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3. Functional characterization of the dual allatostatin-A receptors in mosquitoes

Author

Christ, P., Hill, S., Schachtner, J., Hauser, F., and Ignell, R.

Subjects
parasitic diseases, fungi
Abstract

The neuropeptide allatostatin-A (AstA) and its cognate receptors (AstARs) are involved in the modulation of feeding behavior, which in hematophagous insects includes the regulation of the disease vector-related behaviors, host seeking and blood feeding. In mosquitoes and other dipterans, there are two copies of AstAR, contrasting with the single copy found in other insects. In this study, we identified and cloned the dual AstAR system of two important disease vectors Aedes aegypti and Culex quinquefasciatus, and compared them with those previously described, including those in Anopheles coluzzii and Drosophila melanogaster. Phylogenetic analysis of the AstARs revealed that the mosquito AstAR1s has retained a similar amino acid sequence as the AstARs from non-dipteran insect species. Intron analysis revealed that the number of introns accumulated in the AstAR2s is similar to that in other insects, and that introns are conserved within the receptor types, but that only the final two introns are conserved across AstAR1s and 2s. We functionally characterized the dual AstARs in An. coluzzii, Ae. aegypti and Cx. quinquefasciatus by stably expressing the receptors in a Chinese hamster oocyte cell line (CHO) also stably expressing a promiscuous G-protein (G16), and challenged them with the endogenous isoforms of AstA from the three mosquito species. In the culicine mosquitoes, Ae. aegypti and Cx. quinquefasciatus, the AstARs demonstrated differential sensitivity to AstA, with the AstAR2s displaying a higher sensitivity than the AstAR1s, suggesting a divergence of functional roles for these AstARs. In contrast, both An. coluzzii AstARs demonstrated a similar sensitivity to the AstA ligands. We discuss our findings in the light of AstA acting as a regulator of blood feeding in mosquitoes. A better understanding of the regulation of host seeking and blood feeding in vector mosquitoes will lead to the rational development of novel approaches for vector control.

Published
2018

4. The genome of the model beetle and pest tribolium castaneum

Author

Richards, S, Gibbs, RA, Weinstock, GM, Brown, SJ, Denell, R, Beeman, RW, Gibbs, R, Bucher, G, Friedrich, M, Grimmelikhuijzen, CJ, Klingler, M, Lorenzen, M, Roth, S, Schröder, R, Tautz, D, Zdobnov, EM, Muzny, D, Attaway, T, Bell, S, Buhay, CJ, Chandrabose, MN, Chavez, D, Clerk-Blankenburg, KP, Cree, A, Dao, M, Davis, C, Chacko, J, Dinh, H, Dugan-Rocha, S, Fowler, G, Garner, TT, Garnes, J, Gnirke, A, Hawes, A, Hernandez, J, Hines, S, Holder, M, Hume, J, Jhangiani, SN, Joshi, V, Khan, ZM, Jackson, L, Kovar, C, Kowis, A, Lee, S, Lewis, LR, Margolis, J, Morgan, M, Nazareth, LV, Nguyen, N, Okwuonu, G, Parker, D, Ruiz, SJ, Santibanez, J, Savard, J, Scherer, SE, Schneider, B, Sodergren, E, Vattahil, S, Villasana, D, White, CS, Wright, R, Park, Y, Lord, J, Oppert, B, Brown, S, Wang, L, Weinstock, G, Liu, Y, Worley, K, Elsik, CG, Reese, JT, Elhaik, E, Landan, G, Graur, D, Arensburger, P, Atkinson, P, Beidler, J, Demuth, JP, Drury, DW, Du, YZ, Fujiwara, H, Maselli, V, Osanai, M, Robertson, HM, Tu, Z, Wang, JJ, Wang, S, Song, H, Zhang, L, Werner, D, Stanke, M, Morgenstern, B, Solovyev, V, Kosarev, P, Brown, G, Chen, HC, Ermolaeva, O, Hlavina, W, Kapustin, Y, Kiryutin, B, Kitts, P, Maglott, D, Pruitt, K, Sapojnikov, V, Souvorov, A, Mackey, AJ, Waterhouse, RM, Wyder, S, Kriventseva, EV, Kadowaki, T, Bork, P, Aranda, M, Bao, R, Beermann, A, Berns, N, Bolognesi, R, Bonneton, F, Bopp, D, Butts, T, Chaumot, A, Denell, RE, Ferrier, DE, Gordon, CM, Jindra, M, Lan, Q, Lattorff, HM, Laudet, V, von Levetsow, C, Liu, Z, Lutz, R, Lynch, JA, da Fonseca, RN, Posnien, N, Reuter, R, Schinko, JB, Schmitt, C, Schoppmeier, M, Shippy, TD, Simonnet, F, Marques-Souza, H, Tomoyasu, Y, Trauner, J, Van der Zee, M, Vervoort, M, Wittkopp, N, Wimmer, EA, Yang, X, Jones, AK, Sattelle, DB, Ebert, PR, Nelson, D, Scott, JG, Muthukrishnan, S, Kramer, KJ, Arakane, Y, Zhu, Q, Hogenkamp, D, Dixit, R, Jiang, H, Zou, Z, Marshall, J, Elpidina, E, Vinokurov, K, Oppert, C, Evans, J, Lu, Z, Zhao, P, Sumathipala, N, Altincicek, B, Vilcinskas, A, Williams, M, Hultmark, D, Hetru, C, Hauser, F, Cazzamali, G, Williamson, M, Li, B, Tanaka, Y, Predel, R, Neupert, S, Schachtner, J, Verleyen, P, Raible, F, Walden, KK, Angeli, S, Forêt, S, Schuetz, S, Maleszka, R, Miller, SC, Grossmann, D, MDC Library, and Zdobnov, Evgeny

