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Your search keyword '"Polzer, Karin"' showing total 4 results
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4 results on '"Polzer, Karin"'

1. Proteasome inhibition aggravates tumor necrosis factor-mediated bone resorption in a mouse model of inflammatory arthritis.

Author

Polzer K, Neubert K, Meister S, Frey B, Baum W, Distler JH, Gückel E, Schett G, Voll RE, and Zwerina J

Subjects
Animals, Arthritis immunology, Arthritis pathology, Bone Resorption immunology, Bone and Bones drug effects, Bone and Bones immunology, Bone and Bones pathology, Bortezomib, Cartilage, Articular drug effects, Cartilage, Articular immunology, Cartilage, Articular pathology, Chronic Disease, Disease Models, Animal, Humans, Mice, Mice, Transgenic, Osteoclasts drug effects, Osteoclasts enzymology, Osteoclasts immunology, Osteoprotegerin immunology, Osteoprotegerin metabolism, Proteasome Endopeptidase Complex metabolism, RANK Ligand immunology, RANK Ligand metabolism, Synovial Membrane drug effects, Synovial Membrane immunology, Synovial Membrane pathology, Tumor Necrosis Factor-alpha genetics, Arthritis drug therapy, Bone Resorption drug therapy, Boronic Acids pharmacology, Proteasome Endopeptidase Complex immunology, Proteasome Inhibitors pharmacology, Pyrazines pharmacology, Tumor Necrosis Factor-alpha immunology
Abstract

Objective: The proteasome inhibitor bortezomib has potent anti-myeloma and bone-protective activity. Recently, bortezomib was shown to directly inhibit osteoclastogenesis. The aim of this study was to analyze the influence and therapeutic effect of bortezomib in a mouse model of inflammatory arthritis., Methods: Heterozygous human tumor necrosis factor α (hTNFα)-transgenic mice and their wild-type (WT) littermates were intravenously injected with 0.75 mg/kg of bortezomib or phosphate buffered saline twice weekly. The mice were assessed for clinical signs of arthritis. After 6 weeks of treatment, mice were analyzed for synovial inflammation, cartilage damage, bone erosions, and systemic bone changes. Osteoclast precursors from WT and hTNF-transgenic mice were isolated from bone marrow, treated with bortezomib, and analyzed for osteoclast differentiation, bone resorption, and expression of osteoclast-specific genes as well as apoptosis and ubiquitination., Results: Bortezomib-treated hTNF-transgenic mice showed moderately increased inflammatory activity and dramatically enhanced bone erosions associated with a significant increase in the number of synovial osteoclasts. Interestingly, bortezomib did not alter systemic bone turnover in either hTNF-transgenic mice or WT mice. In vitro, treatment with therapeutically relevant concentrations of bortezomib resulted in increased differentiation of monocytes into osteoclasts and more resorption pits. Molecularly, bortezomib increased the expression of TNF receptor-associated factor 6, c-Fos, and nuclear factor of activated T cells c1 in osteoclast precursors., Conclusion: In TNF-mediated bone destruction, bortezomib treatment increased synovial osteoclastogenesis and bone destruction. Hence, proteasome inhibition may have a direct bone-resorptive effect via stimulation of osteoclastogenesis during chronic arthritis., (Copyright © 2011 by the American College of Rheumatology.)

Published
2011
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2. The lonely death: chondrocyte apoptosis in TNF-induced arthritis.

Author

Polzer K, Schett G, and Zwerina J

Subjects
Animals, Apoptosis genetics, Arthritis genetics, Arthritis pathology, Cartilage pathology, Chondrocytes pathology, Extracellular Matrix immunology, Extracellular Matrix pathology, Humans, Matrix Metalloproteinases immunology, Mice, Mice, Transgenic, Necrosis immunology, Necrosis pathology, Phagocytes immunology, Phagocytes pathology, Proteoglycans immunology, Synovial Membrane pathology, Tumor Necrosis Factor-alpha genetics, Apoptosis immunology, Arthritis immunology, Cartilage immunology, Chondrocytes immunology, Synovial Membrane immunology, Tumor Necrosis Factor-alpha immunology
Abstract

Inflammatory joint disease typically provokes progressive cartilage damage. The proliferative synovial inflammatory tissue directly invades the cartilage and induces the expression and activation of degrading enzymes such as matrix metalloproteases (MMPs) and aggrecanases. However, also chondrocyte apoptosis has been observed in cartilage samples of inflamed joints. It remains unclear whether this is a secondary phenomenon due to cartilage damage or a primary event initiated by the synovial inflammation. To determine the presence or absence of chondrocyte death in experimental arthritis, we longitudinally assessed proteoglycan depletion and chondrocyte apoptosis in paw sections from human tumor necrosis factor transgenic (hTNFtg) mice and wild-type littermates. Whereas, wild-type mice showed no signs of cartilage damage, hTNFtg mice exhibited progressive proteoglycan loss starting at clinical onset of arthritis. However, we already found the first apoptotic chondrocytes well before cartilage matrix breakdown occurred indicating that chondrocyte death can be induced before matrix resorption. Chondrocyte death could constantly be observed until late stages of arthritis causing a continuous increase in the number of empty cartilage lacunae. As apoptotic cells in cartilage cannot be cleared by phagocytes due to their spatial isolation in the avascular lacunae of cartilage, having no contact to professional or amateur phagocytes. The dying cells are compelled to undergo a "lonely death" inevitable ending up in secondary necrosis giving rise to perpetuation of a pro-inflammatory cascade. These data indicate that chondrocyte death may play a primary role in inflammatory arthritis fueling cartilage inflammation and damage due to secondary necrosis.

Published
2007
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