Alexander R. Shikhman scite author profile

Glucose serves as the major energy substrate and the main precursor for the synthesis of glycosaminoglycans in chondrocytes. Facilitated glucose transport represents the first rate-limiting step in glucose metabolism. This study examines molecular regulation of facilitated glucose transport in normal human articular chondrocytes by proinflammatory cytokines. IL-1β and TNF-α, and to a lesser degree IL-6, accelerate facilitated glucose transport as measured by [3H]2-deoxyglucose uptake. IL-1β induces an increased expression of glucose transporter (GLUT) 1 mRNA and protein, and GLUT9 mRNA. GLUT3 and GLUT8 mRNA are constitutively expressed in chondrocytes and are not regulated by IL-1β. GLUT2 and GLUT4 mRNA are not detected in chondrocytes. IL-1β stimulates GLUT1 protein glycosylation and plasma membrane incorporation. IL-1β regulation of glucose transport in chondrocytes depends on protein kinase C and p38 signal transduction pathways, and does not require phosphoinositide 3-kinase, extracellular signal-related kinase, or c-Jun N-terminal kinase activation. IL-1β-accelerated glucose transport in chondrocytes is not mediated by endogenous NO or eicosanoids. These results demonstrate that stimulation of glucose transport represents a component of the chondrocyte response to IL-1β. Two classes of GLUTs are identified in chondrocytes, constitutively expressed GLUT3 and GLUT8, and the inducible GLUT1 and GLUT9.

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N-Acetylglucosamine Prevents IL-1β-Mediated Activation of Human Chondrocytes

Shikhman

et al. 2001

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Glucosamine represents one of the most commonly used drugs to treat osteoarthritis. However, mechanisms of its antiarthritic activities are still poorly understood. The present study identifies a novel mechanism of glucosamine-mediated anti-inflammatory activity. It is shown that both glucosamine and N-acetylglucosamine inhibit IL-1β- and TNF-α-induced NO production in normal human articular chondrocytes. The effect of the sugars on NO production is specific, since several other monosaccharides, including glucose, glucuronic acid, and N-acetylmannosamine, do not express this activity. Furthermore, N-acetylglucosamine polymers, including the dimer and the trimer, also do not affect NO production. The observed suppression of IL-1β-induced NO production is associated with inhibition of inducible NO synthase mRNA and protein expression. In addition, N-acetylglucosamine also suppresses the production of IL-1β-induced cyclooxygenase-2 and IL-6. The constitutively expressed cyclooxygenase-1, however, was not affected by the sugar. N-acetylglucosamine-mediated inhibition of the IL-1β response of human chondrocytes was not associated with the decreased inhibition of the mitogen-activated protein kinases c-Jun N-terminal kinase, extracellular signal-related kinase, and p38, nor with activation of the transcription factor NF-κB. In conclusion, these results demonstrate that N-acetylglucosamine expresses a unique range of activities and identifies a novel mechanism for the inhibition of inflammatory processes.

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Alexander R. Shikhman

Cytokine Regulation of Facilitated Glucose Transport in Human Articular Chondrocytes

N-Acetylglucosamine Prevents IL-1β-Mediated Activation of Human Chondrocytes

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