Subjects
0106 biological sciences, Repetitive Sequences, Nucleic Acid/genetics, Insecticides, Proteome, Genome, Insect, Cytochrome P-450 Enzyme System/genetics, Genes, Insect, Insect, Receptors, Odorant, 01 natural sciences, Genome, Receptors, G-Protein-Coupled, G-Protein-Coupled Receptors, Genome, Insect/ genetics, Oogenesis, Cytochrome P-450 Enzyme System, RNA interference, Odorant Receptors, Caenorhabditis elegans, Insect Genome, Phylogeny, media_common, Genetics, ddc:616, 0303 health sciences, Base Composition, Neurotransmitter Agents, Tribolium, Multidisciplinary, Neurotransmitter Agents/genetics, Receptors, Odorant/genetics, Vision, Ocular/genetics, Telomere, Insecticides/pharmacology, DNA Transposable Elements/genetics, Proteome/genetics, Genes, Insect/ genetics, Oogenesis/genetics, Taste, RNA Interference, Growth and Development, Drosophila melanogaster, animal structures, Nucleic Acid Repetitive Sequences, Taste/genetics, media_common.quotation_subject, 570 Life Sciences, Biology, 010603 evolutionary biology, 610 Medical Sciences, Medicine, 03 medical and health sciences, Humans, Insect Genes, Ocular Vision, Animals, Tribolium/classification/embryology/ genetics/physiology, Red flour beetle, Gene, Drosophila, Vision, Ocular, 030304 developmental biology, Repetitive Sequences, Nucleic Acid, Growth and Development/genetics, Telomere/genetics, Body Patterning, fungi, biology.organism_classification, Body Patterning/genetics, Cardiovascular and Metabolic Diseases, DNA Transposable Elements, Receptors, G-Protein-Coupled/genetics
Abstract

Tribolium castaneum is a member of the most species-rich eukaryotic order, a powerful model organism for the study of generalized insect development, and an important pest of stored agricultural products. We describe its genome sequence here. This omnivorous beetle has evolved the ability to interact with a diverse chemical environment, as shown by large expansions in odorant and gustatory receptors, as well as P450 and other detoxification enzymes. Development in Tribolium is more representative of other insects than is Drosophila, a fact reflected in gene content and function. For example, Tribolium has retained more ancestral genes involved in cell-cell communication than Drosophila, some being expressed in the growth zone crucial for axial elongation in short-germ development. Systemic RNA interference in T. castaneum functions differently from that in Caenorhabditis elegans, but nevertheless offers similar power for the elucidation of gene function and identification of targets for selective insect control.

Published
2008

15. SIF AMIDE IN THE BRAIN OF THE SPHINX MOTH, MANDUCA SEXTA.

Author

Heuer, C. M., Binzer, Marlene, and Schachtner, J.

Subjects
NEUROANATOMY, AMIDES, BIOGEOCHEMICAL cycles, SPHINGIDAE, IMMUNOHISTOCHEMISTRY
Abstract

The article discusses the neuroanatomical distribution of SIFamides in the insect nervous system that had showed a remarkable degree of conservation beyond their biochemical commonalities. It highlights the distribution of SIFamide in the brain of the sphinx moth Manduca sexta through immunohistological stainings. It presents a description of immunopositive innervations of the major cerebral neuropils and a comparison of the overall pattern of SIFamide-like immunoreactivity with other insects.

Published
2012
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17. Insecticidal genes of Yersinia spp.: taxonomical distribution, contribution to toxicity towards Manduca sexta and Galleria mellonella, and evolution

Author

Schachtner Joachim, Marcinowski Lisa, Bresolin Geraldine, Fuchs Thilo M, and Scherer Siegfried

Subjects
Microbiology, QR1-502
Abstract

Abstract Background Toxin complex (Tc) proteins termed TcaABC, TcdAB, and TccABC with insecticidal activity are present in a variety of bacteria including the yersiniae. Results The tc gene sequences of thirteen Yersinia strains were compared, revealing a high degree of gene order conservation, but also remarkable differences with respect to pseudogenes, sequence variability and gene duplications. Outside the tc pathogenicity island (tc-PAIYe) of Y. enterocolitica strain W22703, a pseudogene (tccC2'/3') encoding proteins with homology to TccC and similarity to tyrosine phosphatases at its C-terminus was identified. PCR analysis revealed the presence of the tc-PAIYe and of tccC2'/3'-homologues in all biotype 2–5 strains tested, and their absence in most representatives of biotypes 1A and 1B. Phylogenetic analysis of 39 TccC sequences indicates the presence of the tc-PAIYe in an ancestor of Yersinia. Oral uptake experiments with Manduca sexta revealed a higher larvae lethality of Yersinia strains harbouring the tc-PAIYe in comparison to strains lacking this island. Following subcutaneous infection of Galleria mellonella larvae with five non-human pathogenic Yersinia spp. and four Y. enterocolitica strains, we observed a remarkable variability of their insecticidal activity ranging from 20% (Y. kristensenii) to 90% (Y. enterocolitica strain 2594) dead larvae after five days. Strain W22703 and its tcaA deletion mutant did not exhibit a significantly different toxicity towards G. mellonella. These data confirm a role of TcaA upon oral uptake only, and suggest the presence of further insecticidal determinants in Yersinia strains formerly unknown to kill insects. Conclusion This study investigated the tc gene distribution among yersiniae and the phylogenetic relationship between TccC proteins, thus contributing novel aspects to the current discussion about the evolution of insecticidal toxins in the genus Yersinia. The toxic potential of several Yersinia spp. towards M. sexta and G. mellonella demonstrated here for the first time points to insects as a natural reservoir for yersiniae.

Published
2008
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24. The Added Value of MRI-Based Targeted Biopsy in Biopsy-Naïve Patients: A Propensity-Score Matched Comparison.

