A Role for Hyaluronan in the Preservation of Interstitial Structure

Hydraulic resistance of interstitium is of major importance in body fluid distribution. In the synovial lining it is vital for the retention of intra-articular fluid, and is attributed chiefly to the network of interstitial biopolymers occupying intercellular gaps in the tissue. Selective removal of synovial hyaluronan (HA) by protease-free hyaluronate lyase results in an almost 10x increase in synovial hydraulic permeability from 0.48 +/- 0.24 microL min(-1) cm H2O (control) to 4.56 +/- 0.40 microL min(-1) cm H2O (mean +/- SD, n = 6 rabbits, p < .001, t test) leading to the hypothesis that hyaluronan plays a major role in the organization of interstitial matrix structure. To test whether removal of hyaluronan causes significant changes in synovial ultrastructure, morphometry of hyaluronidase-treated synovium was carried out. Following hyaluronidase, the thickness of the synovial lining was reduced from 13.0 +/- 1.6 microm (control) to 10.6 +/- 1.6 microm (mean +/- SD throughout, n = 50 measurements per rabbit, 6 rabbits. p < .001, t test). This was accompanied by a significant reduction of synovial interstitial volume fraction from 76.2 +/- 20.6% (control) to 67.04 +/- 24.94% (p < .001, t test), and an increase in collagen bundle volume as a fraction of interstitial volume from 40.75 +/- 4.97% (control) tissue to 48.77 +/- 11.72% (p < .0001, t test). The findings indicate that the removal of hyaluronan chains leads to morphological disruption. Thus, hyaluronan chains play a major role in the organization of synovial structure. The observed morphological changes are insufficiently large to explain fully the great rise in hydraulic permeability observed on HA removal. The latter is likely to be due to disruption of tertiary architecture at the molecular organization level.