Characterization of the hatching enzyme from embryos of an anuran amphibian, Rana pirica

Microplastics and TiO2 nanoparticles mixture as an emerging threat to amphibians: A case study on bullfrog embryos

Emerging contaminants can act as contributing factors to the decline of amphibian populations worldwide. Recently, scientists have drawn attention to the potential ecotoxicity of microplastics and nanomaterials in amphibians, however, their possible effects on embryonic developmental stages are still absent. Thus, the present study analyzed the developmental toxicity of environmentally relevant concentrations of polyethylene microplastics (PE MPs; 60 mg/L) and titanium dioxide nanoparticles (TiO2 NPs; 10 μg/L), isolated or in combination (Mix group) on bullfrog embryos, Aquarana catesbeiana, adapting the Frog Embryo Teratogenesis Assay (FETAX, 96h). Allied to the FETAX protocol, we also analyzed the heart rate and morphometric data. The exposure reduced the survival and hatching rates in groups exposed to TiO2 NPs, and to a lesser extent, also affected the Mix group. TiO2 NPs possibly interacted with the hatching enzymes of the embryos, preventing hatching, and reducing their survival. The reduced effects in the Mix group are due to the agglomeration of both toxicants, making the NPs less available for the embryos. PE MPs got attached to the gelatinous capsule of the chorion (confirmed by fluorescence microscopy), which protected the embryos from eventual direct effects of the microplastics on the hatching and survival rates. Although there were no cardiotoxic effects nor morphometric alterations, there was a significant increase in abdominal edemas in the hatched embryos of the PE MPs group, which indicates that osmoregulation might have been affected by the attachment of the microplastics on the embryos' gelatinous capsule. This study presents the first evidence of developmental toxicity of environmental mixtures of microplastics and nanoparticles on amphibians and reinforces the need for more studies with other amphibian species, especially neotropical specimens that could present bigger sensibility. Our study also highlighted several features of the FETAX protocol as useful tools to evaluate the embryotoxicity of several pollutants on amphibians.

The hatching process and mechanisms of adaptive hatching acceleration in hourglass treefrogs, Dendropsophus ebraccatus

Environmentally cued hatching is well documented in anurans, enabling embryos to escape diverse threats. However, knowledge of anuran hatching mechanisms is limited and based largely on aquatic-breeding species without known plasticity in hatching timing. Generally, hatching gland cells produce a hatching enzyme that degrades the vitelline membrane. We investigated hatching and its regulation in terrestrial embryos of hourglass treefrogs, Dendropsophus ebraccatus, which accelerate hatching to escape dehydration. We specifically tested if changes in hatching gland cell development or hatching enzyme gene expression are associated with accelerated hatching. We measured perivitelline chamber size of well-hydrated eggs over development as an indicator of breakdown of the vitelline membrane and found that the size of the perivitelline chamber increased steadily until hatching, suggesting gradual hatching enzyme release and vitelline membrane degradation. Hatching gland cells peaked in abundance and began regression substantially prior to hatching, but we found no developmental differences in the abundance or surface area of hatching gland cells between dry and well-hydrated embryos. Hatching enzyme gene expression also peaked early in development then declined, with no difference between hydration treatments. In D. ebraccatus breakdown of the vitelline membrane appears gradual, mediated by hatching enzyme release starting long before hatching. However, hatching acceleration is not associated with ontogenetic changes in hatching gland cell development or hatching enzyme gene expression. This hatching process contrasts with that of red-eyed treefrogs, Agalychnis callidryas, which appear to release enzyme acutely at hatching, yet both species are capable of hatching to escape acute threats.

