Osteogenic Protein-1 inhibits matrix depletion in a hyaluronan hexasaccharide-induced model of osteoarthritis1 1 Supported in part by NIH grants P50-AR39239,

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Volume 60, Issue 5, Pages (November 2001)

Presentation transcript:

Osteogenic Protein-1 inhibits matrix depletion in a hyaluronan hexasaccharide-induced model of osteoarthritis1 1 Supported in part by NIH grants P50-AR39239, RO1- AR43384 (WK), RO1-AR39507 (CBK) and grants from the Arthritis Foundation Yoshihiro Nishida, M.D. Ph.D., Cheryl B. Knudson, Ph.D., Warren Knudson, Ph.D. Osteoarthritis and Cartilage Volume 12, Issue 5, Pages 374-382 (May 2004) DOI: 10.1016/j.joca.2004.01.008

Fig. 1 The effect of OP-1 on CD44, HAS-2, aggrecan mRNA expression by human articular chondrocytes treated with HA6. Aliquots of total RNA derived from human articular chondrocytes cultures treated by 250μg/ml of HA6 with or without 100ng/ml of OP-1 for 5 days, were reverse transcribed and PCR amplified for 23 cycles in the presence of internal DNA standards for CD44 (4.0, 2.0, 1.0 and 0.5 attomoles of mimic), HAS-2 (30.0, 15.0, 7.5 and 3.75 attomoles of mimic) or, aggrecan (0.2, 0.1, 0.05 and 0.025 femtomoles of mimic). The products were separated on 1.5% agarose gel and visualized by SYBR green I staining. Panel A, lanes 1-4 show RNA derived from representative 5-day HA6 plus OP-1 treated cultures; lanes 5-8 show RNA derived from 5-day HA6 treated cultures. Lanes Sd represent 603-bp and 310-bp ϕX174/Hae III DNA marker bands. CD44 target 587bp and mimic 379bp; HAS-2 target 409bp and mimic 523bp; aggrecan target 620bp and mimic 512bp. In panel B, after normalization with competitive RT-PCR using GAPDH RNA mimic, the ratio of mRNA copy numbers, of cultures derived from OP-1 plus HA6and control cultures (black bars), or HA6 and control cultures (light gray bars) were plotted for each molecule. Data represent the mean±standard deviation of triplicate experiments. Osteoarthritis and Cartilage 2004 12, 374-382DOI: (10.1016/j.joca.2004.01.008)

Fig. 2 The effect of OP-1 on PG synthesis and cellular distribution in cultures of human articular chondrocytes treated with HA6. Panel A, five days after the initial addition of HA6 or HA6 plus OP-1, the cultures were pulse-labeled with 35S-sulfate for 4h and chased for an additional 24h. The medium (white bars), further-removed matrix (light gray bars) and cell-associated matrix (black bars) pools were collected, and the specific incorporation of 35S-sulfate into PGs was determined using a rapid filtration method. The level of 35S-sulfate labeled PGs synthesized was normalized to cellular DNA content. Values represent the average±sd of triplicate experiments; P=0.0048 for difference between OP-1 plus HA6 and HA6 treatment bars in total amount, P=0.003 between OP-1 plus HA6 and HA6 only treatment bars in cell-associated matrix. Panel B depicts the dose-dependent effects of OP-1 (10, 50 or 100ng/ml) on 35S-sulfate incorporation for HA6 treated chondrocyte cultures. Osteoarthritis and Cartilage 2004 12, 374-382DOI: (10.1016/j.joca.2004.01.008)

Fig. 3 Alcian blue staining of alginate bead chondrocyte cultures. Panel A, control untreated human articular chondrocytes cultured in alginate beads show a moderate alcian-blue positive matrix. Panel B, 100ng/ml of OP-1 treated human articular chondrocytes show a prominent increased alcian-blue positive matrix. Panel C, human articular chondrocytes cultured in alginate beads in the presence of 250μg/ml HA6 show an overall decrease in alcian-blue positive matrix. Panel D, HA6 treated human articular chondrocytes in the presence of OP-1 show a recovered alcian-blue positive matrix compared to the chondrocytes treated with HA6 only. Osteoarthritis and Cartilage 2004 12, 374-382DOI: (10.1016/j.joca.2004.01.008)

Fig. 4 The effect of OP-1 on the cell-associated matrix of human articular chondrocytes treated with HA6. Human articular chondrocytes were cultured in alginate beads in the presence of 5% FBS for 7 days, released from alginate and transferred into 6-well culture plates. Fixed erythrocytes were applied to the plated chondrocytes to visualize the cell-associated matrix. Panel A, control untreated chondrocytes; Panel B, chondrocytes treated with 100ng/ml of OP-1; Panel C, chondrocytes treated with 250μg/ml of HA6 and, Panel D, chondrocytes treated with OP-1 in the presence of HA6. Panel E depicts a morphometric analysis of (matrix area-cell area)/cell area for each of the conditions shown in panels A-D. Bars represent the mean±standard deviation of 10 cells per condition. Calculation of P-values demonstrated significant differences (2-tailed student’s t-test) between control and HA6=0.026 and; between HA6 and (HA6+OP-1)=0.002. Differences between OP-1 and (HA6+OP-1)=0.124 and; between control and (HA6+OP-1)=0.638 were not significant. Osteoarthritis and Cartilage 2004 12, 374-382DOI: (10.1016/j.joca.2004.01.008)

Fig. 5 The effect of OP-1 on PG or HA accumulation by human articular cartilage slices treated with HA6. Human articular cartilage slices were treated without (A, C, E) or with (B, D, F) 100ng/ml of OP-1 in the presence of 250μg/ml of HA6 for 14 days. Cartilage slices were stained with Safranin-O/fast green for PGs (A, B), or with biotinylated HABP probe for HA (C-F). Panels C, D depict the superficial/upper layers of cartilage and; panels E, F the deeper layers of cartilage. Untreated control cartilage stained with the HABP probe is shown in the inset of C. Arrows indicate superficial layer of the cartilage in panels A and B. The superficial surface is to the top in panels C-F. Osteoarthritis and Cartilage 2004 12, 374-382DOI: (10.1016/j.joca.2004.01.008)