Abstract
Fibrillin microfibrils are polymeric structures present in connective tissues. The importance of fibrillin microfibrils to connective tissue function has been demonstrated by the multiple genetic disorders caused by mutations in fibrillins and in microfibril-associated molecules. However, knowledge of microfibril structure is limited, largely due to their insolubility. Most previous studies have focused on how fibrillin-1 is organized within microfibril polymers. In this study, an immunochemical approach was used to circumvent the insolubility of microfibrils to determine the role of fibrillin-2 in postnatal microfibril structure. Results obtained from studies of wild type and fibrillin-1 null tissues, using monoclonal and polyclonal antibodies with defined epitopes, demonstrated that N-terminal fibrillin-2 epitopes are masked in postnatal microfibrils and can be revealed by enzymatic digestion or by genetic ablation of Fbn1. From these studies, we conclude that fetal fibrillin polymers form an inner core within postnatal microfibrils and that microfibril structure evolves as growth and development proceed into the postnatal period. Furthermore, documentation of a novel cryptic site present in EGF4 in fibrillin-1 underscores the molecular complexity and tissue-specific differences in microfibril structure.
Highlights
Fibrillins are ubiquitous extracellular matrix molecules that assemble into microfibrils [1,2,3]
We found that polymerized fibrillin-1 microfibrils in the Fbn2 null spinal cord were available for binding by monoclonal antibodies (mAbs) 689, without enzymatic unmasking (Fig. 10E)
Little is known about the contributions of fibrillin-2 to microfibril structure
Summary
Abnormalities, we have performed additional immunochemical investigations of fibrillin-2 in postnatal microfibrils. Using this approach, we report results that demonstrate that fibrillin-2 is present, but masked, in postnatal tissues. Results obtained using Fbn null mice suggest a new model of microfibril structure in which fibrillin-2 forms a core within the microfibril, a core that is overlaid at least by fibrillin-1. We show that masked epitopes in fibrillin-1 and in fibrillin-2 are differentially masked or available, depending on the type of tissue. These are the first results that demonstrate tissue-specific differences in microfibril structure. New concepts of microfibril structure have emerged
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