Characterization of a novel hatching enzyme purified from starfish Asterina pectinifera

Hatching enzyme is a protease which can degrade the membrane of egg. In this study, a hatching enzyme was purified from starfish (Asterina pectinifera) with 6.34 fold of purification rate, 5.04 % of yield, and 73.87 U/mg of specific activity. The molecular weight of starfish hatching enzyme was 86 kDa, which was reduced to 62 kDa after removal of N-linked oligosaccharides. The optimal pH and temperature of the hatching enzyme activity were pH 7.0 and 40 °C, respectively, while those of stability were pH 8 and 20 °C. The kinetic parameters, V_max, K_m, K_cat and K_cat/K_m values were 0.197 U/ml, 0.289 mg/ml, 112.57 s⁻¹, and 389.52 ml/mg s, respectively. Zn²⁺ increased the enzyme activity by 167.28 %, while EDTA, TPCK, TGCK, leupeptin, PMSF, and TLCK decreased. In addition, Ca²⁺, Mg²⁺, and Cu²⁺ did not affect the enzyme activity. The starfish hatching enzyme activity pretreated with EDTA was recovered by Zn²⁺. Therefore, the starfish hatching enzyme was classified as a serine-zinc protease.

A novel hatching enzyme from starfish Asterias amurensis: purification, characterization, and cleavage specificity

Hatching enzyme (HE) is of importance to degrade egg membrane to let the larvae be free. HE was purified and characterized from starfish blastula. The specific activity and the purification ratio of the purified HE with 110.9 kDa of molecular weight were 449.62 U/mg and 7.42-fold, respectively. Its optimal pH and temperature for activity were pH 8.0 and 30 °C, respectively. This enzyme was relatively stable in the range of pH 4.0-6.0 and 30-40 °C. This enzyme was inhibited by ethylene diamine tetraacetic acid (EDTA) and ethylene glycol tetraacetic acid, and also done moderately by Leupeptin, tosyl-lysine chloromethyl ketone, tosyl-phenylalanine chloromethyl ketone, and phenyl-methanesulfonyl fluoride. Zn(2+) ion activated HE activity strongly and recovered the EDTA-pretreated activity more than did Ca(2+), Mg(2+), and Cu(2+). Based on the results above, the starfish HE was classified as a zinc metallo- and trypsin-like serine protease. The values of Km, Vmax, and Kcat of the starfish HE on dimethyl casein were 0.31 mg/ml, 0.17 U/ml, and 122.70 s(-1), respectively, whereas 1.09 mg/ml, 0.12 U/ml, and 771.98 s(-1) on type I collagen. Therefore, the starfish HE could be a potential cosmeceutical because of its strong cleavage specificity on type I collagen.

Molecular cloning and characterization of hatching enzyme-like geneII (BmHELII) in the silkworm, Bombyx mori

Hatching enzyme (HE) is an enzyme that digests an egg envelop at the time of embryo hatching. Previously, we have reported a kind of Bombyx mori hatching enzyme-like gene (BmHEL). In this paper, the full length of another BmHEL cDNA sequence (BmHELII, GenBank ID: JN627443) was cloned from bluish-silkworm-eggs. The cDNA was 977 bp in length with an open reading frame of 885 bp which encodes a polypeptide of 294 amino acids including a putative signal peptide of 16 amino acid residues and a mature protein of 278 amino acids. The deduced BmHELII had a predicted molecular mass of 33.62 kDa, isoelectric point of 5.44 and two conserved signature sequences of astacin family. Bioinformatic analysis results showed that the deduced protease domain amino acid sequence of BmHELII had 29.5-87.0% identities to that of HE identified in the other species. The BmHELII gene structure was 6-exon-5-intron, and the promoter region harbored some basal promoter elements and some embryo development related transcription factor binding sites. Semi-quantitative RT-PCR analysis revealed that the relative level of BmHELII transcripts at different stages during egg incubation increased with the development of embryos and reached to a maximum just before hatching, hence declined gradually after hatching. The spatio-temporal expression pattern of BmHELII basically resembled that of hatching enzyme gene. Moreover, the BmHELII transcript was detected in testis of the silkworm, and semi-quantitative RT-PCR analysis showed that it kept at the high level in testis of silkworm from larvae to moth, which suggested that BmHELII might take part in the development of sperm. These results will be helpful to provide a molecular basis for understanding the mechanism underlying silkworm hatching as well as spermatogenesis.

