SEC-23 is a component of coat protein complex II (COPII)-coated vesicles involved in the endoplasmic reticulum-to-Golgi transport pathway of eukaryotes. During postembryonic life, Caenorhabditis elegans is surrounded by a collagenous exoskeleton termed the cuticle. From a screen for mutants defective in cuticle secretion, we identified and characterized a sec-23 mutant of C. elegans. By sequence homology, C. elegans has only the single sec-23 gene described herein. In addition to the cuticle secretion defect, mutants fail to complete embryonic morphogenesis. However, they progress through the earlier stages of embryogenesis, including gastrulation, and achieve substantial morphogenesis before death. We demonstrated a maternal component of SEC-23 function sufficient for progression through the earlier stages of embryogenesis and explaining the limited phenotype of the zygotic mutant. By RNA-mediated interference, we investigated the effects of perturbing COPII function during various postembryonic stages. During larval stages, major defects in cuticle synthesis and molting were observed. In the adult hermaphrodite, reduction of SEC-23 function by RNAmediated interference caused a rapid onset of sterility, with defects in oogenesis including early maturation of the germline nuclei, probably a result of the observed loss of the GLP-1 receptor from the membrane surfaces adjacent to the developing germline nuclei.
INTRODUCTIONThe cuticle of the nematode Caenorhabditis elegans is a collagenous extracellular matrix (ECM) synthesized by a specialized underlying ectodermal cell layer, termed the hypodermis, that surrounds the body of the animal. During its life cycle, C. elegans synthesizes this ECM on five occasions, once in the embryo before hatching and then at the end of each larval stage before molting. During each synthesis, the components of the cuticle are secreted apically from the hypodermal cells and then polymerize on the outside of the apical surface. The cuticle consists predominantly of small collagens encoded by a multigene family. The nematode cuticle collagens share a common overall structure, the procollagen chains being ϳ30 kDa and having short, interrupted blocks of Gly-X-Y collagen sequence and clusters of conserved cysteine residues (Kramer, 1997;Johnstone, 2000). They are most similar to the nonfibrillar FACIT collagens of vertebrates (Shaw and Olsen, 1991).For the fibrillar collagens of vertebrates, trimerization of monomers occurs within the endoplasmic reticulum (ER). Hydroxylation of a proportion of the proline residues within the repeat domains is required to stabilize the collagen structures (Kivirikko and Pihlajaniemi, 1998). This reaction is catalyzed by prolyl 4-hydroxylase, an ER enzyme that also acts as a molecular chaperone by retaining unfolded collagen chains in the ER, releasing them for transport to the Golgi apparatus for further processing only when they have folded correctly (Walmsley et al., 1999). Although less is known about the assembly and secretion of the nematode cuticula...
