Your search keyword '"Lucie Kucerova"' showing total 45 results

1. Mutation in Drosophila concentrative nucleoside transporter 1 alters spermatid maturation and mating behavior

Author

Houda Ouns Maaroufi, Lucie Pauchova, Yu-Hsien Lin, Bulah Chia-Hsiang Wu, Lenka Rouhova, Lucie Kucerova, Ligia Cota Vieira, Marek Renner, Hana Sehadova, Miluse Hradilova, and Michal Zurovec

Subjects

cnt1, gamete, spermatogenesis, testis, adenosine, copulation, Biology (General), QH301-705.5

Abstract

Concentrative nucleoside transporters (Cnts) are unidirectional carriers that mediate the energy-costly influx of nucleosides driven by the transmembrane sodium gradient. Cnts are transmembrane proteins that share a common structural organization and are found in all phyla. Although there have been studies on Cnts from a biochemical perspective, no deep research has examined their role at the organismal level. Here, we investigated the role of the Drosophila melanogaster cnt1 gene, which is specifically expressed in the testes. We used the CRISPR/Cas9 system to generate a mutation in the cnt1 gene. The cnt1 mutants exhibited defects in the duration of copulation and spermatid maturation, which significantly impaired male fertility. The most striking effect of the cnt1 mutation in spermatid maturation was an abnormal structure of the sperm tail, in which the formation of major and minor mitochondrial derivatives was disrupted. Our results demonstrate the importance of cnt1 in male fertility and suggest that the observed defects in mating behavior and spermatogenesis are due to alterations in nucleoside transport and associated metabolic pathways.

Published

2022

2. Adenosine Receptor and Its Downstream Targets, Mod(mdg4) and Hsp70, Work as a Signaling Pathway Modulating Cytotoxic Damage in Drosophila

Author

Yu-Hsien Lin, Houda Ouns Maaroufi, Lucie Kucerova, Lenka Rouhova, Tomas Filip, and Michal Zurovec

Subjects

heat-shock protein 70, modifier of mdg4, mutant huntingtin, cytotoxicity, neurodegeneration, equilibrative nucleoside transporter, Biology (General), QH301-705.5

Abstract

Adenosine (Ado) is an important signaling molecule involved in stress responses. Studies in mammalian models have shown that Ado regulates signaling mechanisms involved in “danger-sensing” and tissue-protection. Yet, little is known about the role of Ado signaling in Drosophila. In the present study, we observed lower extracellular Ado concentration and suppressed expression of Ado transporters in flies expressing mutant huntingtin protein (mHTT). We altered Ado signaling using genetic tools and found that the overexpression of Ado metabolic enzymes, as well as the suppression of Ado receptor (AdoR) and transporters (ENTs), were able to minimize mHTT-induced mortality. We also identified the downstream targets of the AdoR pathway, the modifier of mdg4 (Mod(mdg4)) and heat-shock protein 70 (Hsp70), which modulated the formation of mHTT aggregates. Finally, we showed that a decrease in Ado signaling affects other Drosophila stress reactions, including paraquat and heat-shock treatments. Our study provides important insights into how Ado regulates stress responses in Drosophila.

Published

2021

3. Comparison of Silks from Pseudoips prasinana and Bombyx mori Shows Molecular Convergence in Fibroin Heavy Chains but Large Differences in Other Silk Components

Author

Michal Rindos, Lucie Kucerova, Lenka Rouhova, Hana Sehadova, Michal Sery, Miluse Hradilova, Peter Konik, and Michal Zurovec

Subjects

Bena prasinana, Bombycidae, Nolidae, phylogeny, transcriptomics, fibrohexamerins, Biology (General), QH301-705.5, Chemistry, QD1-999

Abstract

Many lepidopteran larvae produce silk feeding shelters and cocoons to protect themselves and the developing pupa. As caterpillars evolved, the quality of the silk, shape of the cocoon, and techniques in forming and leaving the cocoon underwent a number of changes. The silk of Pseudoips prasinana has previously been studied using X-ray analysis and classified in the same category as that of Bombyx mori, suggesting that silks of both species have similar properties despite their considerable phylogenetic distance. In the present study, we examined P. prasinana silk using ‘omics’ technology, including silk gland RNA sequencing (RNA-seq) and a mass spectrometry-based proteomic analysis of cocoon proteins. We found that although the central repetitive amino acid sequences encoding crystalline domains of fibroin heavy chain molecules are almost identical in both species, the resulting fibers exhibit quite different mechanical properties. Our results suggest that these differences are most probably due to the higher content of fibrohexamerin and fibrohexamerin-like molecules in P. prasinana silk. Furthermore, we show that whilst P. prasinana cocoons are predominantly made of silk similar to that of other Lepidoptera, they also contain a second, minor silk type, which is present only at the escape valve.

Published

2021

4. Expression of Human Mutant Huntingtin Protein in Drosophila Hemocytes Impairs Immune Responses

Author

Yu-Hsien Lin, Houda Ouns Maaroufi, Emad Ibrahim, Lucie Kucerova, and Michal Zurovec

Subjects

Huntington's disease, immunity, infection, Drosophila melanogaster, phagocytosis, cytokines, Immunologic diseases. Allergy, RC581-607

Abstract

The pathogenic effect of mutant HTT (mHTT) which causes Huntington disease (HD) are not restricted to nervous system. Such phenotypes include aberrant immune responses observed in the HD models. However, it is still unclear how this immune dysregulation influences the innate immune response against pathogenic infection. In the present study, we used transgenic Drosophila melanogaster expressing mutant HTT protein (mHTT) with hemocyte-specific drivers and examined the immune responses and hemocyte function. We found that mHTT expression in the hemocytes did not affect fly viability, but the numbers of circulating hemocytes were significantly decreased. Consequently, we observed that the expression of mHTT in the hemocytes compromised the immune responses including clot formation and encapsulation which lead to the increased susceptibility to entomopathogenic nematode and parasitoid wasp infections. In addition, mHTT expression in Drosophila macrophage-like S2 cells in vitro reduced ATP levels, phagocytic activity and the induction of antimicrobial peptides. Further effects observed in mHTT-expressing cells included the altered production of cytokines and activation of JAK/STAT signaling. The present study shows that the expression of mHTT in Drosophila hemocytes causes deficient cellular and humoral immune responses against invading pathogens. Our findings provide the insight into the pathogenic effects of mHTT in the immune cells.

Published

2019

5. A Drosophila immune response against Ras-induced overgrowth

Author

Thomas Hauling, Robert Krautz, Robert Markus, Anne Volkenhoff, Lucie Kucerova, and Ulrich Theopold

Subjects

Innate immunity, Tumor, Oncogene, Insect immunity, Hemocytes, Encapsulation, Science, Biology (General), QH301-705.5

Abstract

Our goal is to characterize the innate immune response against the early stage of tumor development. For this, animal models where genetic changes in specific cells and tissues can be performed in a controlled way have become increasingly important, including the fruitfly Drosophila melanogaster. Many tumor mutants in Drosophila affect the germline and, as a consequence, also the immune system itself, making it difficult to ascribe their phenotype to a specific tissue. Only during the past decade, mutations have been induced systematically in somatic cells to study the control of tumorous growth by neighboring cells and by immune cells. Here we show that upon ectopic expression of a dominant-active form of the Ras oncogene (RasV12), both imaginal discs and salivary glands are affected. Particularly, the glands increase in size, express metalloproteinases and display apoptotic markers. This leads to a strong cellular response, which has many hallmarks of the granuloma-like encapsulation reaction, usually mounted by the insect against larger foreign objects. RNA sequencing of the fat body reveals a characteristic humoral immune response. In addition we also identify genes that are specifically induced upon expression of RasV12. As a proof-of-principle, we show that one of the induced genes (santa-maria), which encodes a scavenger receptor, modulates damage to the salivary glands. The list of genes we have identified provides a rich source for further functional characterization. Our hope is that this will lead to a better understanding of the earliest stage of innate immune responses against tumors with implications for mammalian immunity.