Purification and characterization of hatching enzyme from brine shrimp Artemia salina

By using Artemia chorion as a specific substrate, the hatching enzyme from Artemia salina (AHE) was purified by gel-filtration and ion-exchange chromatography, and characterized biochemically and enzymatically in this study. It was found that the AHE had a molecular weight of 82.2 kDa by sodium dodecyl sulfate-polyacrylamide gel electrophoresis, and often contained 73.3 kDa molecules in preparation. The AHE had obvious choriolytic activity, which was optimal at pH 7.0 and a temperature of 408C. The Km value of the AHE for dimethyl casein was 8.20 mg/ml. The AHE activity was almost completely inhibited by soybean trypsin inhibitor and p-amidinophenyl methane sulfonyl fluoride hydrochloride, greatly inhibited by N-tosyl-L-lysyl chloromethyl ketone, phenylmethanesulfonyl fluoride, and lima bean trypsin inhibitor, slightly inhibited by pepstatin, N-tosyl-L-phenylalanyl chloromethyl ketone, leupeptin, N-ethylmaleimide, and iodoacetamide, and not inhibited by chymostatin and bestatin. All these results imply that AHE is most probably a trypsin-type serine protease. Besides of these, AHE was also sensitive to EDTA and Zn21. Combined with the results that the EDTA-pre-treated HE activity could be perfectly recovered by Zn21, it is indicated that AHE might be also a kind of Zn-metalloprotease.

Hatching mechanism of the Chinese soft-shelled turtle Pelodiscus sinensis

The mechanism by which the embryo hatches out of the egg envelope, the vitelline membrane and egg white, was studied in the Chinese soft-shelled turtle Pelodiscus sinensis. The cDNA of the turtle hatching enzyme (HE) was 1555bp-long and a mature enzyme of 321 amino acids. The mature HE was composed of an astacin protease domain of 200 amino acids and a CUB domain of 121 amino acids, and the estimated molecular size was 35,311. The protease domain contained two active site consensus sequences, HExxHxxGFxHExxRxDR and MHY. An immunoblotting test of an extract of allanto-chorions revealed a 40-kDa band by cross-reaction with the anti-Xenopus HE antiserum. The first change in the envelopes was the appearance of a hole, 1mm in diameter, at the location around the animal pole of day 8 incubation eggs. A cluster of tall cells, forming a circle in the avascular chorion of day 8 embryos and facing the edge of the hole, had various sizes of inclusion bodies and secretory granules that were labeled by immuno-electron microscopic staining with the antiserum. The egg envelopes were degraded gradually from the animal pole side towards the vegetal pole side in accordance with translocation of the avascular site of the chorion in the same direction. Labeled cells degenerated, presumably when the chorion was underlain by allantois in succeeding developmental stages. The vitelline membrane and egg white were totally digested, presumably by secreted HE, during the hatching period and were consumed for embryonic growth.

Free-radical crosslinking of specific proteins alters the function of the egg extracellular matrix at fertilization

All animal embryos begin development by modifying the egg extracellular matrix. This protein-rich matrix protects against polyspermy, microbes and mechanical stress via enzyme-dependent transformations that alter the organization of its constituents. Using the sea urchin fertilization envelope,a well-defined extracellular structure formed within minutes of fertilization,we examine the mechanisms whereby limited permeability is established within this matrix. We find that the fertilization envelope acquires a barrier filtration of 40,000 daltons within minutes of insemination via a peroxidase-dependent mechanism, with dynamics that parallel requisite production of hydrogen peroxide by the zygote. To identify the molecular targets of this free-radical modification, we developed an in vivo technique to label and isolate the modified matrix components for mass spectrometry. This method revealed that four of the six major extracellular matrix components are selectively crosslinked, discriminating even sibling proteins from the same gene. Thus, specific free-radical chemistry is essential for establishing the embryonic microenvironment of early development.

