Abstract
The zona pellucida (ZP) surrounding the oocyte is an extracellular fibrillar matrix that plays critical roles during fertilization including species-specific gamete recognition and protection from polyspermy. The mouse ZP is composed of three proteins, ZP1, ZP2, and ZP3, all of which have a ZP polymerization domain that directs protein fibril formation and assembly into the three-dimensional ZP matrix. Egg coats surrounding oocytes in nonmammalian vertebrates and in invertebrates are also fibrillar matrices and are composed of ZP domain-containing proteins suggesting the basic structure and function of the ZP/egg coat is highly conserved. However, sequence similarity between ZP domains is low across species and thus the mechanism for the conservation of ZP/egg coat structure and its function is not known. Using approaches classically used to identify amyloid including conformation-dependent antibodies and dyes, X-ray diffraction, and negative stain electron microscopy, our studies suggest the mouse ZP is a functional amyloid. Amyloids are cross-β sheet fibrillar structures that, while typically associated with neurodegenerative and prion diseases in mammals, can also carry out functional roles in normal cells without resulting pathology. An analysis of the ZP domain from mouse ZP3 and ZP3 homologs from five additional taxa using the algorithm AmylPred 2 to identify amyloidogenic sites, revealed in all taxa a remarkable conservation of regions that were predicted to form amyloid. This included a conserved amyloidogenic region that localized to a stretch of hydrophobic amino acids previously shown in mouse ZP3 to be essential for fibril assembly. Similarly, a domain in the yeast protein α-agglutinin/Sag 1p, that possesses ZP domain-like features and which is essential for mating, also had sites that were predicted to be amyloidogenic including a hydrophobic stretch that appeared analogous to the critical site in mouse ZP3. Together, these studies suggest that amyloidogenesis may be a conserved mechanism for ZP structure and function across billions of years of evolution.
Highlights
The zona pellucida (ZP) is an extracellular matrix surrounding the mammalian oocyte that carries out multiple functions during fertilization including protection from polyspermy and PLOS ONE | DOI:10.1371/journal.pone.0129907 June 4, 2015Zona Pellucida and Amyloid cross-species fertilization
Using approaches commonly used to identify amyloids, including conformation-dependent reagents, electron microscopy, and X-ray diffraction, our studies suggest that all three ZP proteins are amyloidogenic and contribute to the formation of the ZP amyloid
These results are consistent with previous reports indicating that all ZP protein can form fibrils and that ZP1-ZP3 and ZP2-ZP3 heterodimers contribute to the formation of the ZP matrix [11, 43]
Summary
The zona pellucida (ZP) is an extracellular matrix surrounding the mammalian oocyte that carries out multiple functions during fertilization including protection from polyspermy and PLOS ONE | DOI:10.1371/journal.pone.0129907 June 4, 2015Zona Pellucida and Amyloid cross-species fertilization. Each ZP protein can form homopolymers, formation of ZP filaments requires interaction between ZP3 (type I ZP domain subunit) and ZP1 or ZP2 (type II ZP domain subunit) proteins [3, 6]. In addition to the ZP polymerization domain present in all ZP proteins, ZP1 and ZP2 possess additional ZP-N repeats in N-terminal extensions of the protein. These ZP-N repeat domains are found only in ZP/egg coat proteins in species whose ZP is responsible for species-specific interactions with spermatozoa suggesting an important role for the ZP-N repeat domain in gamete recognition [7]
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