The supramolecular organization of collagen VI microfibrils

Collagen VI has a ubiquitous distribution throughout connective tissues, and has key roles in linking cells and matrix macromolecules. We have generated three-dimensional reconstructions of collagen VI microfibrils using automated electron tomography (AET) in order to obtain new insights into the organisation of collagen VI in assembled microfibrils. Analysis of the reconstruction data has allowed the resolution of the double-beaded structure into smaller subunits. Volume calculations from the tomography data indicate that ten and six A-domains could be packed into the N and C-terminal regions from each monomer, respectively. A putative location for the globular N-terminal regions of the α3 chain, important for microfibril assembly and function, has been identified. Some surfaces of the α3 chain N-terminal domains appear to be exposed on the surface of a microfibril, where they may provide an interactive surface for molecules. Analysis of the interbead region provides evidence for complex triple helical supercoiling in microfibrils. Frequently, two strands were visualised emerging from the beaded region and merging into a single interbead region. Measurements taken from the AET data show that there is a decrease in periodicity from dimer/tetramer to microfibrils. Molecular combing reverses this effect by mechanically increasing periodicity to give measurements similar to the component dimers/tetramers. Together, these data have provided important new insights into the organisation and function of these large macromolecular assemblies. © 2003 Elsevier Science Ltd. All rights reserved.