Author

Ortner G, Mavridis C, Fritz V, Schachtner J, Mamoulakis C, Nagele U, and Tokas T

Abstract

Background: Multiparametric Magnetic Resonance Imaging (mpMRI)-based targeted biopsy has shown to be beneficial in detecting Clinically Significant Prostate Cancer (csPCa) and avoiding diagnosis of Non-csPCa (ncsPCa); however, its role in the treatment of biopsy-naïve patients is still under discussion., Methods: After identifying predictors for the diagnosis of csPCa via Multivariate Logistic Regression Analysis (MLRA), a propensity-score (1:1 nearest neighbor) matched comparison was performed between a Systematic-Only Biopsy (SOB) cohort and a mpMRI-based Combined (systematic + targeted) Biopsy (CB) cohort from two tertiary urologic centers (SOB: Department of Urology, University General Hospital of Heraklion, University of Crete, School of Medicine, Heraklion, Crete, Greece; CB: LKH Hall in Tirol, Austria). Only biopsy-naïve patients were included in the study. The study period for the included patients was from February 2018 to July 2023 for the SOB group and from July 2017 to June 2023 for the CB group. The primary outcome was the diagnosis of csPCa (≥ISUP 2); secondary outcomes were overall cancer detection, the added value of targeted biopsy in csPCa detection, and the reduction in ncsPCa diagnosis with CB compared to SOB. To estimate the Average Treatment effect of the Treated groups (ATT), cluster-robust standard errors were used to perform g-computation in the matched sample. p -values < 0.05 with a two-sided 95% confidence interval were considered statistically significant., Results: Matching achieved well-balanced groups (each n = 140 for CB and SOB). In the CB group, 65/140 (46.4%) patients were diagnosed with csPCa compared to 44/140 (31.4%) in the SOB group (RR 1.48, 95%-CI: 1.09-2.0, p = 0.01). In the CB group, 4.3% (6/140) and 1.4% (2/140) of csPCa cases were detected with targeted-only and systematic-only biopsy cores, respectively. In the CB group, 22/140 (15.7%) patients were diagnosed with ncsPCa compared to 33/140 (23.6%) in the SOB group (RR = 0.67, 95% CI: 0.41-1.08, p = 0.1). When comparing SOB to CB (ATT), the marginal OR was 0.56 (95% CI: 0.38-0.82, p = 0.003) for the diagnosis of csPCa and 0.75 (95% CI: 0.47-1.05, p = 0.085) for the diagnosis of overall cancer (≥ISUP 1)., Conclusion: The CB approach was superior to the SOB approach in detecting csPCa, while no additional detection of ncsPCa was seen. Our results support the application of mpMRI for biopsy-naïve patients with suspicions of prostate cancer.

Published
2024
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25. Anatomic and neurochemical analysis of the palpal olfactory system in the red flour beetle Tribolium castaneum , HERBST.

Author

Trebels B, Dippel S, Anders J, Ernst C, Goetz B, Keyser T, Rexer KH, Wimmer EA, and Schachtner J

Abstract

The paired antennal lobes were long considered the sole primary processing centers of the olfactory pathway in holometabolous insects receiving input from the olfactory sensory neurons of the antennae and mouthparts. In hemimetabolous insects, however, olfactory cues of the antennae and palps are processed separately. For the holometabolous red flour beetle Tribolium castaneum , we could show that primary processing of the palpal and antennal olfactory input also occurs separately and at distinct neuronal centers. While the antennal olfactory sensory neurons project into the antennal lobes, those of the palps project into the paired glomerular lobes and the unpaired gnathal olfactory center. Here we provide an extended analysis of the palpal olfactory pathway by combining scanning electron micrographs with confocal imaging of immunohistochemical staining and reporter expression identifying chemosensory and odorant receptor-expressing neurons in the palpal sensilla. In addition, we extended the anatomical characterization of the gnathal olfactory center by 3D reconstructions and investigated the distribution of several neuromediators. The similarities in the neuromediator repertoire between antennal lobes, glomerular lobes, and gnathal olfactory center underline the role of the latter two as additional primary olfactory processing centers., Competing Interests: The authors declare that the research was conducted in the absence of any commercial or financial relationships that could be construed as a potential conflict of interest., (Copyright © 2023 Trebels, Dippel, Anders, Ernst, Goetz, Keyser, Rexer, Wimmer and Schachtner.)

Published
2023
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26. Evaluation of intrarenal pressure stability at different lithotripter suction settings in a porcine kidney model.

Author

Strittmatter F, Nagele U, Schachtner J, and Bader MJ

Subjects
Animals, In Vitro Techniques, Models, Animal, Pressure, Suction, Swine, Kidney physiology, Lithotripsy methods, Urinary Calculi therapy
Abstract

Purpose: Using the Swiss LithoClast ® Trilogy, urinary stones can be fragmented and removed simultaneously by suction at different selectable suction settings. The aim was to evaluate pressure stability at different settings and test stone fragmentation and suction at the optimal settings., Methods: In an ex vivo porcine kidney model, we recorded intrarenal pressure levels with different suction levels. Storz ® Nephroscopes MIP-M and MIP-L and Swiss LithoClast ® Trilogy probes were used., Results: Pressure stabilized at 19 cm H 2 O with the MIP-M at 1 m gravity irrigation with no instrument introduced. After inserting the 1.5 mm probe, the pressure dropped to 5 cm H 2 O. With a suction setting of 10%, the pressure stabilized at 3 cm H 2 O and remained stable for the maximum time of 120 s. After increasing the suction to 20, 30, 40, and 50%, we recorded the pressure drop time to 0 after 22, 14, 11, and 8 s. Using the MIP-L, pressure stabilized at 44 cm H 2 O and decreased to 8 cm H 2 O after inserting the 3.4 mm probe. With 10% suction, a pressure stabilization was measured at 2 cm H 2 O and remained stable for 120 s. At suction levels of 20 and 30%, the pressure drop time to 0 was 6 and 5 s. With a 10% suction, removing stones was efficient, and the kidney's filling volume was maintained., Conclusions: When using the LithoClast ® Trilogy, a suction setting of 10% seems to be optimal for the treatment of urinary calculi when applying suction continuously., (© 2021. The Author(s), under exclusive licence to Springer-Verlag GmbH Germany, part of Springer Nature.)

Published
2021
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27. Metamorphic development of the olfactory system in the red flour beetle (Tribolium castaneum, HERBST).

