Studies on the reproduction of cirripedes. IV. The protein amino-acid composition and gel electrophoresis of the oviducal sac and egg case

The oviducal sac of Pollicipes cornucopia Leach and of Balanus balanoides(L.) and also the egg case of the latter species are almost pure protein: the ash of B. balanoides egg cases contains, however, a considerable quantity of iron. The amino-acid composition of the proteins has been determined; that of the sacs is quite different in the two species. In spite of the different way in which the sacs were obtained it is considered that these differences are specific in origin. This is in accordance with probably specific differences in ovisacases, and the behaviour of the egg lamella of different species towards attack by protease.The behaviour of the proteins of the sac of Pollicipes cornucopia on SDS polyacrylamide gel electrophoresis indicates a variable polypeptide composition according to the ‘age’ of the sac; with increasing age there is a greater degree of polymerization.The results are discussed in relation to the mode of release of ovisacase, its passage across the egg case, activation, and the attack on only one envelope.     

Changes in Brain Protease Activity in Aging

Abstract: We measured changes in protease activity with aging, conducting assays of cathepsin D and calpain II activities and the rate of degradation of cytoskeletal proteins, preparing the enzymes and substrates from young and aged brains. Calpain preparations added to the young and to the aged substrates were standardized with casein as substrate so that age-related changes in calpain specificity and substrate susceptibility were measured. Several age-related differences were observed in substrate susceptibility and in enzyme activity. With respect to substrate, the neurofilament protein from young animals was somewhat more susceptible to calpain action than that from older animals. With respect to enzyme activity, calpain from aged brain cleaved neurofilament protein at a faster rate than did calpain from young. With neurofilaments, the most rapid breakdown usually occurred when enzyme from aged tissue was incubated with substrate from young. Kidney enzyme of aged rats incubated with neurofilament substrate of aged rats resulted in a more rapid breakdown than enzyme of young kidney incubated with substrate of young. The age dependence of tubulin breakdown was somewhat different from that of neurofilament breakdown. The most rapid breakdown usually occurred when using enzyme from young with tubulin from young. Incubation of neurofilament protein or tubulin with cathepsin D did not reveal any differences with aging. These studies suggest that an increase in enzyme activity observed previously during aging may also include changes in the properties of the enzyme (substrate specificity) and/or in the properties of their endogenous substrates (susceptibility to breakdown).     

The pH dependence of breakdown of various purified brain proteins by cathepsin D preparations

In a continuing study of control processes of cerebral protein catabolism we compared the activity of cathepsin D from three sources (rat brain, bovine brain, and bovine spleen) on purified CNS proteins (tubulin, actin, calmodulin, S-100 and glial fibrillary acidic protein). The pH optimum was 5 for hydrolysis with tubulin as substrate for all three enzyme preparations, and it was pH 4 with the other substrates. The pH dependence curve was somewhat variable, with S-100 breakdown relatively more active at an acidic pH range. The formation of initial breakdown products and the further catabolism of the breakdown products was dependent on pH; hence the pattern of peptides formed from glial fibrillary acidic protein was different in incubations at different pH's. The relative activity of the enzyme preparations differed, depending on the substrate: with tubulin and S-100 as substrates, rat brain cathepsin D was the most active and the bovine spleen enzyme was the least active. With calmodulin and glial fibrillary acidic protein as substrates, rat brain and spleen cathepsin D activities were similar, and bovine brain cathepsin D showed the lowest activity. Actin breakdown fell between these two patterns.The rates of breakdown of the substrates were different; expressed as μg of substrate split per unit enzyme per h, with rat brain cathepsin D activity was 8–9 with calmodulin and S-100, 4 with glial fibrillary acidic protein, 1.8 with actin, and 0.9 with tubulin. The results show that there are differences in the properties of a protease like cathepsin D, depending on its source; furthermore, the rate of breakdown and the characteristics of breakdown are also dependent on the substrate.We recently measured the breakdown of brain tubulin by cerebral cathepsin D in a continuing study of the mechanisms and controls of cerebral protein catabolism (Bracco et al., 1982a). We found that tubulin breakdown is heterogeneous, that membrane-bound tubulin is resistant to cathepsin D but susceptible to thrombin (Bracco et al., 1982b), and that cytoplasmic tubulin was in at least two pools, one with a higher, another with a lower, rate of breakdown. The pH optimum of tubulin breakdown by cerebral cathepsin D differed significantly from the pH optimum of hemoglobin breakdown by the same enzyme.These findings showed that the properties of breakdown by a cerebral protease depend on the substrate. To further examine this dependence of properties of breakdown on the substrate, we now report measurements of pH dependence of breakdown of several purified proteins (tubulin, actin, calmodulin, S-100, glial fibrillary acidic protein [GFA]) from brain by cathepsin D preparations from three sources, rat brain, bovine brain, and bovine spleen. We also compare the rate of breakdown of the various proteins with the rate of hemoglobin breakdown.     

