The adaptive response of the mandibular condyle to increased load is disrupted by ADAMTS5 deficiency.

OBJECTIVE: To determine the impact of increased load on the temporomandibular joint (TMJ) from mice deficient in the extracellular matrix protease ADAMTS5. MATERIALS AND METHODS: Wire springs exerting 0.5 N for 1 h/day for 5 days (Adamts5+/+ -n = 18; Adamts5-/- n = 19) or 0.8 N for 1 h/day for 10 days (Adamts5+/+-n = 18; Adamts5-/- n = 17) were used to increase murine TMJ load. Safranin O-staining was used to determine mandibular condylar cartilage (MCC) morphology. Chondrogenic factors Sox9 and aggrecan were immunolocalized. Microcomputed topography was employed to evaluate mineralized tissues, and Tartrate-Resistant Acid Phosphatase staining was used to quantify osteoclasts. RESULTS: Increased load on the mandibular condyle of Adamts5-/- mice resulted in an increase in the hypertrophic zone of mandibular condylar cartilage (MCC) compared to normal load (NL) (P < 0.01). In the trabecular bone of the mandibular condyle, the total volume (TV), bone volume (BV), trabecular thickness (TbTh), and trabecular separation (TbSp) of the mandibular condyles in Adamts5-/- mice (n = 27) did not change significantly with increased load, compared to Adamts5+/+ (n = 38) that exhibited significant responses (TV-P < 0.05; BV-P < 0.001; TbTh-P < 0.01; TbSp-P < 0.01). The bone volume fraction (BV/TV) was significantly reduced in response to increased load in both Adamts5-/- (P < 0.05) and Adamts5+/+ mandibular condyles (P < 0.001) compared to NL. Increased load in Adamts5-/- mandibular condyles also resulted in a dramatic increase in osteoclasts compared to Adamts5-/- NL (P < 0.001) and to Adamts5+/+ with increased load (P < 01). CONCLUSION: The trabeculated bone of the Adamts5-/- mandibular condyle was significantly less responsive to the increased load compared to Adamts5+/+. ADAMTS5 may be required for mechanotransduction in the trabeculated bone of the mandibular condyle.

Adamts5-/- Mice Exhibit Altered Aggrecan Proteolytic Profiles That Correlate With Ascending Aortic Anomalies.

OBJECTIVE: Investigate the requirement of Aggrecan (Acan) cleavage during aortic wall development in a murine model with ADAMTS (a disintegrin-like and metalloprotease domain with thrombospondin-type motifs) 5 deficiency and bicuspid aortic valves. APPROACH: Mice with altered extracellular matrix remodeling of proteoglycans will be examined for anomalies in ascending aortic wall development. Neo-epitope antibodies that recognize ADAMTS cleaved Acan fragments will be used to investigate the mechanistic requirement of Acan turnover, in aortic wall development. RESULTS: Adamts5-/-;Smad2+/- mice exhibited a high penetrance of aortic anomalies (n=17/17); Adamts5-/-;Smad2+/- mice with bicuspid aortic valves (7/17) showed a higher number of anomalies than Adamts5-/-;Smad2+/- mice with tricuspid aortic valves. Single mutant Adamts5-/- mice also displayed a high penetrance of aortic anomalies (n=19/19) compared with wild type (n=1/11). Aortic anomalies correlated with Acan accumulation that was apparent at the onset of elastogenesis in Adamts5-/- mice. Neo-epitope antibodies that recognize the initial amino acids in the Acan cleaved fragments neo-FREEE, neo-GLGS, and neo-SSELE were increased in the Adamts5-/- aortas compared with WT. Conversely, neo-TEGE, which recognizes highly digested Acan core fragments, was reduced in Adamts5-/- mice. However, mice containing a mutation in the TEGE373↓374ALGSV site, rendering it noncleavable, had low penetrance of aortic anomalies (n=2/4). Acan neo-DIPEN and neo-FFGVG fragments were observed in the aortic adventitia; Acan neo-FFGVG was increased abnormally in the medial layer and overlapped with smooth muscle cell loss in Adamts5-/- aortas. CONCLUSIONS: Disruption of ADAMTS5 Acan cleavage during development correlates with ascending aortic anomalies. These data indicate that the mechanism of ADAMTS5 Acan cleavage may be critical for normal aortic wall development.