Published

2014

6. Expansion of Imaginal Disc Growth Factor Gene Family in Diptera Reflects the Evolution of Novel Functions

Author

Martina Zurovcova, Vladimir Benes, Michal Zurovec, and Lucie Kucerova

Subjects

drosophila, chitinase, phylogeny, positive selection, chitinase-like protein, idgf, Science

Abstract

Imaginal disc growth factors (IDGFs) are a small protein family found in insects. They are related to chitinases and implicated in multiple functions, including cell growth stimulation, antimicrobial activity, insect hemolymph clotting, and maintenance of the extracellular matrix. A number of new IDGFs have been found in several insect species and their detailed phylogenetic analysis provides a good basis for further functional studies. To achieve this goal, we sequenced Idgf cDNAs from several lepidopteran and trichopteran species and supplemented our data with sequences retrieved from public databases. A comparison of Idgf genes in different species showed that Diptera typically contain several Idgf paralogs with a simple exon-intron structure (2−3 exons), whereas lepidopteran Idgfs appear as a single copy per genome and contain a higher number of exons (around 9). Our results show that, while lepidopteran Idgfs, having single orthologs, are characterized by low divergence and stronger purifying selection over most of the molecule, the duplicated Idgf genes in Diptera, Idgf1 and Idgf4, exhibit signs of positive selection. This characterization of IDGF evolution provides, to our knowledge, the first information on the changes that formed these important molecules.

Published

2019

7. Characterization of reproductive dormancy in male Drosophila melanogaster

Author

Olga I Kubrak, Lucie Kucerova, Ulrich Theopold, Sören Nylin, and Dick R Nässel

Subjects

Drosophila melanogaster, Metabolism, Reproduction, Mating, diapause, Physiology, QP1-981

Abstract

Insects are known to respond to seasonal and adverse environmental changes by entering dormancy, also known as diapause. In some insect species, including Drosophila melanogaster, dormancy occurs in the adult organism and postpones reproduction. This adult dormancy has been studied in female flies where it is characterized by arrested development of ovaries, altered nutrient stores, lowered metabolism, increased stress and immune resistance and drastically extended lifespan. Male dormancy, however, has not been investigated in D. melanogaster, and its physiology is poorly known in most insects. Here we show that unmated 3-6 h old male flies placed at low temperature (11°C) and short photoperiod (10 Light:14 Dark) enter a state of dormancy with arrested spermatogenesis and development of testes and male accessory glands. Over three weeks of dormancy we see a dynamic increase in stored carbohydrates and an initial increase and then a decrease in lipids. We also note an up-regulated expression of genes involved in metabolism, stress responses and innate immunity. Interestingly, we found that male flies that entered reproductive dormancy do not attempt to mate females kept under non-diapause conditions (25°C, 12L:12D), and conversely non-dormant males do not mate females in dormancy. In summary, our study shows that male D. melanogaster can enter reproductive dormancy. However, our data suggest that dormant male flies deplete stored nutrients faster than females, studied earlier, and that males take longer to recover reproductive capacity after reintroduction to non-diapause conditions.

Published

2016

8. Apoptosis in Hemocytes Induces a Shift in Effector Mechanisms in the Drosophila Immune System and Leads to a Pro-Inflammatory State.

Author

Badrul Arefin, Lucie Kucerova, Robert Krautz, Holger Kranenburg, Farjana Parvin, and Ulrich Theopold

Subjects

Medicine, Science

Abstract

Apart from their role in cellular immunity via phagocytosis and encapsulation, Drosophila hemocytes release soluble factors such as antimicrobial peptides, and cytokines to induce humoral responses. In addition, they participate in coagulation and wounding, and in development. To assess their role during infection with entomopathogenic nematodes, we depleted plasmatocytes and crystal cells, the two classes of hemocytes present in naïve larvae by expressing proapoptotic proteins in order to produce hemocyte-free (Hml-apo, originally called Hemoless) larvae. Surprisingly, we found that Hml-apo larvae are still resistant to nematode infections. When further elucidating the immune status of Hml-apo larvae, we observe a shift in immune effector pathways including massive lamellocyte differentiation and induction of Toll- as well as repression of imd signaling. This leads to a pro-inflammatory state, characterized by the appearance of melanotic nodules in the hemolymph and to strong developmental defects including pupal lethality and leg defects in escapers. Further analysis suggests that most of the phenotypes we observe in Hml-apo larvae are alleviated by administration of antibiotics and by changing the food source indicating that they are mediated through the microbiota. Biochemical evidence identifies nitric oxide as a key phylogenetically conserved regulator in this process. Finally we show that the nitric oxide donor L-arginine similarly modifies the response against an early stage of tumor development in fly larvae.

Published

2015

9. Identification of silk components in the bombycoid moth Andraca theae (Endromidae) reveals three fibroin subunits resembling those of Bombycidae and Sphingidae

Author

Peter Kmet, Lucie Kucerova, Hana Sehadova, Bulah Chia-hsiang Wu, Yueh-Lung Wu, and Michal Zurovec

Subjects

Physiology, Insect Science

Published

2023

10. Mutation in

Author

Houda Ouns, Maaroufi, Lucie, Pauchova, Yu-Hsien, Lin, Bulah Chia-Hsiang, Wu, Lenka, Rouhova, Lucie, Kucerova, Ligia Cota, Vieira, Marek, Renner, Hana, Sehadova, Miluse, Hradilova, and Michal, Zurovec

Abstract

Concentrative nucleoside transporters (Cnts) are unidirectional carriers that mediate the energy-costly influx of nucleosides driven by the transmembrane sodium gradient. Cnts are transmembrane proteins that share a common structural organization and are found in all phyla. Although there have been studies on Cnts from a biochemical perspective, no deep research has examined their role at the organismal level. Here, we investigated the role of the

Published

2022

11. Comparison of Silks from Pseudoips prasinana and Bombyx mori Shows Molecular Convergence in Fibroin Heavy Chains but Large Differences in Other Silk Components

Author

Hana Sehadova, Michal Zurovec, Lenka Rouhova, Michal Rindoš, Peter Konik, Miluše Hradilová, Lucie Kucerova, and Michal Sery

Subjects

QH301-705.5, Nolidae, Fibroin, 02 engineering and technology, macromolecular substances, phylogeny, Catalysis, Inorganic Chemistry, Lepidoptera genitalia, 03 medical and health sciences, transcriptomics, Bombyx mori, Bena prasinana, Physical and Theoretical Chemistry, Biology (General), Molecular Biology, QD1-999, Spectroscopy, 030304 developmental biology, 0303 health sciences, Heavy chain, biology, Fibrohexamerin, Chemistry, Organic Chemistry, fungi, technology, industry, and agriculture, General Medicine, fibrohexamerins, 021001 nanoscience & nanotechnology, biology.organism_classification, equipment and supplies, Bombycidae, Computer Science Applications, Pupa, Phylogenetic distance, SILK, Biochemistry, 0210 nano-technology

Abstract

Many lepidopteran larvae produce silk feeding shelters and cocoons to protect themselves and the developing pupa. As caterpillars evolved, the quality of the silk, shape of the cocoon, and techniques in forming and leaving the cocoon underwent a number of changes. The silk of Pseudoips prasinana has previously been studied using X-ray analysis and classified in the same category as that of Bombyx mori, suggesting that silks of both species have similar properties despite their considerable phylogenetic distance. In the present study, we examined P. prasinana silk using ‘omics’ technology, including silk gland RNA sequencing (RNA-seq) and a mass spectrometry-based proteomic analysis of cocoon proteins. We found that although the central repetitive amino acid sequences encoding crystalline domains of fibroin heavy chain molecules are almost identical in both species, the resulting fibers exhibit quite different mechanical properties. Our results suggest that these differences are most probably due to the higher content of fibrohexamerin and fibrohexamerin-like molecules in P. prasinana silk. Furthermore, we show that whilst P. prasinana cocoons are predominantly made of silk similar to that of other Lepidoptera, they also contain a second, minor silk type, which is present only at the escape valve.