Role of β-1,3-glucanase in postmeiotic microspore release

Stage-specific extracts of Lilium anthers undergoing meiosis exhibited sharp peaks of both endolytic and exolytic β-1,3-glucanase activity at the time of in situ callose breakdown. The endo- and exo-β-1,3-glucanase activities, attributable to different enzymes, were found to have molecular weights of 32,000 and 62,000, respectively. The majority of exoglucanase activity was found in the outer somatic layers of the anther, whereas the majority of endoglucanase activity was located in the immediate surroundings of the meiocytes. The action of both glucanase activities on callose wall removal was monitored. It was shown that endo-β-1,3-glucanase, but not exoglucanase, was able to effect callose wall removal. To the extent that detection of glucanase activity in extracts reflects its activity in vivo, the endoglucanase enzyme may be considered as the immediate agent of callose wall breakdown and, hence, as a critical regulator in the initiation of the development of the gametophyte stage.     

Development of eggs,larvae and pelagic juveniles of three Indo-Pacific ostraeiid fishes (Tetraodontiformes):Ostracion meleagris,Lactoria fornasini andL. diaphana

The eggs, larvae and pelagic juveniles ofOstracion meleagris, Lactoria fornasini andLactoria diaphana were identified from reared and field collected specimens from Hawaii, Japan, Australia and the eastern Pacific. Eggs are large and pelagic with limited chorion ornamentation and a cluster of oil droplets. At hatching, larvae are well developed, rotund, and enclosed in a dermal sac. The sac disappears and dermal plates form prior to notochord flexion. Larvae of the three species can be distinguished by their pigment patterns and development of the carapace of ossified dermal plates. Eggs of the three species could not be distinguished. The larval stage ends at a small size (< 6 mm) but the juveniles may grow to a substantial size while remaining pelagic.L. diaphana matures and spawns while pelagic in the eastern Pacific.     

亚热带3种树种凋落叶厚度对其分解速率及酶活性的影响

对中国亚热带树种杉木(Cunninghamia lanceolata)、香樟(Cinnamomum camphora)、银杏(Ginkgo biloba)3个树种在不同凋落物厚度下凋落物分解速率和分解酶活性进行了探究.利用分解网袋法,根据浙江省的平均酸雨水平,在酸雨(pH4.0)条件下设置了凋落物40g、凋落物20g、凋落物10g 3个梯度.结果表明:凋落物分解速率随厚度的增加呈加快的趋势,杉木凋落物10、20、40g的年分解系数K分别为0.24、0.27、0.34,香樟凋落物10、20、40g的年分解系数K分别为0.25、0.3、0.32,银杏凋落物10、20、40g的年分解系数K分别为0.42、0.5、0.58;脲酶活性表现为:凋落叶40g＞凋落叶20g＞凋落叶10g,纤维素酶活性表现为:凋落叶40g、凋落叶20g＞凋落叶10g,蔗糖酶活性表现为:后期凋落叶40g＞凋落叶20g＞凋落叶10g,凋落物分解过程是多种酶共同作用的结果.     

