage and in human primary chondrocytes resistin was also found to induce MMP13, ADAMTS4, PGE 2 , TNF- α , and IL-8 (Figure 5 and Table 1) [171].…”

Section: Adipokines In the Pathobiology Of Osteoarthritic Cartilagementioning

confidence: 99%

Adipokine Contribution to the Pathogenesis of Osteoarthritis

Azamar-Llamas

Hernández-Molina

Ramos-Ávalos

et al. 2017

Mediators of Inflammation

134

106

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Recent studies have shown that overweight and obesity play an important role in the development of osteoarthritis (OA). However, joint overload is not the only risk factor in this disease. For instance, the presence of OA in non-weight-bearing joints such as the hand suggests that metabolic factors may also contribute to its pathogenesis. Recently, white adipose tissue (WAT) has been recognized not only as an energy reservoir but also as an important secretory organ of adipokines. In this regard, adipokines have been closely associated with obesity and also play an important role in bone and cartilage homeostasis. Furthermore, drugs such as rosuvastatin or rosiglitazone have demonstrated chondroprotective and anti-inflammatory effects in cartilage explants from patients with OA. Thus, it seems that adipokines are important factors linking obesity, adiposity, and inflammation in OA. In this review, we are focused on establishing the physiological mechanisms of adipokines on cartilage homeostasis and evaluating their role in the pathophysiology of OA based on evidence derived from experimental research as well as from clinical-epidemiological studies.

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“…A recent study showed that increase in body mass index (BMI) negatively regulated gene transcripts associated with extracellular matrix in human meniscus (6). In addition, meniscus was more susceptible than articular cartilage to catabolic effects of adipokines (7). These studies suggest that meniscus could be a primary tissue affected in obesity-linked OA.…”

Section: Introductionmentioning

confidence: 99%

Free fatty acid palmitate activates unfolded protein response pathway and promotes apoptosis in meniscus cells

Haywood

Yammani

2016

Osteoarthritis and Cartilage

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Introduction Obesity is the major risk factor for the development of osteoarthritis (OA); however, the mechanisms involved are not clearly understood. Obesity is associated with increased production of adipokine and elevated levels of circulating free fatty acids (FFA). A recent study has shown that saturated fatty acid palmitate induced pro-inflammatory and pro-apoptotic pathways in chondrocytes. Meniscus has been shown to be more susceptible than articular cartilage to catabolic stimuli. Thus, the aim of this study was to determine the effect of FFA (specifically, palmitate) on meniscus cells. Methods Cultured primary porcine meniscus cells were stimulated with 500 μM free fatty acids (palmitate and oleate) for 24 hours to induce endoplasmic reticulum (ER) stress. After treatment, cell lysates were prepared and immunoblotted for C/EBP homologous protein (CHOP). To determine the activation of unfolded protein response (UPR) signaling, cell lysates were probed for cJun n-terminal kinase (JNK), cleaved caspase -3 and Xbp-1s, an alternative mRNA splicing product generated due to Ire1α activation. Results Treatment of isolated primary meniscus cells with palmitate but not oleate induced expression of CHOP and Xbp-1s. Palmitate treatment of meniscus cells also activated JNK and increased expression of caspase-3, thus promoting apoptosis in meniscus cells. Conclusions Palmitate induces ER stress and promotes apoptotic pathways in meniscus cells. This is the first study to establish ER stress as a key metabolic mechanistic link between obesity and OA, in addition to (or operating with) biomechanical factors.

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Meniscus is more susceptible than cartilage to catabolic and anti-anabolic effects of adipokines

Cited by 23 publications

References 48 publications

Co-culture with infrapatellar fat pad differentially stimulates proteoglycan synthesis and accumulation in cartilage and meniscus tissues

Co-culture with infrapatellar fat pad differentially stimulates proteoglycan synthesis and accumulation in cartilage and meniscus tissues

Adipokine Contribution to the Pathogenesis of Osteoarthritis

Free fatty acid palmitate activates unfolded protein response pathway and promotes apoptosis in meniscus cells

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