Published

2021

12. The expansion of genes encoding soluble silk components in the greater wax moth, Galleria mellonella

Author

Hana Sehadova, Peter Konik, Miluše Hradilová, Barbara Kludkiewicz, Lucie Kucerova, Anna Zaloudikova, František Sehnal, Tereza Konikova, Hynek Strnad, and Michal Zurovec

Subjects

0106 biological sciences, Proteome, Silk, Fibroin, macromolecular substances, Moths, Proteomics, 01 natural sciences, Biochemistry, Sericin, Lepidoptera genitalia, 03 medical and health sciences, Labial glands, Animals, Amino Acid Sequence, Sericins, Molecular Biology, Phylogeny, Glycoproteins, 030304 developmental biology, 0303 health sciences, Base Sequence, biology, fungi, Mucins, technology, industry, and agriculture, equipment and supplies, biology.organism_classification, Galleria mellonella, 010602 entomology, SILK, Secretory protein, Larva, Insect Science, Insect Proteins, Sequence Alignment

Abstract

Lepidopteran silk is a complex assembly of proteins produced by a pair of highly specialized labial glands called silk glands. Silk composition has been examined only in a handful of species. Here we report on the analysis of silk gland-specific transcriptomes from three developmental stages of the greater wax moth, Galleria mellonella, combined with proteomics, Edman microsequencing and northern blot analysis. In addition to the genes known earlier, we identified twenty seven candidate cDNAs predicted to encode secretory proteins, which may represent novel silk components. Eight were verified by proteomic analysis or microsequencing, and several others were confirmed by similarity with known silk genes and their expression patterns. Our results revealed that most candidates encode abundant secreted proteins produced by middle silk glands including ten sericins, two seroins, one or more mucins, and several sequences without apparent similarity to known proteins. We did not detect any novel PSG-specific protein, confirming that there are only three fibroin subunits. Our data not only show that the number of sericin genes in the greater wax moth is higher than in other species thus far examined, but also the total content of soluble proteins in silk is twice as high in G. mellonella than in B. mori or A. yamamai. Our data will serve as a foundation for future identification and evolutionary analysis of silk proteins in the Lepidoptera.

Published

2019

13. Adenosine Receptor and Its Downstream Targets, Mod(mdg4) and Hsp70, Work as a Signaling Pathway Modulating Cytotoxic Damage in Drosophila

Author

Tomas Filip, Houda Ouns Maaroufi, Michal Zurovec, Lucie Kucerova, Yu-Hsien Lin, and Lenka Rouhova

Subjects

Mutant, heat-shock protein 70, Cell and Developmental Biology, modifier of mdg4, Extracellular, medicine, Huntingtin Protein, Receptor, lcsh:QH301-705.5, Original Research, Chemistry, Neurodegeneration, mutant huntingtin, neurodegeneration, Equilibrative nucleoside transporter, Transporter, Cell Biology, medicine.disease, Adenosine, Adenosine receptor, Cell biology, lcsh:Biology (General), equilibrative nucleoside transporter, cytotoxicity, Signal transduction, Developmental Biology, medicine.drug

Abstract

SummaryAdenosine (Ado) is an important signaling molecule involved in stress responses. Studies in mammalian models have shown that Ado regulates signaling mechanisms involved in ‘danger-sensing’ and tissue-protection. Yet, little is known about the role of Ado signaling inDrosophila. In the present study, we observed lower extracellular Ado concentration and suppressed expression of Ado transporters in flies expressing mutant huntingtin protein (mHTT). We altered Ado signaling using genetic tools and found that the overexpression of Ado metabolic enzymes, as well as the suppression of Ado receptor (AdoR) and transporters (ENTs), were able to minimize mHTT-induced mortality. We also identified the downstream targets of the AdoR pathway, the modifier of mdg4 (Mod(mdg4)) and heat-shock protein 70 (Hsp70), which carry out its function. Finally, we showed that a decrease in Ado signaling affect otherDrosophilastress reactions, including paraquat and heat-shock treatments. Our study provides important insights into how Ado regulates stress responses inDrosophila.

Published

2021

14. Physiological Tradeoffs of Immune Response Differs by Infection Type in Pieris napi

Author

Lucie Kucerova, Sören Nylin, Naomi L. P. Keehnen, Christopher W. Wheat, and Ulrich Theopold

Subjects

life history, Larva, lcsh:QP1-981, biology, Physiology, Mortality rate, fungi, biology.organism_classification, infection, lcsh:Physiology, Transcriptome, transcriptomics, trade-offs, Immune system, Pieris (butterfly), Weight loss, Physiology (medical), medicine, lepidoptera, medicine.symptom, Micrococcus luteus, Pathogen

Abstract

Understanding the tradeoffs that result from successful infection responses is central to understanding how life histories evolve. Gaining such insights, however, can be challenging, as they may be pathogen specific and confounded with experimental design. Here, we investigated whether infection from gram positive or negative bacteria results in different physiological tradeoffs, and whether these infections impact life history later in life (post-diapause development), in the butterfly Pieris napi. During the first 24 h after infection (3, 6, 12, and 24 h), after removing effects due to injection, larvae infected with Micrococcus luteus showed a strong suppression of all non-immunity related processes while several types of immune responses were upregulated. In contrast, this tradeoff between homeostasis and immune response was much less pronounced in Escherichia coli infections. These differences were also visible long after infection, via weight loss and slower development, as well as an increased mortality at higher infection levels during later stages of development. Individuals infected with M. luteus, compared to E. coli, had a higher mortality rate, and a lower pupal weight, developmental rate and adult weight. Further, males exhibited a more negative impact of infection than females. Thus, immune responses come at a cost even when the initial infection has been overcome, and these costs are likely to affect later life history parameters with fitness consequences.

Published

2021

15. The consequences of surviving infection across the metamorphic boundary: tradeoff insights from RNAseq and life history measures

Author

Ulrich Theopold, Naomi L. P. Keehnen, Christopher W. Wheat, Sören Nylin, and Lucie Kucerova

Subjects

Evolutionary biology, media_common.quotation_subject, fungi, Population genetics, Boundary (topology), Life history, Biology, Diversity (politics), media_common

Abstract

The broad diversity of insect life has been shaped, in part, by pathogen pressure, yet the influence of injury and infection during critical periods of development is understudied. During development, insects undergo metamorphosis, wherein the organism experiences a dramatic shift in their overall morphology, and physiology. In temperate zones, metamorphosis is often directly followed by a developmental arrest called diapause, for which the insect needs to acquire enough energy reserves before the onset of winter. We investigated the long-term effects of injury and infection using two bacteria in the butterfly Pieris napi, revealing that the negative consequences of bacterial infection carry across the metamorphic boundary. Initial direct effects of infection were weight loss and slower development, as well as an increased mortality at higher infection levels. The detrimental effects were stronger in the gram-positive Micrococcus luteus compared to gram-negative Escherichia coli. Transcriptome-wide differences between the two bacteria were already observed in the gene expression profile of the first 24 hours after infection. Larvae infected with M. luteus showed a strong suppression of all non-immunity related processes, with several types of immune responses being activated. The impact of these transcriptomic changes, a tradeoff between homeostasis and immune response, were visible in the life history data, wherein individuals infected with M. luteus had the highest mortality rate, along with the lowest pupal weight, developmental rate and adult weight of all the treatments. Overall, we find that the cost of infection and wounding in the final larval instar carries over the metamorphic boundary, and is expected to negatively affect their lifetime fitness.

Published

2019

16. Modular structure, sequence diversification and appropriate nomenclature of seroins produced in the silk glands of Lepidoptera

Author

Miluše Hradilová, Michal Zurovec, Barbara Kludkiewicz, František Sehnal, Hynek Strnad, and Lucie Kucerova

Subjects

0301 basic medicine, Signal peptide, Protein Conformation, Silk, lcsh:Medicine, Biology, Article, Lepidoptera genitalia, 03 medical and health sciences, 0302 clinical medicine, Phylogenetics, Complementary DNA, Animals, lcsh:Science, Databases, Protein, Clade, Multidisciplinary, Phylogenetic tree, cDNA library, lcsh:R, fungi, Alternative splicing, Lepidoptera, Alternative Splicing, 030104 developmental biology, Evolutionary biology, Insect Proteins, lcsh:Q, 030217 neurology & neurosurgery

Abstract

Seroins are small lepidopteran silk proteins known to possess antimicrobial activities. Several seroin paralogs and isoforms were identified in studied lepidopteran species and their classification required detailed phylogenetic analysis based on complete and verified cDNA sequences. We sequenced silk gland-specific cDNA libraries from ten species and identified 52 novel seroin cDNAs. The results of this targeted research, combined with data retrieved from available databases, form a dataset representing the major clades of Lepidoptera. The analysis of deduced seroin proteins distinguished three seroin classes (sn1-sn3), which are composed of modules: A (includes the signal peptide), B (rich in charged amino acids) and C (highly variable linker containing proline). The similarities within and between the classes were 31–50% and 22.5–25%, respectively. All species express one, and in exceptional cases two, genes per class, and alternative splicing further enhances seroin diversity. Seroins occur in long versions with the full set of modules (AB1C1B2C2B3) and/or in short versions that lack parts or the entire B and C modules. The classes and the modular structure of seroins probably evolved prior to the split between Trichoptera and Lepidoptera. The diversity of seroins is reflected in proposed nomenclature.