Developmental Transition from Enzymatic to Acid Hydrolysis of Sucrose in Acid Limes (Citrus aurantifolia)

The sucrose breakdown mechanisms in juice sacs of acid lime (Citrus aurantifolia [Christm.] Swing.) were investigated throughout fruit development. All three enzymes of sucrose catabolism (sucrose synthase, acid, and alkaline invertase) are present during the initial stages. The activities of these enzymes declined rapidly and disappeared by stage 5 (80% development) but not before vacuolar pH had decreased to approximately 2.5. At this stage, sucrose breakdown occurs by acid hydrolysis. By attaining a vacuolar pH of 2.5 prior to enzyme disappearance, the cell maintains a continuous ability to break down sucrose throughout ontogeny. Thus, acid limes possess a unique and coordinated system for sucrose breakdown that involves both enzymatic and nonenzymatic pathways.     

Comparative Response of Rat and Rabbit Conceptuses In Vitro to Inhibitors of Histiotrophic Nutrition

Histiotrophic nutrition via the visceral yolk sac is an essential nutritional pathway of the rodent conceptus, and inhibition of this pathway may cause growth retardation, malformations, and death in rodent embryos. Morphologic differences among species during early development indicate that the visceral yolk sac histiotrophic nutrition pathway may be of lesser importance in nonrodent species, including humans. Here, comparative studies were conducted with inhibitors of different steps in the visceral yolk sac histiotrophic nutrition pathway to determine whether the rabbit is similarly responsive to the rat. Early somite stage New Zealand White rabbit and Crl:CD(SD) rat conceptuses (gestation day 9, rabbits; gestation day 10, rats) were exposed for 48 hr to three different histiotrophic nutrition pathway inhibitors using whole embryo culture techniques, after which they were evaluated for growth and malformations. Cubilin antibody, an inhibitor of endocytosis, reduced growth and development and increased malformations in both rat and rabbit embryos, although the rabbit appeared more sensitive. Leupeptin, a lysosomal cysteine protease inhibitor, also impaired growth and development and increased malformations in rat embryos, while in the rabbit it induced malformations and a slight decrease in morphology score but had no effect upon growth. Trypan blue, an inhibitor of endocytosis and endosome maturation, affected all measures in both species to a similar degree at the highest concentration (2500 μg/ml), but rat embryos responded to a greater extent at lower concentrations. Although the specific adverse outcomes appear to be different, these results demonstrate that rabbits, like rats, are sensitive to inhibitors of the histiotrophic nutrition pathway     

Ontogeny of gene expression in Pomoxis (pisces: Centrarchidae)

The regulation of gene expression during embryogenesis was investigated in white and black crappie (Pomoxis spp.) and their reciprocal interspecific F₁ hybrids. The schedule of morphological development and the timing of isozyme expression were compared among the two species and both reciprocal maternal half-sibling F₁ hybrids. Although absolute rates of morphological development differed in response to incubation temperature, relative rates of morphological development (normalized to the onset of retinal pigment deposition) were similar among all crosses. Furthermore, these relative rates were similar to those previously documented for other centrarchid species. To assess differences in ontogenetic patterns of gene expression among the crosses, we examined expression for 39 enzymeencoding loci. Expression was not detected in the embryos for 16 loci due to low or nonexistent activity. Enzymatic activity from eight other loci were continuously detected throughout embryogenesis as a result of maternal enzyme in the egg. However, 15 loci initiated expression during the early development period investigated (fertilization through yolk sac absorption). We observed temporal variability in expression of these 15 loci among the crosses, either in the form of differential expression between parental species or as disturbances in the ontogeny of expression in interspecific hybrids. Such variability in expression suggests that some of the gene regulating mechanisms have diverged since Pomoxis species shared a common ancestral genome. © 1994 Wiley-Liss, Inc.     