Author

Trebels B, Dippel S, Goetz B, Graebner M, Hofmann C, Hofmann F, Schmid FR, Uhl M, Vuong MP, Weber V, and Schachtner J

Subjects
Animals, Drosophila melanogaster, Larva, Metamorphosis, Biological, Coleoptera, Olfactory Receptor Neurons, Tribolium
Abstract

Background: Insects depend on their olfactory sense as a vital system. Olfactory cues are processed by a rather complex system and translated into various types of behavior. In holometabolous insects like the red flour beetle Tribolium castaneum, the nervous system typically undergoes considerable remodeling during metamorphosis. This process includes the integration of new neurons, as well as remodeling and elimination of larval neurons., Results: We find that the sensory neurons of the larval antennae are reused in the adult antennae. Further, the larval antennal lobe gets transformed into its adult version. The beetle's larval antennal lobe is already glomerularly structured, but its glomeruli dissolve in the last larval stage. However, the axons of the olfactory sensory neurons remain within the antennal lobe volume. The glomeruli of the adult antennal lobe then form from mid-metamorphosis independently of the presence of a functional OR/Orco complex but mature dependent on the latter during a postmetamorphic phase., Conclusions: We provide insights into the metamorphic development of the red flour beetle's olfactory system and compared it to data on Drosophila melanogaster, Manduca sexta, and Apis mellifera. The comparison revealed that some aspects, such as the formation of the antennal lobe's adult glomeruli at mid-metamorphosis, are common, while others like the development of sensory appendages or the role of Orco seemingly differ., (© 2021. The Author(s).)

Published
2021
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28. Adult neurogenesis in the mushroom bodies of red flour beetles (Tribolium castaneum, HERBST) is influenced by the olfactory environment.

Author

Trebels B, Dippel S, Schaaf M, Balakrishnan K, Wimmer EA, and Schachtner J

Subjects
Animals, Female, Male, Memory, Mushroom Bodies physiology, Odorants analysis, Smell, Tribolium growth & development, Mushroom Bodies growth & development, Neurogenesis, Tribolium physiology
Abstract

Several studies showed adult persisting neurogenesis in insects, including the red flour beetle Tribolium castaneum, while it is absent in honeybees, carpenter ants, and vinegar flies. In our study, we focus on cell proliferation in the adult mushroom bodies of T. castaneum. We reliably labelled the progenies of the adult persisting mushroom body neuroblasts and determined the proliferation rate under several olfactory conditions within the first week after adult eclosion. We found at least two phases of Kenyon cell proliferation in the early adult beetle. Our results suggest that the generation of Kenyon cells during the first three days after adult eclosion is mainly genetically predetermined and a continuation of the developmental processes (nature), whereas from day four on proliferation seems to be mainly dependent on the odour environment (nurture). Considering that the mushroom bodies are linked to learning and memory, neurogenesis in the mushroom bodies is part of the remodelling of neuronal circuits leading to the adaption to the environment and optimization of behaviour.

Published
2020
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29. Are Medical Grade Bioabsorbable Polymers a Viable Material for Fused Filament Fabrication?

Author

Schachtner J, Frohbergh M, Hickok N, and Kurtz S

Abstract

Lumbar fusion surgery has grown in popularity as a solution to lower back pain. Surgical site infection (SSI) is a serious complication of spinal surgery, affecting as high as 8.5% of the patient population. If the SSI cannot be eradicated with intravenous antibiotics, the next step is second surgery, which increases the cost imposed on the patient and extends recovery time. An implantable ultrasound-triggered polyether ether ketone device for the dispersal of antibiotics has been developed as a potential solution. In this study, the device was constructed of bioabsorbable medical grade polymer, enabling gradual degradation, and manufactured via fused filament fabrication (FFF). A novel bioabsorbable filament was manufactured and validated with gel permeation chromatography (GPC) and differential scanning calorimetry (DSC). The filament was consistent in molecular weight and thermal properties (p = 0.348 and p = 0.487, respectively). The filament was utilized for FFF of the device. Dimensional accuracy of the device was assessed with μCT analysis. Dimensional differences between the printed device and intended design were minimal. Degradation of raw material, filament, and the device was performed in accordance to ASTM F1635-16 for a month to determine how melting the material impacted the degradation properties. The degradation rate was found to be similar among the samples weeks one through three however, the raw material degraded at a slower rate by the final week (p = 0.039). This study demonstrated the feasibility of utilizing medical grade bioabsorbable polymers in FFF., (Copyright © 2019 by ASME.)

Published
2019
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30. Functional characterization of mosquito short neuropeptide F receptors.

Author

Christ P, Hill SR, Schachtner J, Hauser F, and Ignell R

Subjects
Aedes, Animals, Anopheles, Culex, Neuropeptides metabolism, Insect Proteins metabolism, Receptors, Neuropeptide metabolism
Abstract

Mosquito blood feeding transiently inhibits sugar- and host seeking through neuropeptide signaling. Short neuropeptide F (sNPF) is one of the neuromodulators involved in this regulation. Here, we identified the genes for the sNPF precursor and the sNPF receptor in the southern house mosquito, Culex quinquefasciatus. Comparative analyses are made with the genes of the sNPF precursor and receptor from two other important vectors, Aedes aegypti and Anopheles coluzzii. We functionally characterized the receptors in all three species using endogenous neuropeptides, and quantified their transcript expression following a blood meal and a sugar meal. Our analysis reveals several Cx. quinquefasciatus-specific duplications of the sNPF-3 isoform on the sNPF precursor, which are not reflected in the precursors of the other two species. In contrast, the structure of the sNPF receptors is highly conserved within mosquitoes, and a putative ligand binding region is proposed and discussed. Reflecting the high structural conservation, the sNPF receptor sensitivity to endogenous sNPF isoforms is conserved across mosquito species. Using quantitative real time PCR, we demonstrate that transcript abundance of the sNPF receptor and precursor is regulated following feeding, only in Cx. quinquefasciatus. We discuss our findings in relation to previous work on sNPF signaling and its role in feeding regulation., (Copyright © 2018 Elsevier Inc. All rights reserved.)

Published
2018
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31. Mating-Induced Differential Peptidomics of Neuropeptides and Protein Hormones in Agrotis ipsilon Moths.