Published

2019

17. Silk of the common clothes moth, Tineola bisselliella, a cosmopolitan pest belonging to the basal ditrysian moth line

Author

Lenka Rouhova, Hana Sehadova, Michal Zurovec, Michal Sery, Peter Konik, Barbara Kludkiewicz, and Lucie Kucerova

Subjects

Proteomics, 0106 biological sciences, Silk, Fibroin, Zoology, macromolecular substances, Moths, 01 natural sciences, Biochemistry, Sericin, Lepidoptera genitalia, 03 medical and health sciences, Animals, Tineola bisselliella, Protease Inhibitors, Sericins, Molecular Biology, 030304 developmental biology, 0303 health sciences, biology, fungi, technology, industry, and agriculture, equipment and supplies, biology.organism_classification, Biological Evolution, 010602 entomology, SILK, Larva, Insect Science, Insect Proteins, PEST analysis, Fibroins, Clothes moth

Abstract

Many lepidopteran larvae produce silk secretions to build feeding tubes and cocoons that play important protective roles in their lives. Recent research on the silk of bombycoid and pyralid moths has shown that it contains several highly abundant silk components with remarkable mechanical properties. It was also found to contain a number of other proteins of which the functions have yet to be identified. To gain an overview of the silk composition in more primitive lepidopteran species and to identify the core silk components common to most species, we analyzed the cocoon proteins of Tineola bisselliella, which belongs to the basal ditrysian moth line. Using de novo transcriptome sequencing combined with mass spectrometry (MS)-based proteomics, we detected more than 100 secretory proteins in the silk cocoons. Fibroin, sericins, and protease inhibitors were found to be the most abundant proteins, along with several novel candidate silk components. We also verified the tissue and developmental stage specificity of the silk protein expression and characterized the morphology of both the silk glands and silk in T. bisselliella. Our study provides a detailed analysis of silk in the primitive moth, expands the known set of silk-specific genes in Lepidoptera, and helps to elucidate their evolutionary relationships.

Published

2021

18. The Drosophila Chitinase-Like Protein IDGF3 Is Involved in Protection against Nematodes and in Wound Healing

Author

Houda Ouns Maaroufi, Jana Hurychova, Ulrich Theopold, Hynek Strnad, Michal Zurovec, Lucie Kucerova, Badrul Arefin, and Vaclav Broz

Subjects

0301 basic medicine, Innate immune system, Mutant, Context (language use), Biology, biology.organism_classification, stat, Cell biology, 03 medical and health sciences, 030104 developmental biology, Immunity, Botany, Immunology and Allergy, Drosophila melanogaster, Wound healing, Function (biology)

Abstract

Chitinase-like proteins (CLPs) of the 18 glycosyl hydrolase family retain structural similarity to chitinases but lack enzymatic activity. Although CLPs are upregulated in several human disorders that affect regenerative and inflammatory processes, very little is known about their normal physiological function. We show that an insect CLP (Drosophila imaginal disc growth factor 3, IDGF3) plays an immune-protective role during entomopathogenic nematode (EPN) infections. During these infections, nematodes force their entry into the host via border tissues, thus creating wounds. Whole-genome transcriptional analysis of nematode-infected wild-type and Idgf3 mutant larvae have shown that, in addition to the regulation of genes related to immunity and wound closure, IDGF3 represses Jak/STAT and Wingless signaling. Further experiments have confirmed that IDGF3 has multiple roles in innate immunity. It serves as an essential component required for the formation of hemolymph clots that seal wounds, and Idgf3 mutants display an extended developmental delay during wound healing. Altogether, our findings indicate that vertebrate and invertebrate CLP proteins function in analogous settings and have a broad impact on inflammatory reactions and infections. This opens the way to further genetic analysis of Drosophila IDGF3 and will help to elucidate the exact molecular context of CLP function.

Published

2015

19. Drosophila imaginal disc growth factor 2 is a trophic factor involved in energy balance, detoxification, and innate immunity

Author

Lenka Rouhova, Vaclav Broz, Lucie Kucerova, Hynek Strnad, Jana Fleischmannova, Michal Zurovec, and Peter J. Bryant

Subjects

0301 basic medicine, Cell Survival, Biology, Article, 03 medical and health sciences, Immunity, Hemolymph, medicine, Extracellular, Animals, Drosophila Proteins, Cells, Cultured, Glycoproteins, Multidisciplinary, Innate immune system, Ecology, Gene Expression Profiling, Cytoprotection, Adenosine, In vitro, Immunity, Innate, Cell biology, Gene expression profiling, Imaginal disc, 030104 developmental biology, Inactivation, Metabolic, Drosophila, Energy Metabolism, medicine.drug

Abstract

Drosophila imaginal disc growth factor 2 (IDGF2) is a member of chitinase-like protein family (CLPs) able to induce the proliferation of imaginal disc cells in vitro. In this study we characterized physiological concentrations and expression of IDGF2 in vivo as well as its impact on the viability and transcriptional profile of Drosophila cells in vitro. We show that IDGF2 is independent of insulin and protects cells from death caused by serum deprivation, toxicity of xenobiotics or high concentrations of extracellular adenosine (Ado) and deoxyadenosine (dAdo). Transcriptional profiling suggested that such cytoprotection is connected with the induction of genes involved in energy metabolism, detoxification and innate immunity. We also show that IDGF2 is an abundant haemolymph component, which is further induced by injury in larval stages. The highest IDGF2 accumulation was found at garland and pericardial nephrocytes supporting its role in organismal defence and detoxification. Our findings provide evidence that IDGF2 is an important trophic factor promoting cellular and organismal survival.

Published

2017

20. Corrigendum: Characterization of Reproductive Dormancy in Male Drosophila melanogaster

Author

Lucie Kucerova, Dick R. Nässel, Sören Nylin, Olga I. Kubrak, and Ulrich Theopold

Subjects

biology, lcsh:QP1-981, Physiology, media_common.quotation_subject, Zoology, Correction, Diapause, biology.organism_classification, lcsh:Physiology, mating, diapause, reproduction, Drosophila melanogaster, Physiology (medical), Botany, Dormancy, Reproduction, Mating, metabolism, media_common

Abstract

Insects are known to respond to seasonal and adverse environmental changes by entering dormancy, also known as diapause. In some insect species, including

Published

2017

21. Expansion of Imaginal Disc Growth Factor Gene Family in Diptera Reflects the Evolution of Novel Functions

Author

Michal Zurovec, Vladimir Benes, Lucie Kucerova, and Martina Zurovcova

Subjects

idgf, 0106 biological sciences, animal structures, Protein family, Biology, phylogeny, 010603 evolutionary biology, 01 natural sciences, Genome, Article, 03 medical and health sciences, Negative selection, positive selection, Phylogenetics, Gene family, drosophila, lcsh:Science, Gene, 030304 developmental biology, 0303 health sciences, Phylogenetic tree, fungi, chitinase-like protein, Evolutionary biology, chitinase, Insect Science, Imaginal disc growth, Drosophila, lcsh:Q

Abstract

Imaginal disc growth factors (IDGFs) are a small protein family found in insects. They are related to chitinases and implicated in multiple functions, including cell growth stimulation, antimicrobial activity, insect hemolymph clotting, and maintenance of the extracellular matrix. A number of new IDGFs have been found in several insect species and their detailed phylogenetic analysis provides a good basis for further functional studies. To achieve this goal, we sequenced Idgf cDNAs from several lepidopteran and trichopteran species and supplemented our data with sequences retrieved from public databases. A comparison of Idgf genes in different species showed that Diptera typically contain several Idgf paralogs with a simple exon-intron structure (2&ndash, 3 exons), whereas lepidopteran Idgfs appear as a single copy per genome and contain a higher number of exons (around 9). Our results show that, while lepidopteran Idgfs, having single orthologs, are characterized by low divergence and stronger purifying selection over most of the molecule, the duplicated Idgf genes in Diptera, Idgf1 and Idgf4, exhibit signs of positive selection. This characterization of IDGF evolution provides, to our knowledge, the first information on the changes that formed these important molecules.