Hatching in the pike Esox lucius L.: Evidence for a single hatching enzyme and its immunocytochemical localization in specialized hatching gland cells

Antibodies against purified hatching enzyme (HE) from the pike, Esox lucius L., have been used to examine different aspects of the presence of the enzyme in the ontogeny of this teleostean fish. Immunochemical analysis indicates that the two proteolytic enzymes which occur in the hatching medium arise from a single protease, HE itself. The second proteolytic fraction found in gel filtration of hatching medium could be a heterogeneous population of complexes of HE with digestion fragments of its natural substrate, the zona radiata. Immunofluorescence microscopy by means of anti-HE antibodies demonstrates that HE is localized in the so-called hatching gland cells (HGCs). The HGCs in pike appear as oval to round cells 10–15 μm in diameter containing granules of 1.5–2.3 μm. They are found interspersed between the periderm and the presumptive epidermis. The number of HGCs and their granule content increase significantly until the 35-somite stage to reach about 1200 and 30, respectively. From then on these numbers do not change until hatching in the 66-somite stage. The distribution of the HGCs over the embryo also changes, probably since HGC precursors in the yolk sac differentiate to HGCs later than their counterparts in the head region. The immunocytochemical procedure further shows that HE can be detected from the 10-somite stage on. Discrete hatching gland remnant bodies, phagocytized by epidermal cells, are observed in larval stages until 3–7 days after emergence of the embryo.     

Enzymic mechanism of starch breakdown in germinating rice seeds I. An analytical study

Time-sequence analyses of carbohydrate breakdown in germinating rice seeds shows that a rapid breakdown of starch reserve in endosperm starts after about 4 days of germination. Although the major soluble carbohydrate in the dry seed is sucrose, a marked increase in the production of glucose and maltooligosaccharides accompanies the breakdown of starch. Maltotriose was found to constitute the greatest portion of the oligosaccharides throughout the germination stage. α-Amylase activities were found to parallel the pattern of starch breakdown. Assays for phosphorylase activity showed that this enzyme may account for much smaller amounts of starch breakdown per grain, as compared to the amounts hydrolyzed by α-amylase. There was a transient decline in the content of sucrose in the initial 4 days of seed germination, followed by the gradual increase in later germination stages. During the entire germination stage, sucrose synthetase activity was not detected in the endosperm, although appreciable enzyme activity was present in the growing shoot tissues as well as in the frozen rice seeds harvested at the mid-milky stage. We propose the predominant formation of glucose from starch reserves in the endosperm by the action of α-amylase and accompanying hydrolytic enzyme(s) and that this sugar is eventually mobilized to the growing tissues, shoots or roots.     

Intracellular proteolysis of pancreatic zymogens.

Activation of pancreatic digestive zymogens within the pancreatic acinar cell may be an early event in the development of pancreatitis. To detect such activation, an immunoblot assay has been developed that measures the relative amounts of inactive zymogens and their respective active enzyme forms. Using this assay, high doses of cholecystokinin or carbachol were found to stimulate the intracellular conversion of at least three zymogens (procarboxypeptidase A1, procarboxypeptidase B, and chymotrypsinogen 2) to their active forms. Thus, this conversion may be a generalized phenomenon of pancreatic zymogens. The conversion is detected within ten minutes of treatment and is not associated with changes in acinar cell morphology; it has been predicted that the lysosomal thiol protease, cathepsin B, may initiate this conversion. Small amounts of cathepsin B are found in the secretory pathway, and cathepsin B can activate trypsinogen in vitro; however, exposure of acini to a thiol protease inhibitor (E64) did not block this conversion. Conversion was inhibited by the serine protease inhibitor, benzamidine, and by raising the intracellular pH, using chloroquine or monensin. This limited proteolytic conversion appears to require a low pH compartment and a serine protease activity. After long periods of treatment (60 minutes), the amounts of the active enzyme forms began to decrease; this observation suggested that the active enzyme forms were being degraded. Treatment of acini with E64 reduced this late decrease in active enzyme forms, suggesting that thiol proteases, including lysosomal hydrolases, may be involved in the degradation of the active enzyme forms. These findings indicate that pathways for zymogen activation as well as degradation of active enzyme forms are present within the pancreatic acinar cell.     

Pattern of serum protein gene expression in mouse visceral yolk sac and foetal liver.

