Many secreted eukaryotic glycoproteins that play fundamental roles in development, hearing, immunity, and cancer polymerize into filaments and extracellular matrices through zona pellucida (ZP) domains. ZP domain proteins are synthesized as precursors containing C-terminal propeptides that are cleaved at conserved sites. However, the consequences of this processing and the mechanism by which nascent proteins assemble are unclear. By microinjection of mutated DNA constructs into growing oocytes and mammalian cell transfection, we have identified a conserved duplicated motif [EHP (external hydrophobic patch)͞IHP (internal hydrophobic patch)] regulating the assembly of mouse ZP proteins. Whereas the transmembrane domain (TMD) of ZP3 can be functionally replaced by an unrelated TMD, mutations in either EHP or IHP do not hinder secretion of full-length ZP3 but completely abolish its assembly. Because mutants truncated before the TMD are not processed, we conclude that the conserved TMD of mammalian ZP proteins does not engage them in specific interactions but is essential for C-terminal processing. Cleavage of ZP precursors results in loss of the EHP, thereby activating secreted polypeptides to assemble by using the IHP within the ZP domain. Taken together, these findings suggest a general mechanism for assembly of ZP domain proteins.T he zona pellucida (ZP) domain is a protein polymerization module of Ϸ260 aa (1). Since its identification in mouse ZP glycoproteins (2), this domain has been found in many extracellular eukaryotic proteins of diverse molecular architecture and biological function (2, 3). These include egg coat proteins, inner ear proteins, urinary and pancreatic proteins, transforming growth factor- receptors, immune defense proteins, nematode cuticle components, and fly proteins involved in transmission of mechanical stimuli and in wing and tracheal morphogenesis (4).We study the ZP (3), an extracellular coat secreted by growing mouse oocytes, as a model for ZP domain protein maturation and assembly. The ZP consists of long filaments composed of ZP2 and ZP3, crosslinked by a third ZP domain protein, ZP1. Nascent ZP polypeptides have features in common with other ZP domain proteins (2-4) that include an N-terminal signal sequence (SP), a ZP domain, and a consensus furin cleavage site (CFCS). The latter is followed by a C-terminal propeptide containing a transmembrane domain (TMD) and short cytoplasmic tail (Fig. 1A) that are replaced by a glycosyl phosphatidylinositol anchor in some ZP domain proteins. During secretion, but before incorporation into the ZP, a furin-like enzyme excises the propeptide from ZP precursors by cleavage at the CFCS (5-8). C-terminal processing of precursors also occurs for ZP homologues from fish to birds (9-11), as well as for other . Recombinant ZP proteins synthesized from cDNAs mutated at the CFCS are not secreted and accumulate in the endoplasmic reticulum of transfected cells (15)(16)(17). Recently, assembly of ZP proteins was studied by microinjection of epitope-tagge...