Published

2019

22. Genome-Wide Transcriptional Analysis of Drosophila Larvae Infected by Entomopathogenic Nematodes Shows Involvement of Complement, Recognition and Extracellular Matrix Proteins

Author

Zhi Wang, Ulrich Theopold, Pavel Hyršl, Michal Zurovec, Badrul Arefin, Hynek Strnad, Pavel Dobeš, Lucie Kucerova, and Robert Markus

Subjects

0303 health sciences, Entomopathogenic nematode, Biology, biology.organism_classification, Genome, 3. Good health, Microbiology, Complement system, 03 medical and health sciences, 0302 clinical medicine, Nematode, Photorhabdus luminescens, Hemolymph, Heterorhabditis bacteriophora, Immunology and Allergy, Gene, 030217 neurology & neurosurgery, 030304 developmental biology

Abstract

Heterorhabditis bacteriophora is an entomopathogenic nematode (EPN) which infects its host by accessing the hemolymph where it releases endosymbiotic bacteria of the species Photorhabdus luminescens. We performed a genome-wide transcriptional analysis of the Drosophila response to EPN infection at the time point at which the nematodes reached the hemolymph either via the cuticle or the gut and the bacteria had started to multiply. Many of the most strongly induced genes have been implicated in immune responses in other infection models. Mapping of the complete set of differentially regulated genes showed the hallmarks of a wound response, but also identified a large fraction of EPN-specific transcripts. Several genes identified by transcriptome profiling or their homologues play protective roles during nematode infections. Genes that positively contribute to controlling nematobacterial infections encode: a homolog of thioester-containing complement protein 3, a basement membrane component (glutactin), a recognition protein (GNBP-like 3) and possibly several small peptides. Of note is that several of these genes have not previously been implicated in immune responses.

Published

2013

23. Sericin Composition in the Silk of Antheraea yamamai

Author

Michal Zurovec, Hynek Strnad, Hana Sehadova, Barbara Kludkiewicz, František Sehnal, Naoyuki Yonemura, Peter Konik, Lucie Kucerova, Ligia Cota Vieira, and Dalibor Kodrík

Subjects

0106 biological sciences, 0301 basic medicine, Polymers and Plastics, Silk, Fibroin, Bioengineering, Biology, Moths, 01 natural sciences, Sericin, Biomaterials, Bombycidae, 03 medical and health sciences, Saturniidae, Bombyx mori, Materials Chemistry, Antheraea yamamai, Animals, Amino Acid Sequence, Sericins, Peptide sequence, Phylogeny, Sequence Homology, Amino Acid, fungi, biology.organism_classification, 010602 entomology, 030104 developmental biology, SILK, Biochemistry, Insect Proteins

Abstract

The silks produced by caterpillars consist of fibroin proteins that form two core filaments, and sericin proteins that seal filaments into a fiber and conglutinate fibers in the cocoon. Sericin genes are well-known in Bombyx mori (Bombycidae) but have received little attention in other insects. This paper shows that Antheraea yamamai (Saturniidae) contains five sericin genes very different from the three sericin genes of B. mori. In spite of differences, all known sericins are characterized by short exons 1 and 2 (out of 3-12 exons), expression in the middle silk gland section, presence of repeats with high contents of Ser and charged amino acid residues, and secretion as a sticky silk component soluble in hot water. The B. mori sericins represent tentative phylogenetic lineages (I) BmSer1 and orthologs in Saturniidae, (II) BmSer2, and (III) BmSer3 and related sericins of Saturniidae and of the pyralid Galleria mellonella. The lineage (IV) seems to be limited to Saturniidae. Concerted evolution of the sericin genes was apparently associated with gene amplifications as well as gene loses. Differences in the silk fiber morphology indicate that the cocktail of sericins linking the filaments and coating the fiber is modified during spinning. Silks are composite biomaterials of conserved function in spite of great diversity of their composition.

Published

2016

24. Characterization of the Drosophila adenosine receptor: the effect of adenosine analogs on cAMP signaling in Drosophila cells and their utility for in vivo experiments

Author

Roman Sidorov, Michal Zurovec, Jana Fleischmannova, Eva Santruckova, Lucie Kucerova, Vladimir Dolezal, and Vaclav Broz

Subjects

chemistry.chemical_classification, Agonist, 0303 health sciences, medicine.drug_class, fungi, Biology, Biochemistry, Adenosine, Adenosine receptor, Amino acid, 03 medical and health sciences, Cellular and Molecular Neuroscience, 0302 clinical medicine, chemistry, Cell culture, medicine, Receptor, 030217 neurology & neurosurgery, Adenosine A2B receptor, 030304 developmental biology, medicine.drug, G protein-coupled receptor

Abstract

J. Neurochem. (2012) 121, 383–395. Abstract Adenosine receptors (AR) belonging to the G protein-coupled receptor family influence a wide range of physiological processes. Recent elucidation of the structure of human A2AR revealed the conserved amino acids necessary for contact with the Ado moiety. However, the selectivity of Ado analogs for AR subtypes is still not well understood. We have shown previously that the Drosophila adenosine receptor (DmAdoR) evokes an increase in cAMP and calcium concentration in heterologous cells. In this study, we have characterized the second-messenger stimulation by endogenous DmAdoR in a Drosophila neuroblast cell line and examined a number of Ado analogs for their ability to interact with DmAdoR. We show that Ado can stimulate cAMP but not calcium levels in Drosophila cells. We found one full and four partial DmAdoR agonists, as well as four antagonists. The employment of the full agonist, 2-chloroadenosine, in flies mimicked in vivo the phenotype of DmAdoR over-expression, whereas the antagonist, SCH58261, rescued the flies from the lethality caused by DmAdoR over-expression. Differences in pharmacological effect of the tested analogs between DmAdoR and human A2AR can be partially explained by the dissimilarity of specific key amino acid residues disclosed by the alignment of these receptors.

Published

2012

25. Characterization of two closely related α-amylase paralogs in the bark beetle, Ips typographus (L.)

Author

Michal Zurovec, Martina Zurovcova, Ian Henry, Ivana Viktorinová, Marek Jindra, Marta Bohmova, Petr Dolez̆al, and Lucie Kucerova

Subjects

0106 biological sciences, Gene isoform, Bark beetle, Physiology, Electrophoresis, Starch Gel, Molecular Sequence Data, 01 natural sciences, Biochemistry, Isozyme, 03 medical and health sciences, Exon, Gene duplication, Animals, Amino Acid Sequence, RNA, Messenger, Cloning, Molecular, Gene, Phylogeny, 030304 developmental biology, chemistry.chemical_classification, Genetics, 0303 health sciences, Base Sequence, Sequence Homology, Amino Acid, biology, fungi, Intron, General Medicine, biology.organism_classification, Amino acid, Coleoptera, Isoenzymes, 010602 entomology, chemistry, Insect Science, Insect Proteins, Electrophoresis, Polyacrylamide Gel, alpha-Amylases

Abstract

Ips typographus (L.), the eight-spined spruce bark beetle, causes severe damage throughout Eurasian spruce forests and suitable nuclear markers are needed in order to study its population structure on a genetic level. Two closely related genes encoding α-amylase in I. typographus were characterized and named AmyA and AmyB. Both α-amylase paralogs consisted of six exons and five introns. AmyA encodes a polypeptide of 483 amino acids, whereas AmyB has two alternative transcripts encoding polypeptides of 483 and 370 amino acids. The expression levels of both genes were high during larval stage and adulthood. The AmyB transcripts were absent in the pupal stage. A modification of the allozyme staining method allowed us to detect two clusters of bands on the electrophoretic gel that may correspond to the two α-amylase genes. There was a correlation between the lack of AmyB expression in pupa and the absence of the fast migrating isozyme cluster at this stage, suggesting that the faster migrating isoforms are products of the AmyB gene, whereas the slowly migrating bands are derived from the AmyA. © 2011 Wiley Periodicals, Inc.

Published

2011

26. The Drosophila Chitinase-Like Protein IDGF3 Is Involved in Protection against Nematodes and in Wound Healing

Author

Lucie, Kucerova, Vaclav, Broz, Badrul, Arefin, Houda Ouns, Maaroufi, Jana, Hurychova, Hynek, Strnad, Michal, Zurovec, and Ulrich, Theopold

Subjects

Wound Healing, Drosophila melanogaster, Nematoda, Animals, Drosophila Proteins, Nematode Infections, Genome-Wide Association Study, Glycoproteins, Signal Transduction

Abstract

Chitinase-like proteins (CLPs) of the 18 glycosyl hydrolase family retain structural similarity to chitinases but lack enzymatic activity. Although CLPs are upregulated in several human disorders that affect regenerative and inflammatory processes, very little is known about their normal physiological function. We show that an insect CLP (Drosophila imaginal disc growth factor 3, IDGF3) plays an immune-protective role during entomopathogenic nematode (EPN) infections. During these infections, nematodes force their entry into the host via border tissues, thus creating wounds. Whole-genome transcriptional analysis of nematode-infected wild-type and Idgf3 mutant larvae have shown that, in addition to the regulation of genes related to immunity and wound closure, IDGF3 represses Jak/STAT and Wingless signaling. Further experiments have confirmed that IDGF3 has multiple roles in innate immunity. It serves as an essential component required for the formation of hemolymph clots that seal wounds, and Idgf3 mutants display an extended developmental delay during wound healing. Altogether, our findings indicate that vertebrate and invertebrate CLP proteins function in analogous settings and have a broad impact on inflammatory reactions and infections. This opens the way to further genetic analysis of Drosophila IDGF3 and will help to elucidate the exact molecular context of CLP function.