Author

Diesner M, Gallot A, Binz H, Gaertner C, Vitecek S, Kahnt J, Schachtner J, Jacquin-Joly E, and Gadenne C

Subjects
Animals, Central Nervous System chemistry, Chromatography, High Pressure Liquid, Female, High-Throughput Nucleotide Sequencing, Male, Peptides analysis, Sex Factors, Spectrometry, Mass, Matrix-Assisted Laser Desorption-Ionization, Moths chemistry, Neuropeptides analysis, Peptide Hormones analysis, Proteomics methods, Sexual Behavior, Animal
Abstract

In many insects, mating induces drastic changes in male and female responses to sex pheromones or host-plant odors. In the male moth Agrotis ipsilon, mating induces a transient inhibition of behavioral and neuronal responses to the female sex pheromone. As neuropeptides and peptide hormones regulate most behavioral processes, we hypothesize that they could be involved in this mating-dependent olfactory plasticity. Here we used next-generation RNA sequencing and a combination of liquid chromatography, matrix assisted laser desorption ionization time-of-flight (MALDI-TOF) mass spectrometry, and direct tissue profiling to analyze the transcriptome and peptidome of different brain compartments in virgin and mated males and females of A. ipsilon. We identified 37 transcripts encoding putative neuropeptide precursors and 54 putative bioactive neuropeptides from 23 neuropeptide precursors (70 sequences in total, 25 neuropeptide precursors) in different areas of the central nervous system including the antennal lobes, the gnathal ganglion, and the corpora cardiaca-corpora allata complex. Comparisons between virgin and mated males and females revealed tissue-specific differences in peptide composition between sexes and according to physiological state. Mated males showed postmating differences in neuropeptide occurrence, which could participate in the mating-induced olfactory plasticity.

Published
2018
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32. Functional characterization of the dual allatostatin-A receptors in mosquitoes.

Author

Christ P, Hill SR, Schachtner J, Hauser F, and Ignell R

Subjects
Animals, Culicidae metabolism, Insect Proteins metabolism, Receptors, Neuropeptide metabolism, Culicidae genetics, Insect Proteins genetics, Phylogeny, Receptors, Neuropeptide genetics
Abstract

The neuropeptide allatostatin-A (AstA) and its cognate receptors (AstARs) are involved in the modulation of feeding behavior, which in hematophagous insects includes the regulation of the disease vector-related behaviors, host seeking and blood feeding. In mosquitoes and other dipterans, there are two copies of AstAR, contrasting with the single copy found in other insects. In this study, we identified and cloned the dual AstAR system of two important disease vectors Aedes aegypti and Culex quinquefasciatus, and compared them with those previously described, including those in Anopheles coluzzii and Drosophila melanogaster. Phylogenetic analysis of the AstARs revealed that the mosquito AstAR1s has retained a similar amino acid sequence as the AstARs from non-dipteran insect species. Intron analysis revealed that the number of introns accumulated in the AstAR2s is similar to that in other insects, and that introns are conserved within the receptor types, but that only the final two introns are conserved across AstAR1s and 2s. We functionally characterized the dual AstARs in An. coluzzii, Ae. aegypti and Cx. quinquefasciatus by stably expressing the receptors in a Chinese hamster oocyte cell line (CHO) also stably expressing a promiscuous G-protein (G16), and challenged them with the endogenous isoforms of AstA from the three mosquito species. In the culicine mosquitoes, Ae. aegypti and Cx. quinquefasciatus, the AstARs demonstrated differential sensitivity to AstA, with the AstAR2s displaying a higher sensitivity than the AstAR1s, suggesting a divergence of functional roles for these AstARs. In contrast, both An. coluzzii AstARs demonstrated a similar sensitivity to the AstA ligands. We discuss our findings in the light of AstA acting as a regulator of blood feeding in mosquitoes. A better understanding of the regulation of host seeking and blood feeding in vector mosquitoes will lead to the rational development of novel approaches for vector control., (Copyright © 2017 The Author(s). Published by Elsevier Inc. All rights reserved.)

Published
2018
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33. Distribution of tachykinin-related peptides in the brain of the tobacco budworm Heliothis virescens.

Author

Zhao XC, Xie GY, Berg BG, Schachtner J, and Homberg U

Subjects
Animals, Imaging, Three-Dimensional, Insecta, Microscopy, Confocal, Neuropeptides metabolism, Tachykinins chemistry, Central Nervous System anatomy & histology, Central Nervous System metabolism, Insect Proteins metabolism, Neurons metabolism, Tachykinins metabolism
Abstract

Invertebrate tachykinin-related peptides (TKRPs) comprise a group of signaling molecules having sequence similarities to mammalian tachykinins. A growing body of evidence has demonstrated the presence of TKRPs in the central nervous system of insects. In this investigation, we used an antiserum against locustatachykinin-II to reveal the distribution pattern of these peptides in the brain of the moth Heliothis virescens. Immunolabeling was found throughout the brain of the heliothine moth. Most of the roughly 500 locustatachykinin-II immunoreactive cell bodies, that is, ca. 400, were located in the protocerebrum, whereas the rest was distributed in the deutocerebrum, tritocerebrum, and the gnathal ganglion. Abundant immunoreactive processes were located in the same regions. Labeled processes in the protocerebrum were especially localized in optic lobe, central body, lateral accessory lobe, superior protocerebrum, and lateral protocerebrum, while those in the deutocerebrum were present exclusively in the antennal lobe. In addition to brain interneurons, four pairs of median neurosecretory cells in the pars intercerebralis with terminal processes in the corpora cardiaca and aorta wall were immunostained. No sexual dimorphism in immunoreactivity was found. Comparing the data obtained here with findings from other insect species reveals considerable differences, suggesting species-specific roles of tachykinin-related peptides in insects., (© 2017 Wiley Periodicals, Inc.)

Published
2017
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34. Feeding-induced changes in allatostatin-A and short neuropeptide F in the antennal lobes affect odor-mediated host seeking in the yellow fever mosquito, Aedes aegypti.