Purification and characterization of hatching enzyme from shrimp Penaeus chinensis

By using Penaeus chorion as a specific substrate, the hatching enzyme (HE) from Penaeus chinensis was purified by gel-filtration and ion-exchange chromatography, and characterized in terms of its molecular weight and enzymatic properties in this study. It was found that the molecular weight of Penaeus HE is about 43.0 kDa in SDS-PAGE. The Penaeus HE had obvious choriolytic activity, which was optimal at pH 6.0 and temperature of 40 degrees C, respectively. The Km value of the HE for casein was 7.47 mg ml(-1). The HE activity was almost completely inhibited by SBTI, p-APMSF, bestatin, and NEM, greatly inhibited by ovomucoid, TLCK, IAM, chymostatin, and PMSF, and slightly inhibited by pepstatin A, TPCK, LBTI, and leupeptin. These results indicate that the HE is most probably a trypsin-type serine protease. Besides of these, the HE was extremely sensitive to EDTA, Zn2+, Ca2+, Mg2+, and Cu2+. Combined with the results that the EDTA-pretreated HE activity could be perfectly recovered by Zn2+, it is indicated that shrimp HE is most probably a kind of Zn-metalloprotease.

Purification and characterization of hatching enzyme from flounder Paralichthys olivaceus

Using chorion of Paralichthys as a specific substrate, hatching enzyme (HE) from Paralichthys olivaceus (PHE) was purified by gel-filtration and ion-exchange chromatography, and characterized in terms of its molecular weight and enzymatic properties in this study. It was found that the molecular size of PHE is about 34.8 kDa in SDS-PAGE. The PHE had obvious choriolytic activity, which was optimal at pH 7.0 and temperature of 35 degrees C, respectively. The Km value of the PHE for casein was 4.28 mg ml(-). The PHE was very sensitive to trypsin-specific inhibitors, especially serine protease-specific inhibitors, such as LBTI, SBTI, bestatin and p-APMSF, leupeptin, ovomucoid, PMSF, pepstatin A and TLCK, indicates that it is a trypsin-type serine protease. The PHE was also extremely sensitive to Cu(2+) and Ca(2+), combined with the results that it was inhibited by EDTA in a dose-dependent manner, indicates this PHE is also a kind of metalloprotease.

Cloning of a quail homologue of hatching enzyme: its conserved function and additional function in egg envelope digestion

The aim of the present study was to reveal molecular entities participating in the digestion of the egg envelope in the Japanese quail, Coturnix japonica. We isolated a 1,510-bp cDNA from extraembryonic tissues of developing embryos and designated it quail hatching enzyme (QHE) cDNA. The QHE cDNA was found to code a protein molecule comprising an astacin protease domain in the N-terminal half and a complement subcomponents C1r/C1s, Uegf, Bmp1 (CUB) domain in the C-terminal half. A phylogenetic analysis showed that QHE belonged to the hatching enzyme group and was distinct from other proteases in the astacin family. Northern blotting and in situ hybridization demonstrated that expression of the QHE mRNA occurred twice during the development: first in ectodermal cells of the yolk sac on days 0-5, then in those of the albumen sac on days 8-13. Zymography revealed that proteolytic activity in extracts of days 3-4 and 9-12 embryos appeared at the position of 40 kDa. Immunoblotting tests showed that anti-QHE antiserum stained a 40-kDa molecule in extracts of day 3 area vitellina. Anti-QHE antibody stained the ectodermal cells of the area opaca on days 0-1, those of the area vitellina of the yolk sac on days 2-5, and those of the albumen sac on days 9-12. The temporal and spatial expression pattern of QHE mRNA was closely associated with digestion of the vitelline membrane occurring on days 1-4, and with that of the egg white on days 9-12.

The biology of cortical granules

An egg-that took weeks to months to make in the adult-can be extraordinarily transformed within minutes during its fertilization. This review will focus on the molecular biology of the specialized secretory vesicles of fertilization, the cortical granules. We will discuss their role in the fertilization process, their contents, how they are made, and the molecular mechanisms that regulate their secretion at fertilization. This population of secretory vesicles has inherent interest for our understanding of the fertilization process. In addition, they have import because they enhance our understanding of the basic processes of secretory vesicle construction and regulation, since oocytes across species utilize this vesicle type. Here, we examine diverse animals in a comparative approach to help us understand how these vesicles function throughout phylogeny and to establish conserved themes of function.