Towards engineering distinct multi‐lamellated outer and inner annulus fibrosus tissues

The annulus fibrosus (AF) of the intervertebral disc (IVD) has a zonal distribution of phenotypically distinct cells. The outer AF (OAF) cells produce an extracellular matrix (ECM) rich in type I collagen with little proteoglycans, whereas the ECM of the inner AF (IAF) has abundant type II collagen and proteoglycans. The inhomogeneous distribution of the ECM in the AF may reflect the complex mechanical forces that the IVD experiences. A bioengineered AF tissue should recapitulate both the inner and outer zones in order to have proper functionality. The aim of this study is to generate multi‐lamellated OAF and IAF tissues with ECM compositions that resemble their zonal origin using polycarbonate urethane (PU) scaffolds. It was observed that supplementation of the media with insulin‐transferrin‐selenium (ITS) and proline yielded tissues with good cellularity. However, IAF cells accumulated only type I collagen, similar to OAF cells. Addition of dexamethasone and sodium pyruvate induced the accumulation of IAF tissues rich in type II collagen and aggrecan, without altering the accumulation of type I collagen in OAF tissues. Dexamethasone stimulated mitochondrial membrane potential in both tissues in the presence of sodium pyruvate, suggesting a relationship between the mitochondrial aerobic respiratory state and dexamethasone signalling during the in vitro‐tissue formation by OAF and IAF cells. Inhibition of the glucocorticoid receptor blocked the stimulation of mitochondrial membrane potentials and type II collagen accumulation. In summary, biologically distinct multi‐lamellated OAF and IAF tissues can be generated, which will facilitate advancement towards the goal of engineering a biological IVD replacement. © 2017 Orthopaedic Research Society. Published by Wiley Periodicals, Inc. J Orthop Res 36:1346–1355, 2018.