Calcium Determines the Supramolecular Organization of Fibrillin-rich Microfibrils

doi:10.1083/jcb.141.3.829

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J. Cell Biol., Volume 141, Number 3, May 4, 1998 829-837

Calcium Determines the Supramolecular Organization of Fibrillin-rich Microfibrils

T.J. Wess,^* P.P. Purslow, M.J. Sherratt,^§ J. Ashworth,^§ C.A. Shuttleworth,^§ and C.M. Kielty^§

^* Department of Biological and Molecular Sciences, University of Stirling, Stirling FK9 4LA, United Kingdom; The Royal Veterinary and Agricultural University, 1958 Fredriksberg C, Copenhagen, Denmark; and ^§ School of Biological Sciences, University of Manchester, Manchester M13 9PT, United Kingdom

Microfibrils are ubiquitous fibrillin-rich polymers that are thought to provide long-range elasticity to extracellular matrices,including the zonular filaments of mammalian eyes. X-ray diffractionof hydrated bovine zonular filaments demonstrated meridional diffractionpeaks indexing on a fundamental axial periodicity (D) of ~56 nm.A Ca²⁺-induced reversible change in the intensities of the meridionalBragg peaks indicated that supramolecular rearrangements occurredin response to altered concentrations of free Ca²⁺. In the presence of Ca²⁺, the dominant diffracting subspecies were microfibrils alignedin an axial 0.33-D stagger. The removal of Ca²⁺ caused an enhanced regularity in molecular spacing of individualmicrofibrils, and the contribution from microfibrils not involvedin staggered arrays became more dominant. Scanning transmissionelectron microscopy of isolated microfibrils revealed that Ca²⁺ removal or addition caused significant, reversible changes inmicrofibril mass distribution and periodicity. These results wereconsistent with evidence from x-ray diffraction. Simulated meridionalx-ray diffraction profiles and analyses of isolated Ca²⁺-containing, staggered microfibrillar arrays were used to interpretthe effects of Ca²⁺. These observations highlight the importance of Ca²⁺ to microfibrils and microfibrillar arrays in vivo.

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