Published

2015

27. The Sleeping Beauty: How Reproductive Diapause Affects Hormone Signaling, Metabolism, Immune Response and Somatic Maintenance in Drosophila melanogaster

Author

Lucie Kucerova, Dick R. Nässel, Olga I. Kubrak, and Ulrich Theopold

Subjects

Senescence, medicine.medical_specialty, Time Factors, Physiology, Insulins, lcsh:Medicine, Gene Expression, Diapause, Diapause, Insect, Eating, Cell Signaling, Endocrine Signaling, Reproductive Physiology, Internal medicine, Immune Physiology, medicine, Melanogaster, Genetics, Animals, Drosophila Proteins, lcsh:Science, Physiological Adaptation, Multidisciplinary, Innate immune system, biology, Endocrine Physiology, lcsh:R, fungi, Insulin Signaling, Ovary, Biology and Life Sciences, Lipid metabolism, Cell Biology, biology.organism_classification, Endocrinology, Drosophila melanogaster, Dormancy, lcsh:Q, Female, Signal transduction, Physiological Processes, Research Article, Signal Transduction, Developmental Biology

Abstract

Some organisms can adapt to seasonal and other environmental challenges by entering a state of dormancy, diapause. Thus, insects exposed to decreased temperature and short photoperiod enter a state of arrested development, lowered metabolism, and increased stress resistance. Drosophila melanogaster females can enter a shallow reproductive diapause in the adult stage, which drastically reduces organismal senescence, but little is known about the physiology and endocrinology associated with this dormancy, and the genes involved in its regulation. We induced diapause in D. melanogaster and monitored effects over 12 weeks on dynamics of ovary development, carbohydrate and lipid metabolism, as well as expression of genes involved in endocrine signaling, metabolism and innate immunity. During diapause food intake diminishes drastically, but circulating and stored carbohydrates and lipids are elevated. Gene transcripts of glucagon- and insulin-like peptides increase, and expression of several target genes of these peptides also change. Four key genes in innate immunity can be induced by infection in diapausing flies, and two of these, drosomycin and cecropin A1, are upregulated by diapause independently of infection. Diapausing flies display very low mortality, extended lifespan and decreased aging of the intestinal epithelium. Many phenotypes induced by diapause are reversed after one week of recovery from diapause conditions. Furthermore, mutant flies lacking specific insulin-like peptides (dilp5 and dilp2-3) display increased diapause incidence. Our study provides a first comprehensive characterization of reproductive diapause in D. melanogaster, and evidence that glucagon- and insulin-like signaling are among the key regulators of the altered physiology during this dormancy.

Published

2014

28. Mutation in the Drosophila melanogaster adenosine receptor gene selectively decreases the mosaic hyperplastic epithelial outgrowth rates in wts or dco heterozygous flies

Author

Michal Zurovec, István Kiss, Lucie Kucerova, and Roman Sidorov

Subjects

Male, Loss of Heterozygosity, Equilibrative nucleoside transporter 2, medicine.disease_cause, Loss of heterozygosity, Cellular and Molecular Neuroscience, Paracrine signalling, medicine, Animals, Drosophila Proteins, Receptor, Molecular Biology, Tissue homeostasis, Mutation, biology, Receptors, Purinergic P1, Membrane Transport Proteins, Cell Biology, Molecular biology, Adenosine, Drosophila melanogaster, biology.protein, Female, Original Article, Signal transduction, medicine.drug, Signal Transduction

Abstract

Adenosine (Ado) is a ubiquitous metabolite that plays a prominent role as a paracrine homeostatic signal of metabolic imbalance within tissues. It quickly responds to various stress stimuli by adjusting energy metabolism and influencing cell growth and survival. Ado is also released by dead or dying cells and is present at significant concentrations in solid tumors. Ado signaling is mediated by Ado receptors (AdoR) and proteins modulating its concentration, including nucleoside transporters and Ado deaminases. We examined the impact of genetic manipulations of three Drosophila genes involved in Ado signaling on the incidence of somatic mosaic clones formed by the loss of heterozygosity (LOH) of tumor suppressor and marker genes. We show here that genetic manipulations with the AdoR, equilibrative nucleoside transporter 2 (Ent2), and Ado deaminase growth factor-A (Adgf-A) cause dramatic changes in the frequency of hyperplastic outgrowth clones formed by LOH of the warts (wts) tumor suppressor, while they have almost no effect on control yellow (y) clones. In addition, the effect of AdoR is dose-sensitive and its overexpression leads to the increase in wts hyperplastic epithelial outgrowth rates. Consistently, the frequency of mosaic hyperplastic outgrowth clones generated by the LOH of another tumor suppressor, discs overgrown (dco), belonging to the wts signaling pathway is also dependent on AdoR. Our results provide interesting insight into the maintenance of tissue homeostasis at a cellular level.

Published

2014

29. REMOVAL OF METALS FROM AQUEOUS SOLUTIONS

Author

Lucie Kucerova

Subjects

Aqueous solution, Chemistry, Inorganic chemistry

Published

2014

30. A Drosophila immune response against Ras-induced overgrowth

Author

Lucie Kucerova, Anne Volkenhoff, Thomas Hauling, Robert Markus, Robert Krautz, and Ulrich Theopold

Subjects

Innate immunity, Innate immune system, Tumor, Hemocytes, biology, QH301-705.5, Science, biology.organism_classification, Acquired immune system, Phenotype, General Biochemistry, Genetics and Molecular Biology, Germline, Cell biology, Imaginal disc, Immune system, Immunology, Insect immunity, Ectopic expression, Encapsulation, Biology (General), Drosophila melanogaster, General Agricultural and Biological Sciences, Oncogene, Research Article

Abstract

Our goal is to characterize the innate immune response against the early stage of tumor development. For this, animal models where genetic changes in specific cells and tissues can be performed in a controlled way have become increasingly important, including the fruitfly Drosophila melanogaster. Many tumor mutants in Drosophila affect the germline and, as a consequence, also the immune system itself, making it difficult to ascribe their phenotype to a specific tissue. Only during the past decade, mutations have been induced systematically in somatic cells to study the control of tumorous growth by neighboring cells and by immune cells. Here we show that upon ectopic expression of a dominant-active form of the Ras oncogene (RasV12), both imaginal discs and salivary glands are affected. Particularly, the glands increase in size, express metalloproteinases and display apoptotic markers. This leads to a strong cellular response, which has many hallmarks of the granuloma-like encapsulation reaction, usually mounted by the insect against larger foreign objects. RNA sequencing of the fat body reveals a characteristic humoral immune response. In addition we also identify genes that are specifically induced upon expression of RasV12. As a proof-of-principle, we show that one of the induced genes (santa-maria), which encodes a scavenger receptor, modulates damage to the salivary glands. The list of genes we have identified provides a rich source for further functional characterization. Our hope is that this will lead to a better understanding of the earliest stage of innate immune responses against tumors with implications for mammalian immunity.

Published

2014

31. Viability, longevity, and egg production of Drosophila melanogaster are regulated by the miR-282 microRNA

Author

Ágnes Bujna, Ferenc Jankovics, Lucie Kucerova, Tamas Lukacsovich, Péter Vilmos, Zoltán Havelda, Milán Szuperák, László Henn, Éva Várallyay, Kálmán Somogyi, János Szabad, Ildikó Kristó, and Miklós Erdélyi

Subjects

Genetics, biology, Cell Survival, Longevity, MicroRNA Gene, Metamorphosis, Biological, Gene Expression Regulation, Developmental, Locus (genetics), Investigations, Primary transcript, biology.organism_classification, Cyclase, Nervous System, MicroRNAs, Drosophila melanogaster, microRNA, Animals, Cyclase activity, Gene, Adenylyl Cyclases, Ovum

Abstract

The first microRNAs were discovered some 20 years ago, but only a small fraction of the microRNA-encoding genes have been described in detail yet. Here we report the molecular analysis of a computationally predicted Drosophila melanogaster microRNA gene, mir-282. We show that the mir-282 gene is the source of a 4.9-kb-long primary transcript with a 5′ cap and a 3′-poly(A) sequence and a mature microRNA of ∼25 bp. Our data strongly suggest the existence of an independent mir-282 gene conserved in holometabolic insects. We give evidence that the mir-282 locus encodes a functional transcript that influences viability, longevity, and egg production in Drosophila. We identify the nervous system-specific adenylate cyclase (rutabaga) as a target of miR-282 and assume that one of the main functions of mir-282 is the regulation of adenylate cyclase activity in the nervous system during metamorphosis.

