Conserved pattern of embryonic actin gene expression in several sea urchins and a sand dollar

An examination of the size and relative abundance of actin-coding RNA in embryos of four sea urchins (Strongylocentrotus purpuratus, Strongylocentrotus droebachiensis, Arbacia punctulata, Lytechinus variegatus) and one sand dollar (Echinarachnius parma) reveals a generally conserved program of expression. In each species the relative abundance of these sequences is low in early embryos and begins to rise during late cleavage or blastula stages. In the four sea urchins, actin-coding RNAs increase between approximately 9- and 35-fold by pluteus or an earlier stage, and in the sand dollar about 5.5-fold by blastula. A major actin-coding RNA class of 2.0-2.2 kilobases (kb) is found in each species. A smaller actin-coding RNA class, which accumulates during embryogenesis, is also present in S. purpuratus (1.8 kb), S. droebachiensis (1.9 kb), and A. punctulata (1.6 kb), but apparently absent in L. variegatus and E. parma. In S. droebachiensis, actin-coding RNA is relatively abundant in unfertilized eggs and drops sharply by the 16-cell stage. This is in contrast to the other sea urchins where the actin message content is relatively low in eggs and does not change substantially in the embryos throughout early cleavage. The observations in this study suggest that the pattern of embryonic expression of at least some members of this gene family is ancient and conserved.     

Isolation and characterization of developmentally regulated sea urchin U2 snRNA genes

Genes encoding the U2 snRNA have been isolated from the sea urchins, Strongylocentrotus purpuratus and Lytechinus variegatus. Representatives of tandemly repeated gene sets have been isolated from both sea urchin species and a unique U2 gene has also been isolated from L. variegatus. The sequence of the U2 snRNA encoded by the tandemly repeated genes differs in two nucleotides between S. purpuratus and L. variegatus. The unique U2 gene from L. variegatus encodes the same U2 RNA as the tandemly repeated genes. There is a change in the U2 genes expressed between morula and pluteus embryos as judged by a change in the U2 RNA sequence in S. purpuratus embryos. The tandemly repeated genes were expressed at a higher rate in blastula than in gastrula stage relative to the single-copy gene, when the two genes were injected into sea urchin zygotes.     

The U1 snRNA gene repeat from the sea urchin (Strongylocentrotus purpuratus): the 70 kilobase tandem repeat ends directly 3'' to a U1 gene.

Lambda phage clones containing multiple copies of the 1.1 kb tandemly repeated unit of the sea urchin (S. purpuratus) U1 RNA genes were isolated from a gene library. The 1.1 kb repeat unit encodes a single copy of the predominant U1 RNA expressed in oocytes and embryos prior to the blastula stage. The tandem repeat unit is about 80 kb in size and is probably present one time per haploid genome as judged by pulsed-field electrophoresis of sperm DNA digested with restriction enzymes which do not cut in the repeat unit. Two of the phage contained DNA flanking the repeat unit as well as several repeat units. The tandem repeat unit ends just 3' to the U1 coding region. There is only limited homology in the 5' flanking region with U1 snRNA genes from the sea urchin L. variegatus.     

Dynamics of Ubiquitin Pools in Developing Sea Urchin Embryos

The sea urchin embryo is a closed metabolic system in which embryogenesis is accompanied by significant protein degradation. We report results which are consistent with a function for the ubiquitinmediated proteolytic pathway in selective protein degradation during embryogenesis in this system. Quantitative solid- and solution-phase immunochemical assays, employing anti-ubiquitin antibodies, showed that unfertilized eggs of Strongylocentrotus purpuratus have a high content of unconjugated ubiquitin ( ca . 8 × 10⁸ molecules), and also contain abundant conjugates involving ubiquitin and maternal proteins. The absolute content of ubiquitin in the conjugated form increases about 13-fold between fertilization and the pluteus larva stage; 90% or more of embryonic ubiquitin molecules are conjugated to embryonic proteins in hatched blastulae and later-stage embryos. Qualitatively similar results were obtained with embryos of Lytechinus variegatus . The results of pulse-labeling and immunoprecipitation experiments indicate that synthesis of ubiquitin in S. purpuratus is developmentally regulated, with an overall increase in synthetic rate of 12-fold between fertilization and hatching. Regulation is likely to occur at the level of translation, since others have shown that levels of ubiquitin-encoding mRNA remain virtually constant in echinoid embryos during this developmental interval. The sea urchin embryo should be a useful system for characterizing the role of ubiquitination in embryogenesis.     

Plasma membrane proteins of embryo cells of various sea urchin species and hybrid embryo]

Differences are observed in plasma membrane proteins of S. intermedius and S. droebachiensis sea urchin embryo cells isolated at middle blastula stage by means of acrylamide-gel electrophoresis in presence of SDS, urea or non-ionic detergents--Triton X-100 or Brij 35. Electrophoretic mobilities of plasma membrane proteins of sea urchin hybrid embryo malemale S. intermedius X femalefemale S. droebachiensis were identical with electrophoretic mobilities of plasma membrane proteins of maternal species S. droebachiensis. Three sea urchin embryo species under study had just the same biosynthesis of plasma membrane proteins at middle blastula stage detected by 14C-aminoacids pulse-labeling followed by membrane isolation, electrophoresis and gel-autoradiography.     