Author

Christ P, Reifenrath A, Kahnt J, Hauser F, Hill SR, Schachtner J, and Ignell R

Subjects
Animals, Female, Injections, Isotope Labeling, Male, Molecular Weight, Neuropeptides administration & dosage, Spectrometry, Mass, Matrix-Assisted Laser Desorption-Ionization, Sugars metabolism, Aedes physiology, Arthropod Antennae metabolism, Feeding Behavior, Host-Seeking Behavior, Neuropeptides metabolism, Odorants, Yellow Fever parasitology
Abstract

Aedes aegypti is a model species in which the endogenous regulation of odor-mediated host seeking behavior has received some attention. Sugar feeding and host seeking in female A. aegypti are transiently inhibited following a blood meal. This inhibition is partially mediated by short neuropeptide F (sNPF). The paired antennal lobes (ALs), as the first processing centers for olfactory information, has been shown to play a significant role in the neuropeptidergic regulation of odor-mediated behaviors in insects. The expression of sNPF, along with other peptides in the ALs of A. aegypti, indicate parallel neuromodulatory systems that may affect olfactory processing. To identify neuropeptides involved in regulating the odor-mediated host seeking behavior in A. aegypti, we use a semi-quantitative neuropeptidomic analysis of single ALs to analyze changes in the levels of five individual neuropeptides in response to different feeding regimes. Our results show that the level of sNPF-2, allatostatin-A-5 (AstA-5) and neuropeptide-like precursor-1-5 (NPLP-1-5), but not of tachykinin-related-peptides and SIFamide (SIFa), in the AL of female mosquitoes, changes 24 h and 48 h post-blood meal, and are dependent on prior access to sugar. To assess the role of these neuropeptides in modulating host seeking behavior, when systemically injected individually, sNPF-2 and AstA-5 significantly reduced host seeking behavior. However, only the injection of the binary mixture of the two neuropeptides lead to a host seeking inhibition similar to that observed in blood fed females. We conclude that modulation of the odor mediated host seeking behavior of A. aegypti is likely regulated by a dual neuropeptidergic pathway acting in concert in the ALs.

Published
2017
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35. Variations on a Theme: Antennal Lobe Architecture across Coleoptera.

Author

Kollmann M, Schmidt R, Heuer CM, and Schachtner J

Subjects
Animals, Behavior, Animal, Biodiversity, Biological Evolution, Brain anatomy & histology, Female, Insecta, Male, Microscopy, Confocal, Phylogeny, Smell, Arthropod Antennae anatomy & histology, Coleoptera anatomy & histology, Coleoptera physiology, Olfactory Pathways anatomy & histology, Olfactory Receptor Neurons physiology
Abstract

Beetles comprise about 400,000 described species, nearly one third of all known animal species. The enormous success of the order Coleoptera is reflected by a rich diversity of lifestyles, behaviors, morphological, and physiological adaptions. All these evolutionary adaptions that have been driven by a variety of parameters over the last about 300 million years, make the Coleoptera an ideal field to study the evolution of the brain on the interface between the basic bauplan of the insect brain and the adaptions that occurred. In the current study we concentrated on the paired antennal lobes (AL), the part of the brain that is typically responsible for the first processing of olfactory information collected from olfactory sensilla on antenna and mouthparts. We analyzed 63 beetle species from 22 different families and thus provide an extensive comparison of principal neuroarchitecture of the AL. On the examined anatomical level, we found a broad diversity including AL containing a wide range of glomeruli numbers reaching from 50 to 150 glomeruli and several species with numerous small glomeruli, resembling the microglomerular design described in acridid grasshoppers and diving beetles, and substructures within the glomeruli that have to date only been described for the small hive beetle, Aethina tumida. A first comparison of the various anatomical features of the AL with available descriptions of lifestyle and behaviors did so far not reveal useful correlations. In summary, the current study provides a solid basis for further studies to unravel mechanisms that are basic to evolutionary adaptions of the insect olfactory system., Competing Interests: The authors have declared that no competing interests exist.

Published
2016
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36. Morphological and Transcriptomic Analysis of a Beetle Chemosensory System Reveals a Gnathal Olfactory Center.

Author

Dippel S, Kollmann M, Oberhofer G, Montino A, Knoll C, Krala M, Rexer KH, Frank S, Kumpf R, Schachtner J, and Wimmer EA

Subjects
Animals, Chemoreceptor Cells metabolism, Coleoptera metabolism, Insect Proteins genetics, Insect Proteins metabolism, Olfactory Receptor Neurons metabolism, Receptors, Odorant genetics, Receptors, Odorant metabolism, Coleoptera genetics, Gene Expression Profiling methods
Abstract

Background: The red flour beetle Tribolium castaneum is an emerging insect model organism representing the largest insect order, Coleoptera, which encompasses several serious agricultural and forest pests. Despite the ecological and economic importance of beetles, most insect olfaction studies have so far focused on dipteran, lepidopteran, or hymenopteran systems., Results: Here, we present the first detailed morphological description of a coleopteran olfactory pathway in combination with genome-wide expression analysis of the relevant gene families involved in chemoreception. Our study revealed that besides the antennae, also the mouthparts are highly involved in olfaction and that their respective contribution is processed separately. In this beetle, olfactory sensory neurons from the mouthparts project to the lobus glomerulatus, a structure so far only characterized in hemimetabolous insects, as well as to a so far non-described unpaired glomerularly organized olfactory neuropil in the gnathal ganglion, which we term the gnathal olfactory center. The high number of functional odorant receptor genes expressed in the mouthparts also supports the importance of the maxillary and labial palps in olfaction of this beetle. Moreover, gustatory perception seems equally distributed between antenna and mouthparts, since the number of expressed gustatory receptors is similar for both organs., Conclusions: Our analysis of the T. castaneum chemosensory system confirms that olfactory and gustatory perception are not organotopically separated to the antennae and mouthparts, respectively. The identification of additional olfactory processing centers, the lobus glomerulatus and the gnathal olfactory center, is in contrast to the current picture that in holometabolous insects all olfactory inputs allegedly converge in the antennal lobe. These findings indicate that Holometabola have evolved a wider variety of solutions to chemoreception than previously assumed.

Published
2016
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37. A flow reactor setup for photochemistry of biphasic gas/liquid reactions.