Published

2013

32. REGRESSION FUNCTION APPLICATION FOR PREDICTING FUTURE EXTRACTION OF BRICK MAKING MINERALS

Author

Lucie Kucerova

Subjects

Engineering, Brick, Mining engineering, business.industry, Regression function, Extraction (chemistry), business, Civil engineering

Published

2013

33. Functional conservation and structural diversification of silk sericins in two moth species

Author

František Sehnal, Michal Zurovec, Barbara Kludkiewicz, Jitka Sulitkova, Václav Mach, Robert Fedic, and Lucie Kucerova

Subjects

Polymers and Plastics, Protein Conformation, RNA Splicing, Molecular Sequence Data, Silk, Fibroin, Bioengineering, Moths, Sericin, Biomaterials, Protein structure, Species Specificity, Bombyx mori, Sequence Homology, Nucleic Acid, Botany, Materials Chemistry, Animals, Amino Acid Sequence, Sericins, Peptide sequence, Bombyx, biology, Base Sequence, fungi, biology.organism_classification, Cell biology, Galleria mellonella, SILK

Abstract

Sericins are hydrophilic structural proteins produced by caterpillars in the middle section of silk glands and layered over fibroin proteins secreted in the posterior section. In the process of spinning, fibroins form strong solid filaments, while sericins seal the pair of filaments into a single fiber and glue the fiber into a cocoon. Galleria mellonella and the previously examined Bombyx mori harbor three sericin genes that encode proteins containing long repetitive regions. Galleria sericin genes are similar to each other and the protein repeats are built from short and extremely serine-rich motifs, while Bombyx sericin genes are diversified and encode proteins with long and complex repeats. Developmental changes in sericin properties are controlled at the level of gene expression and splicing. In Galleria , MG-1 sericin is produced throughout larval life until the wandering stage, while the production of MG-2 and MG-3 reaches a peak during cocoon spinning.

Published

2013

34. Genome-wide transcriptional analysis of Drosophila larvae infected by entomopathogenic nematodes shows involvement of complement, recognition and extracellular matrix proteins

Author

Badrul, Arefin, Lucie, Kucerova, Pavel, Dobes, Robert, Markus, Hynek, Strnad, Zhi, Wang, Pavel, Hyrsl, Michal, Zurovec, and Ulrich, Theopold

Subjects

Extracellular Matrix Proteins, Hemocytes, Membrane Glycoproteins, Microscopy, Confocal, Reverse Transcriptase Polymerase Chain Reaction, Genome, Insect, Complement System Proteins, Host-Parasite Interactions, Animals, Genetically Modified, Luminescent Proteins, Drosophila melanogaster, Gene Ontology, Larva, Host-Pathogen Interactions, Animals, Cluster Analysis, Drosophila Proteins, RNA Interference, Photorhabdus, Rhabditoidea, Transcriptome, Oligonucleotide Array Sequence Analysis, Research Article

Abstract

Heterorhabditis bacteriophora is an entomopathogenic nematode (EPN) which infects its host by accessing the hemolymph where it releases endosymbiotic bacteria of the species Photorhabdus luminescens. We performed a genome-wide transcriptional analysis of the Drosophila response to EPN infection at the time point at which the nematodes reached the hemolymph either via the cuticle or the gut and the bacteria had started to multiply. Many of the most strongly induced genes have been implicated in immune responses in other infection models. Mapping of the complete set of differentially regulated genes showed the hallmarks of a wound response, but also identified a large fraction of EPN-specific transcripts. Several genes identified by transcriptome profiling or their homologues play protective roles during nematode infections. Genes that positively contribute to controlling nematobacterial infections encode: a homolog of thioester-containing complement protein 3, a basement membrane component (glutactin), a recognition protein (GNBP-like 3) and possibly several small peptides. Of note is that several of these genes have not previously been implicated in immune responses.

Published

2013

35. INVESTIGATION�INTO�HOW�SOME�COMPANIES�PAY�FOR�TECHNICAL�EQUIPMENT�OF�PRODUCTION

Author

Lucie Kucerova

Published

2012

36. FINANCIAL�OPTIONS�FOR�PRODUCTION�EQUIPMENT�INVESTMENTS�IN�THE�CZECH�REPUBLIC

Author

Lucie Kucerova

Published

2012

37. Quality Assessment of Detail in Wooden House Critical connection of the wall and the ceiling construction

Author

Lucie, Kucerova, primary and Sarka, Korbelova, primary

Published

2015

38. Apoptosis in Hemocytes Induces a Shift in Effector Mechanisms in the Drosophila Immune System and Leads to a Pro-Inflammatory State

Author

Farjana Parvin, Holger Kranenburg, Badrul Arefin, Lucie Kucerova, Ulrich Theopold, and Robert Krautz

Subjects

Cellular immunity, Hemocytes, animal structures, Antimicrobial peptides, lcsh:Medicine, Apoptosis, Inflammation, Biology, Nitric Oxide, Immune system, Phagocytosis, Immunity, Hemolymph, medicine, Animals, lcsh:Science, Multidisciplinary, Effector, lcsh:R, fungi, Lamellocyte differentiation, Immunity, Innate, Cell biology, Drosophila melanogaster, Larva, Immunology, lcsh:Q, medicine.symptom, Rhabditoidea, Research Article

Abstract

Apart from their role in cellular immunity via phagocytosis and encapsulation, Drosophila hemocytes release soluble factors such as antimicrobial peptides, and cytokines to induce humoral responses. In addition, they participate in coagulation and wounding, and in development. To assess their role during infection with entomopathogenic nematodes, we depleted plasmatocytes and crystal cells, the two classes of hemocytes present in naïve larvae by expressing proapoptotic proteins in order to produce hemocyte-free (Hml-apo, originally called Hemoless) larvae. Surprisingly, we found that Hml-apo larvae are still resistant to nematode infections. When further elucidating the immune status of Hml-apo larvae, we observe a shift in immune effector pathways including massive lamellocyte differentiation and induction of Toll- as well as repression of imd signaling. This leads to a pro-inflammatory state, characterized by the appearance of melanotic nodules in the hemolymph and to strong developmental defects including pupal lethality and leg defects in escapers. Further analysis suggests that most of the phenotypes we observe in Hml-apo larvae are alleviated by administration of antibiotics and by changing the food source indicating that they are mediated through the microbiota. Biochemical evidence identifies nitric oxide as a key phylogenetically conserved regulator in this process. Finally we show that the nitric oxide donor L-arginine similarly modifies the response against an early stage of tumor development in fly larvae.

Published

2015

39. Front & Back Matter

Author

Yuemei Dong, Sandra Jansen, Thomas Pufe, Jose Luis Ramirez, Peter Aaby, Simone C. Tauber, Cornelis van 't Veer, Frank Preijers, Gee W. Lau, Jude M. Taylor, Johanneke Kleinnijenhuis, Jessica Quintin, Tracy Maddocks, Leo A. B. Joosten, Pavel Hyršl, Emma J. Grant, Zhiyong Ma, Pavel Dobeš, Magdiel Pérez-Cruz, Lucie Kucerova, Rommel Max Tan, Mihai G. Netea, Mengji Lu, Jaring S. van der Zee, Cristina Costa, Zhi Wang, Yonghua Hao, Alvaro Molina-Cruz, Janneth Rodrigues, Zhizhou Kuang, Joke van Loenhout, Florry E. van den Boogaard, Jean Gosselin, Mercedes Monteleone, Amanda Skora, Jason D. McArthur, Marie Ranson, Victor Nizet, Katherine Kedzierska, Jos W. M. van der Meer, George Dimopoulos, Druckerei Stückle, James A. Tsatsaronis, Diane Ly, Alexandre Brunet, Rongjuan Pei, Badrul Arefin, Thekla Kemper, Reinout van Crevel, Carolina Barillas-Mury, Dimitri A. Diavatopoulos, Ulrich Theopold, Luiz Carlos Alves, Fábio André Brayner, Satz Mengensatzproduktion, Alex F. de Vos, Stan de Kleijn, Lea-Jessica Albrecht, Manon Le Bel, Mark J. Walker, Aldert Zomer, Michal Zurovec, Jonas Höss, Arie J. Hoogendijk, Patrick C. Reading, Xiaoyong Zhang, Cortny A. Donald, Nicholas P. West, Robert Markus, Xinwen Chen, Bo Qin, Regina de Beer, Peter W. M. Hermans, Eugenia Kress, Lars-Ove Brandenburg, Hynek Strnad, Martina L. Sanderson-Smith, Lindsey S. Garver, Joerg Schlaak, Marloes Vissers, Tom van der Poll, Christine Stabell Benn, Martin Trippler, Kirsty R. Short, Gerben Ferwerda, Oliver Soehnlein, Wandi Zhu, Joris J. T. H. Roelofs, Ramnik J. Xavier, Cor Jacobs, Rafael Mañez, Julika Merres, J. Daan de Boer, Jack Yang, and April M. Clayton