The role of lysyl oxidase and collagen crosslinking during sea urchin development

Lysyl oxidase, the only enzyme involved in collagen crosslinking, is shown to be present in embryos of the sea urchin Strongylocentrotus purpuratus. The enzyme specific activity increases over six-fold during development, showing the greatest rise during gastrulation and prism larva formation. The enzyme is inhibited by the specific inhibitor, beta-aminoproprionitrile (BAPN). Continuous BAPN treatment of S. purpuratus and Lytechinus pictus embryos from late cleavage stages onward increases the amount of noncrosslinked collagen present in prism larvae. When BAPN is added at the 128- or 256-cell stage it causes developmental arrest at the mesenchyme blastula stage. Embryos can be maintained in the arrested state for at least 96 h and will resume normal development and morphogenesis following BAPN removal. If BAPN is added after the mesenchyme blastula stage, it has little adverse effect on development; consequently nonspecific toxic effects of the drug are unlikely. The results suggest that lysyl oxidase and collagen crosslinking play a vital role in primary mesenchyme migration, gastrulation, and morphogenesis during sea urchin development and indicate that BAPN may be very useful in studying the extracellular matrix-cell interactions at the cellular and molecular level.     

The Relative Contributions of Newly Synthesized and Stored Messages to Hl Histone Synthesis in Interspecies Hybrid Echinoid Embryos

We have measured the ratio of incoropation of ³H-lysine into the maternal and paternal forms of Hl histones synthesized by the interordinal hybrid embryo which results from the fertilization of sand dollar eggs with sea urchin sperm. This ratio has been used to calculate the relative contributions of newly transcribed and stored Hl histone mRNA to the synthesis of Hl histone at five different stages of development. These calculations are based on the assumption that histone mRNA of both parental types is transcribed with equal efficiency from the genome and that these RNAs are translated with equal efficiency in the cytoplasm of the hybrid embryos. On this basis, we have estimated that the contribution of new mRNA respresents 80% of total Hl histone synthesis at the 16–32 cell stage, 54% at the hatching blastula stage, 40% at the mesenchyme blastula stage, and 100% after gastrulation.
These data are discussed in the light of presently known parameters of histone and histone mRNA synthesis in echinoderm embryos.     

The relative contributions of newly synthesized and stored messages to Hl histone synthesis in interspecies hybrid echinoid embryos.

We have measured the ratio of incorporation of 3H-lysine into the maternal and paternal forms of Hl histones synthesized by the interordinal hybrid embryo which results from the fertilization of sand dollar eggs with sea urchin sperm. This ratio has been used to calculate the relative contributions of newly transcribed and stored Hl histones mRNA to the synthesis of Hl histone at five different stages of development. These calculations are based on the assumption that histone mRNA of both parental types is transcribed with equal efficiency from the genome and that these RNAs are translated with equal efficiency in the cytoplasm of the hybrid embryos. On this basis, we have estimated that the contribution of new mRNA represents 80% of total Hl histone synthesis at the 16--32 cell stage, 54% at the hatching blastula stage, 40% at the mesenchyme blastula stage, and 100% after gastrulation. These data are discussed in the light of presently known parameters of histone and histone mRNA synthesis in echinoderm embryos.     

Function of a sea urchin egg Src family kinase in initiating Ca2+ release at fertilization

Egg activation at fertilization requires the release of Ca(2+) from the egg's endoplasmic reticulum, and recent evidence has indicated that a Src family kinase (SFK) may function in initiating this signaling pathway in echinoderm eggs. Here, we identify and characterize a SFK from the sea urchin Strongylocentrotus purpuratus, SpSFK1. SpSFK1 RNA is present in eggs, and an antibody made against a SpSFK1 peptide recognizes an approximately 58-kDa egg membrane-associated protein in eggs of S. purpuratus as well as another sea urchin Lytechinus variegatus. Injection of both species of sea urchin eggs with dominant-interfering Src homology 2 domains of SpSFK1 delays and reduces the release of Ca(2+) at fertilization. Injection of an antibody against SpSFK1 into S. purpuratus eggs also causes a small increase in the delay between sperm-egg fusion and Ca(2+) release. In contrast, when injected into eggs of L. variegatus, this same antibody has a dramatic stimulatory effect: it causes PLCgamma-dependent Ca(2+) release like that occurring at fertilization. Correspondingly, in lysates of L. variegatus eggs, but not S. purpuratus eggs, the antibody stimulates SFK activity. Injection of L. variegatus eggs with another antibody that recognizes the L. variegatus egg SFK also causes PLCgamma-dependent Ca(2+) release like that at fertilization. These results indicate that activation of a Src family kinase present in sea urchin eggs is necessary to cause Ca(2+) release at fertilization and is capable of stimulating Ca(2+) release in the unfertilized egg via PLCgamma, as at fertilization.     

Molecular cloning of the ets proto-oncogene of the sea urchin and analysis of its developmental expression

The locus SU(Lv)-ets-2 of the sea urchin Lytechinas variegatus related to the oncogene v-ets of avian erythroblastosis virus E26 has been molecularly cloned. The cloned DNA was found to contain a region with a high degree of homology to E26 v-ets. The sea urchin homology with v-ets starts at a consensus splice acceptor sequence and stops at the point where homology between v-ets and human c-ets ends. This region corresponds to the Hu-ets-2 homologous sequences defined by Watson et al. (1985, Proc. Natl. Acad. Sci, USA 82, 7294-7298). Ninety-one out of 97 (or 94%) predicted amino acids are identical between sea urchin c-ets and E26 v-ets over the region of homology. This degree of homology exceeds the maximum homology previously found between any oncogene and an invertebrate homolog. A somewhat weaker homology with the Hu-ets-2 sequences continues beyond, for 13 codons, ending at a common termination codon. Northern blot analysis of mature unfertilized eggs and early embryos from sea urchins of the species Strongylocentrotus purpuratus revealed a single 6.8-kb ets-related RNA that is expressed at a maximum level during the early stages of embryonic development. This RNA species is polyadenylated indicating that it is the message for the sea urchin ets-2 gene.