Author

Schachtner J, Bayer P, and Jacobi von Wangelin A

Abstract

A home-built microreactor system for light-mediated biphasic gas/liquid reactions was assembled from simple commercial components. This paper describes in full detail the nature and function of the required building elements, the assembly of parts, and the tuning and interdependencies of the most important reactor and reaction parameters. Unlike many commercial thin-film and microchannel reactors, the described set-up operates residence times of up to 30 min which cover the typical rates of many organic reactions. The tubular microreactor was successfully applied to the photooxygenation of hydrocarbons (Schenck ene reaction). Major emphasis was laid on the realization of a constant and highly reproducible gas/liquid slug flow and the effective illumination by an appropriate light source. The optimized set of conditions enabled the shortening of reaction times by more than 99% with equal chemoselectivities. The modular home-made flow reactor can serve as a prototype model for the continuous operation of various other reactions at light/liquid/gas interfaces in student, research, and industrial laboratories.

Published
2016
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38. The insect central complex as model for heterochronic brain development-background, concepts, and tools.

Author

Koniszewski ND, Kollmann M, Bigham M, Farnworth M, He B, Büscher M, Hütteroth W, Binzer M, Schachtner J, and Bucher G

Subjects
Animals, Animals, Genetically Modified, Biological Evolution, Brain anatomy & histology, Brain growth & development, Brain physiology, Insecta classification, Insecta growth & development, Insecta physiology, Larva anatomy & histology, Mushroom Bodies anatomy & histology, Mushroom Bodies physiology, Neuropil cytology, Tribolium anatomy & histology, Tribolium genetics, Tribolium growth & development, Tribolium physiology, Gene Editing methods, Insecta anatomy & histology, Neuropil classification
Abstract

The adult insect brain is composed of neuropils present in most taxa. However, the relative size, shape, and developmental timing differ between species. This diversity of adult insect brain morphology has been extensively described while the genetic mechanisms of brain development are studied predominantly in Drosophila melanogaster. However, it has remained enigmatic what cellular and genetic mechanisms underlie the evolution of neuropil diversity or heterochronic development. In this perspective paper, we propose a novel approach to study these questions. We suggest using genome editing to mark homologous neural cells in the fly D. melanogaster, the beetle Tribolium castaneum, and the Mediterranean field cricket Gryllus bimaculatus to investigate developmental differences leading to brain diversification. One interesting aspect is the heterochrony observed in central complex development. Ancestrally, the central complex is formed during embryogenesis (as in Gryllus) but in Drosophila, it arises during late larval and metamorphic stages. In Tribolium, it forms partially during embryogenesis. Finally, we present tools for brain research in Tribolium including 3D reconstruction and immunohistochemistry data of first instar brains and the generation of transgenic brain imaging lines. Further, we characterize reporter lines labeling the mushroom bodies and reflecting the expression of the neuroblast marker gene Tc-asense, respectively.

Published
2016
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39. Novel antennal lobe substructures revealed in the small hive beetle Aethina tumida.

Author

Kollmann M, Rupenthal AL, Neumann P, Huetteroth W, and Schachtner J

Subjects
Animals, Brain anatomy & histology, Female, Imaging, Three-Dimensional, Male, Neuropil metabolism, Serotonin metabolism, Tachykinins metabolism, Arthropod Antennae anatomy & histology, Coleoptera anatomy & histology
Abstract

The small hive beetle, Aethina tumida, is an emerging pest of social bee colonies. A. tumida shows a specialized life style for which olfaction seems to play a crucial role. To better understand the olfactory system of the beetle, we used immunohistochemistry and 3-D reconstruction to analyze brain structures, especially the paired antennal lobes (AL), which represent the first integration centers for odor information in the insect brain. The basic neuroarchitecture of the A. tumida brain compares well to the typical beetle and insect brain. In comparison to other insects, the AL are relatively large in relationship to other brain areas, suggesting that olfaction is of major importance for the beetle. The AL of both sexes contain about 70 olfactory glomeruli with no obvious size differences of the glomeruli between sexes. Similar to all other insects including beetles, immunostaining with an antiserum against serotonin revealed a large cell that projects from one AL to the contralateral AL to densely innervate all glomeruli. Immunostaining with an antiserum against tachykinin-related peptides (TKRP) revealed hitherto unknown structures in the AL. Small TKRP-immunoreactive spherical substructures are in both sexes evenly distributed within all glomeruli. The source for these immunoreactive islets is very likely a group of about 80 local AL interneurons. We offer two hypotheses on the function of such structures.

Published
2016
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40. Space Takes Time: Concentration Dependent Output Codes from Primary Olfactory Networks Rapidly Provide Additional Information at Defined Discrimination Thresholds.

Author

Daly KC, Bradley S, Chapman PD, Staudacher EM, Tiede R, and Schachtner J

Abstract

As odor concentration increases, primary olfactory network representations expand in spatial distribution, temporal complexity and duration. However, the direct relationship between concentration dependent odor representations and the psychophysical thresholds of detection and discrimination is poorly understood. This relationship is absolutely critical as thresholds signify transition points whereby representations become meaningful to the organism. Here, we matched stimulus protocols for psychophysical assays and intracellular recordings of antennal lobe (AL) projection neurons (PNs) in the moth Manduca sexta to directly compare psychophysical thresholds and the output representations they elicit. We first behaviorally identified odor detection and discrimination thresholds across an odor dilution series for a panel of structurally similar odors. We then characterized spatiotemporal spiking patterns across a population of individually filled and identified AL PNs in response to those odors at concentrations below, at, and above identified thresholds. Using spatial and spatiotemporal based analyses we observed that each stimulus produced unique representations, even at sub-threshold concentrations. Mean response latency did not decrease and the percent glomerular activation did not increase with concentration until undiluted odor. Furthermore, correlations between spatial patterns for odor decreased, but only significantly with undiluted odor. Using time-integrated Euclidean distance (ED) measures, we determined that added spatiotemporal information was present at the discrimination but not detection threshold. This added information was evidenced by an increase in integrated distance between the sub-detection and discrimination threshold concentrations (of the same odor) that was not present in comparison of the sub-detection and detection threshold. After consideration of delays for information to reach the AL we find that it takes ~120-140 ms for the AL to output identity information. Overall, these results demonstrate that as odor concentration increases, added information about odor identity is embedded in the spatiotemporal representation at the discrimination threshold.