We have shown by molecular hybridisation that the mRNAs for albumin, transferrin, apolipoprotein-A1, and alpha 1-antitrypsin are expressed at high levels in mouse visceral yolk sac. In contrast, the mRNAs for contrapsin (a plasma protease inhibitor) and the major urinary proteins (MUPs) are not detected in the visceral yolk sac at any stage of embryonic development. Contrapsin and MUP mRNAs both appear late in liver development. These differences in expression suggest that the visceral yolk sac is more similar to the foetal than adult mouse liver in its pattern of gene expression. However, the developmental time course of expression of these mRNAs is different between the foetal liver and the yolk sac. Evidence is also presented that the visceral yolk sac synthesises and secretes other apolipoproteins in addition to apolipoprotein-A1. These results suggest that the visceral yolk sac and foetal liver, two tissues with different embryological lineages, perform similar functions but are independently programmed for expression of the same set of serum protein genes.     

On the turnover and proteolysis of catalase in tissues of the guinea pig and acatalasemic mice.

Turnover characteristics (half-lives and rate constants for synthesis and degradation) have been determined for the catalases of guinea pig and three different strains of mice by means of the kinetics of return of enzyme activity after inhibition with 3-amino-1,2,4-triazole. The catalase of hypocatalasemic mice (strain C_sD) did not display an appreciably different half-life to that of the wild-type mice, but catalase in the tissues of acatalasemic mice (strain C_sB) exhibited a half-life which was only half that of the wild type, while the half-life of guinea pig catalase was more than twice that of wild-type mice. Significant differences were also noticed in regard to the in vitro susceptibility of the catalases of these animals to protease inactivation. Large-granule (lysosomal, mitochondrial and peroxisomal) extracts proved far more susceptible to protease inactivation than cytosol extracts, and marked changes in the heteromorph pattern of mouse liver cytosol catalase were observed to accompany limited proteolysis. These results support the conclusion that the in vitro susceptibility of proteases may be an important determining factor in the rate of degradation of an enzyme in vivo.     

A comparison of the morphogenetic and sterilizing activities of juvenile hormone mimics on Aedes aegypti

At 25°C, adult female aedes aegypti are most sensitive to sterilization by juvenile hormone (JH) mimics when such chemicals are applied 32 to 36 hr after the blood meal (when the ovaries are at late stage III to early stage IV). Application of JH mimics during this period reduces egg fertility and female fecundity and induces the production of large numbers of visually abnormal eggs. As the most sensitive phase for sterilization with JH mimics is well before oviposition, and as many abnormal eggs are laid following JH mimic treatment, it is likely that in this species sterilization effects are induced by some action on the developing oöcyte rather than on embryonic development.The relative activities of several JH mimics in sterilizing adult female A. aegypti are very similar to their relative activities in inhibiting metamorphosis. Thus the sterilizing action of JH mimics is likely to be a true JH effect and can be used as a test for JH activity for A. aegypti.     

Cysteine protease gene expression and proteolytic activity during senescence of Alstroemeria petals.

The functional life of the flower is terminated by senescence and/or abscission. Multiple processes contribute to produce the visible signs of petal wilting and inrolling that typify senescence, but one of the most important is that of protein degradation and remobilization. This is mediated in many species through protein ubiquitination and the action of specific protease enzymes. This paper reports the changes in protein and protease activity during development and senescence of Alstroemeria flowers, a Liliaceous species that shows very little sensitivity to ethylene during senescence and which shows perianth abscission 8-10 d after flower opening. Partial cDNAs of ubiquitin (ALSUQ1) and a putative cysteine protease (ALSCYP1) were cloned from Alstroemeria using degenerate PCR primers and the expression pattern of these genes was determined semi-quantitatively by RT-PCR. While the levels of ALSUQ1 only fluctuated slightly during floral development and senescence, there was a dramatic increase in the expression of ALSCYP1 indicating that this gene may encode an important enzyme for the proteolytic process in this species. Three papain class cysteine protease enzymes showing different patterns of activity during flower development were identified on zymograms, one of which showed a similar expression pattern to the cysteine protease cDNA.     