Subjects

Optics, business.industry, Immunology and Allergy, business, Geology, Front (military)

Published

2013

40. Physiological Tradeoffs of Immune Response Differs by Infection Type in Pieris napi

Author

Naomi L. P. Keehnen, Lucie Kučerová, Sören Nylin, Ulrich Theopold, and Christopher W. Wheat

Subjects

infection, life history, transcriptomics, trade-offs, lepidoptera, Physiology, QP1-981

Abstract

Understanding the tradeoffs that result from successful infection responses is central to understanding how life histories evolve. Gaining such insights, however, can be challenging, as they may be pathogen specific and confounded with experimental design. Here, we investigated whether infection from gram positive or negative bacteria results in different physiological tradeoffs, and whether these infections impact life history later in life (post-diapause development), in the butterfly Pieris napi. During the first 24 h after infection (3, 6, 12, and 24 h), after removing effects due to injection, larvae infected with Micrococcus luteus showed a strong suppression of all non-immunity related processes while several types of immune responses were upregulated. In contrast, this tradeoff between homeostasis and immune response was much less pronounced in Escherichia coli infections. These differences were also visible long after infection, via weight loss and slower development, as well as an increased mortality at higher infection levels during later stages of development. Individuals infected with M. luteus, compared to E. coli, had a higher mortality rate, and a lower pupal weight, developmental rate and adult weight. Further, males exhibited a more negative impact of infection than females. Thus, immune responses come at a cost even when the initial infection has been overcome, and these costs are likely to affect later life history parameters with fitness consequences.

Published

2021

41. N-Pyrazinoyl Substituted Amino Acids as Potential Antimycobacterial Agents—the Synthesis and Biological Evaluation of Enantiomers

Author

Martin Juhás, Lucie Kučerová, Ondřej Horáček, Ondřej Janďourek, Vladimír Kubíček, Klára Konečná, Radim Kučera, Pavel Bárta, Jiří Janoušek, Pavla Paterová, Jiří Kuneš, Martin Doležal, and Jan Zitko

Subjects

amino acids, antibacterial, antimycobacterial, cytotoxicity, pyrazinamide, tuberculosis, Organic chemistry, QD241-441

Abstract

Tuberculosis is an infectious disease caused by Mycobacterium tuberculosis (Mtb), each year causing millions of deaths. In this article, we present the synthesis and biological evaluations of new potential antimycobacterial compounds containing a fragment of the first-line antitubercular drug pyrazinamide (PZA), coupled with methyl or ethyl esters of selected amino acids. The antimicrobial activity was evaluated on a variety of (myco)bacterial strains, including Mtb H37Ra, M. smegmatis, M. aurum, Staphylococcus aureus, Pseudomonas aeruginosa, and fungal strains, including Candida albicans and Aspergillus flavus. Emphasis was placed on the comparison of enantiomer activities. None of the synthesized compounds showed any significant activity against fungal strains, and their antibacterial activities were also low, the best minimum inhibitory concentration (MIC) value was 31.25 µM. However, several compounds presented high activity against Mtb. Overall, higher activity was seen in derivatives containing l-amino acids. Similarly, the activity seems tied to the more lipophilic compounds. The most active derivative contained phenylglycine moiety (PC-d/l-Pgl-Me, MIC < 1.95 µg/mL). All active compounds possessed low cytotoxicity and good selectivity towards Mtb. To the best of our knowledge, this is the first study comparing the activities of the d- and l-amino acid derivatives of pyrazinamide as potential antimycobacterial compounds.

Published

2020

42. Corrigendum: Characterization of Reproductive Dormancy in Male Drosophila melanogaster

Author

Olga I. Kubrak, Lucie Kučerová, Ulrich Theopold, Sören Nylin, and Dick R. Nässel

Subjects

Drosophila melanogaster, diapause, reproduction, mating, metabolism, Physiology, QP1-981

Published

2017

43. Economic modelling under conditions of exploitation of cohesive construction minerals

Author

Milan Mikoláš, Michal Vaněk, Igor Černý, Lucie Kučerová, and František Žoček

Subjects

decision-making, simulation methods, economic modelling, construction minerals, Agriculture, Biology (General), QH301-705.5

Abstract

Managers of mining companies use for decision-making on optimization of manufacturing processes advanced modelling methods and simulations on computers. The article proposes and analyses the model of a mining company production cycle consisting of a three-dimensional quarry model, technology model and economic-mathematical model. Based on the latter model an economic simulation model of a quarry has been created in the MS Excel program currently available on all personal computers, which measures outputs in the form of changes in total and unit costs according to the generic classification of costs in response to changes in inputs in the form of parameters of technology equipment and other operating parameters. Managers use the economic simulation model of quarry as decision support to increase profitability or improve competitiveness of their product from the sector of construction minerals.

Published

2011

44. 'DNA barcoding' is of limited value for identifying adelgids (Hemiptera: Adelgidae) but supports traditional morphological taxonomy

Author

Martina ŽUROVCOVÁ, Jan HAVELKA, Petr STARÝ, Pavlína VĚCHTOVÁ, Daniela CHUNDELOVÁ, Andrea JAROŠOVÁ, and Lucie KUČEROVÁ

Subjects

adelgidae, aphids, species identification, systematics, dna barcoding, Zoology, QL1-991

Abstract

The sequence diversity in the mitochondrial cytochrome-c oxidase I (COI) gene was evaluated as a tool for resolving differences among species of European adelgids collected from several localities across the Czech Republic. Members of 7 genera and 16 species were examined, and as outgroups, two species of Phylloxeridae were used. Sequence divergences within species were on average less than 0.15%, whereas divergences between species ranged from 0.0 to 4.12% for congeneric and to 13.24% for intergeneric comparisons. It is concluded that DNA barcoding of Adelgidae is a powerful tool for identifying genera, but at the species level it works only in those cases where there are no species complexes. Nevertheless, it can be used as a complement to traditional, morphological taxonomy.

Published

2010

45. The sleeping beauty: how reproductive diapause affects hormone signaling, metabolism, immune response and somatic maintenance in Drosophila melanogaster.

Author

Olga I Kubrak, Lucie Kučerová, Ulrich Theopold, and Dick R Nässel

Subjects

Medicine, Science

Abstract

Some organisms can adapt to seasonal and other environmental challenges by entering a state of dormancy, diapause. Thus, insects exposed to decreased temperature and short photoperiod enter a state of arrested development, lowered metabolism, and increased stress resistance. Drosophila melanogaster females can enter a shallow reproductive diapause in the adult stage, which drastically reduces organismal senescence, but little is known about the physiology and endocrinology associated with this dormancy, and the genes involved in its regulation. We induced diapause in D. melanogaster and monitored effects over 12 weeks on dynamics of ovary development, carbohydrate and lipid metabolism, as well as expression of genes involved in endocrine signaling, metabolism and innate immunity. During diapause food intake diminishes drastically, but circulating and stored carbohydrates and lipids are elevated. Gene transcripts of glucagon- and insulin-like peptides increase, and expression of several target genes of these peptides also change. Four key genes in innate immunity can be induced by infection in diapausing flies, and two of these, drosomycin and cecropin A1, are upregulated by diapause independently of infection. Diapausing flies display very low mortality, extended lifespan and decreased aging of the intestinal epithelium. Many phenotypes induced by diapause are reversed after one week of recovery from diapause conditions. Furthermore, mutant flies lacking specific insulin-like peptides (dilp5 and dilp2-3) display increased diapause incidence. Our study provides a first comprehensive characterization of reproductive diapause in D. melanogaster, and evidence that glucagon- and insulin-like signaling are among the key regulators of the altered physiology during this dormancy.

Published

2014