Expression of superficial zone protein in mandibular condyle cartilage

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Expression of superficial zone protein in mandibular condyle cartilage S. Ohno, Ph.D., D.D.S., T. Schmid, Ph.D., Y. Tanne, D.D.S., T. Kamiya, D.D.S., K. Honda, D.D.S., Ph.D., M. Ohno-Nakahara, D.D.S., N. Swentko, B.S., T.A. Desai, B.S., K. Tanne, D.D.S., Ph.D., C.B. Knudson, Ph.D., W. Knudson, Ph.D. Osteoarthritis and Cartilage Volume 14, Issue 8, Pages 807-813 (August 2006) DOI: 10.1016/j.joca.2006.02.002 Copyright © 2006 OsteoArthritis Research Society International Terms and Conditions

Fig. 1 Distribution of SZP and hyaluronan in mandibular condyle cartilage. Frozen sections of articular cartilages from bovine mandibular condyle were incubated with SZP antibody (A) or control IgG (D). SZP distribution was visualized by FITC, and nuclei were stained with DAPI (blue fluorescence) (B). Panels C and E show the original tissue structure of section of A, B and D, respectively. (SL, superficial layer; FZ, fibrous zone; PZ, proliferative zone; TZ, transitional zone; bars 100μm.) Osteoarthritis and Cartilage 2006 14, 807-813DOI: (10.1016/j.joca.2006.02.002) Copyright © 2006 OsteoArthritis Research Society International Terms and Conditions

Fig. 2 Effects of IL-1β and TGF-β on the SZP level in mandibular condyle cartilage. Condyle cartilages from bovine mandible were incubated in serum free medium without (A, D) or with IL-1β (1ng/ml) (B, E) or TGF-β (5ng/ml) (C, F) for 4 days. Tissues were treated with monensin for the last 4h of the incubation (D, E, and F). Frozen sections of the explants were incubated with SZP antibody. SZP distribution was visualized by FITC conjugated streptavidin. (Arrowhead, superficial layer; FZ, fibrous zone; bars 100μm.) Osteoarthritis and Cartilage 2006 14, 807-813DOI: (10.1016/j.joca.2006.02.002) Copyright © 2006 OsteoArthritis Research Society International Terms and Conditions

Fig. 3 Effects of IL-1β and TGF-β on the expression of SZP mRNA in the cultured MSF. Dose response (24h; A, C) and time course response (1ng/ml for IL-1β; B, 5ng/ml for TGF-β; D) for SZP mRNA induction were assessed by quantitative real time RT-PCR. Reverse transcription products (80ng) of total RNA from chondrocytes +/− IL-1β (A, B) or TGF-β (C, D) treatment were amplified by using a specific primer set for SZP. The fold increase in treated (black bars) relative to controls (hatched bars) were calculated from cycle number at the crossing point (CP) values using equation 1 described19. The ratio of the copy numbers between experimental samples to time-zero controls are shown as closed circles. Data represent the mean±SD of three experiments with different batches of cells. Statistical significance was shown between controls (open bars) and experimental samples. (*P<0.05, **P<0.01.) Osteoarthritis and Cartilage 2006 14, 807-813DOI: (10.1016/j.joca.2006.02.002) Copyright © 2006 OsteoArthritis Research Society International Terms and Conditions

Fig. 4 Effects of IL-1β and TGF-β on the SZP protein level in the conditioned medium of MSF cultures. SZP protein levels were assessed in the conditioned medium of MSF cultures treated without (○) or with IL-1β (▴) at 1.0ng/ml or TGF-β (▪) at 5ng/ml, using ELISA. The effect of dose (A) and time course (B) of IL-1β and TGF-β effects on SZP protein are shown. SZP values were normalized to total DNA content. Data represent the mean±SD of three experiments with different batches of cells. Statistical significance was shown between control (dose 0) and experimental samples at each time point. (*P<0.05, **P<0.01.) Osteoarthritis and Cartilage 2006 14, 807-813DOI: (10.1016/j.joca.2006.02.002) Copyright © 2006 OsteoArthritis Research Society International Terms and Conditions