Effects of exogenous 1,3-diaminopropane and spermidine on senescence of oat leaves : I. Inhibition of protease activity, ethylene production, and chlorophyll loss as related to polyamine content

Excision and dark incubation of oat (Avena sativa L., var. Victory) leaves cause a sharp increase in protease activity, which precedes Chl loss. Both these senescence processes are inhibited by exogenously applied 1,3-diaminopropane (Dap), which occurs naturally in leaf segments. The inhibition of protease activity is much greater in vivo than in vitro, suggesting inhibition of protease synthesis as well as protease action by Dap. Chl breakdown in leaves of radish and broccoli, which also senesce rapidly in the dark, is only slightly inhibited by DaP. These differences between cereal and dicotyledonous plants are correlated with the natural occurrence of Dap in cereals. In the light, Dap promotes, rather than retards, the loss of Chl in oat leaves. This resembles previously described effects of other polyamines. Addition of Mg²⁺ to the medium does not antagonize this effect. In the dark, the accumulated Dap also inhibits ethylene production and decreases titer of other polyamines. Addition of Ca²⁺ to the incubation medium containing Dap competitively reduces the effects of Dap. Thus, Dap, like other polyamines, seems to require an initial attachment to a membrane site shared with Ca²⁺ before exerting its antisenescence action.     

Relative investment in egg load and poison sac in fig wasps: Implications for physiological mechanisms underlying seed and wasp production in figs

Fig pollinating wasps and most non-pollinator wasps apply secretions from their poison sacs into oviposited flowers that appear necessary to the formation of the galls that their developing offspring consume. Thus, both eggs and poison sac secretions appear to be essential for wasp reproduction, but the relative investment in each is unknown. We measured relative investment in poison sac and egg production in pollinating and non-pollinating wasps associated with seven species of monoecious Panamanian figs representing both active and passive pollination syndromes. We then collected similar data for four fig hosts in China, where some wasp species in the genus Eupristina have lost the ability to pollinate (“cheaters”). All wasps examined possessed large poison sacs, and we found a strong positive correlation between poison sac size and absolute egg production. In the Panamanian species, the relative poison sac to egg investment was highest in the externally ovipositing non-pollinator wasps, followed by active pollinators, then by passive pollinators. Further, pollinator wasps of fig species with demonstrated host sanctions against “cheating” wasps showed higher investment in the poison sac than wasps of species without sanctions. In the Chinese samples, relative investment in the poison sac was indistinguishable between pollinators and “cheaters” associated with the same fig species. We suggest that higher relative investment in poison sac across fig wasp species reflects higher relative difficulty in initiating formation of galls and subsequently obtaining resources from the fig. We discuss the implications for the stability of the fig–wasp mutualism, and for the ability of non-pollinators to exploit this mutualism.     

Polysome-dependent synthesis of embryonic proteins of Artemia salina during cell differentiation and analysis of heme-containing protein.

The polysomes isolated from the different developmental stages of Artemia salina have been translated in a homologous S-30 extract or pH 5 enzyme fraction as well as in a heterologous (wheat germ) pH 5 enzyme fraction. The specific template activity of the polysomes increases linearly up to a stage which is equivalent to about two-thirds of the whole preemergence period and thereafter remains rather constant until the nauplius stage. The specific template activity of the polysomes appears to be dependent on a source of in vitro systems, but not to be dependent on the size of the polysomes used. Moreover, the efficiency of polypeptide chain release from the polysomes in vitro also seems dependent on the developmental stages of the embryos, but in this case it is not influenced by the in vitro system employed. Analysis of the proteins synthesized in vitro by the polyacrylamide gel electrophoresis has revealed that the species and their relative amounts of the proteins are rather specific for each developmental stage analyzed.Heme-containing proteins from the nauplii have been partially purified and analyzed. This heme-protein complex contains two distinct polypeptide chains, MW > 100,000 and MW = 50,000–60,000 daltons, respectively, as the major species as judged by SDS-polyacrylamide gel electrophoresis. During preemergence development, no heme-protein complexes have been detected, but after hatching of the embryos, they have been detected.