Published
2016
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41. Hypothesis That Urethral Bulb (Corpus Spongiosum) Plays an Active Role in Male Urinary Continence.

Author

Rehder P, Staudacher NM, Schachtner J, Berger ME, Schillfahrt F, Hauser V, Mueller R, Skradski V, Horninger W, and Glodny B

Abstract

The proximal urethral bulb in men is enlarged, surrounds the bulbous urethra, and extends dorsally towards the perineum. During intercourse engorgement takes place due to increased blood flow through the corpus spongiosum. Antegrade ejaculation is facilitated by contraction of the bulbospongiosus muscles during climax. Micturition during sexual stimulation is functionally inhibited. Supporting the bulb may indirectly facilitate continence in a certain subset of patients with postprostatectomy incontinence. During physical activity with increased abdominal pressure, reflex contraction of the pelvic floor muscles as well as the bulbospongiosus muscles occurs to support sphincter function and limit urinary incontinence. Operations to the prostate may weaken urinary sphincter function. It is hypothesized that the distal urinary sphincter may be supported indirectly by placing a hammock underneath the urethral bulb. During moments of physical stress the "cushion" of blood within the supported corpus spongiosum helps to increase the zone of coaptation within the sphincteric (membranous) urethra. This may lead to urinary continence in patients treated by a transobturator repositioning sling in patients with postprostatectomy incontinence. This paper describes the possible role of the urethral bulb in male urinary continence, including its function after retroluminal sling placement (AdVance, AdVance XP® Male Sling System, Minnetonka, USA).

Published
2016
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42. Colocalization of allatotropin and tachykinin-related peptides with classical transmitters in physiologically distinct subtypes of olfactory local interneurons in the cockroach (Periplaneta americana).

Author

Fusca D, Schachtner J, and Kloppenburg P

Subjects
Animals, Choline O-Acetyltransferase metabolism, Membrane Potentials physiology, Odorants, Olfactory Pathways physiology, Patch-Clamp Techniques, Receptors, Tachykinin metabolism, gamma-Aminobutyric Acid metabolism, Arthropod Antennae cytology, Cockroaches anatomy & histology, Insect Hormones metabolism, Interneurons classification, Interneurons metabolism, Neuropeptides metabolism, Tachykinins metabolism
Abstract

In the insect antennal lobe different types of local interneurons mediate complex excitatory and inhibitory interactions between the glomerular pathways to structure the spatiotemporal representation of odors. Mass spectrometric and immunohistochemical studies have shown that in local interneurons classical neurotransmitters are likely to colocalize with a variety of substances that can potentially act as cotransmitters or neuromodulators. In the antennal lobe of the cockroach Periplaneta americana, gamma-aminobutyric acid (GABA) has been identified as the potential inhibitory transmitter of spiking type I local interneurons, whereas acetylcholine is most likely the excitatory transmitter of nonspiking type IIa1 local interneurons. This study used whole-cell patch clamp recordings combined with single-cell labeling and immunohistochemistry to test if the GABAergic type I local interneurons and the cholinergic type IIa1 local interneurons express allatotropin and tachykinin-related neuropeptides (TKRPs). These are two of the most abundant types of peptides in the insect antennal lobe. GABA-like and choline acetyltransferase (ChAT)-like immunoreactivity were used as markers for GABAergic and cholinergic neurons, respectively. About 50% of the GABA-like immunoreactive (-lir) spiking type I local interneurons were allatotropin-lir, and ∼ 40% of these neurons were TKRP-lir. About 20% of nonspiking ChAT-lir type IIa1 local interneurons were TKRP-lir. Our results suggest that in subpopulations of GABAergic and cholinergic local interneurons, allatotropin and TKRPs might act as cotransmitters or neuromodulators. To unequivocally assign neurotransmitters, cotransmitters, and neuromodulators to identified classes of antennal lobe neurons is an important step to deepen our understanding of information processing in the insect olfactory system., (© 2015 Wiley Periodicals, Inc.)

Published
2015
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43. Tissue-specific transcriptomics, chromosomal localization, and phylogeny of chemosensory and odorant binding proteins from the red flour beetle Tribolium castaneum reveal subgroup specificities for olfaction or more general functions.

Author

Dippel S, Oberhofer G, Kahnt J, Gerischer L, Opitz L, Schachtner J, Stanke M, Schütz S, Wimmer EA, and Angeli S

Subjects
Amino Acid Sequence, Animals, Arthropod Antennae metabolism, Chromosome Mapping, Female, Gene Expression Profiling, Insect Proteins chemistry, Insect Proteins classification, Male, Molecular Sequence Annotation, Molecular Sequence Data, Phylogeny, Polymorphism, Single Nucleotide, RNA chemistry, RNA isolation & purification, RNA metabolism, Receptors, Odorant chemistry, Receptors, Odorant classification, Sequence Alignment, Sequence Analysis, RNA, Smell genetics, Chromosomes genetics, Coleoptera genetics, Genes, Insect, Insect Proteins genetics, Receptors, Odorant genetics
Abstract

Background: Chemoreception is based on the senses of smell and taste that are crucial for animals to find new food sources, shelter, and mates. The initial step in olfaction involves the translocation of odorants from the periphery through the aqueous lymph of the olfactory sensilla to the odorant receptors most likely by chemosensory proteins (CSPs) or odorant binding proteins (OBPs)., Results: To better understand the roles of CSPs and OBPs in a coleopteran pest species, the red flour beetle Tribolium castaneum (Coleoptera, Tenebrionidae), we performed transcriptome analyses of male and female antennae, heads, mouthparts, legs, and bodies, which revealed that all 20 CSPs and 49 of the 50 previously annotated OBPs are transcribed. Only six of the 20 CSP are significantly transcriptionally enriched in the main chemosensory tissues (antenna and/or mouthparts), whereas of the OBPs all eight members of the antenna binding proteins II (ABPII) subgroup, 18 of the 20 classic OBP subgroup, the C + OBP, and only five of the 21 C-OBPs show increased chemosensory tissue expression. By MALDI-TOF-TOF MS protein fingerprinting, we confirmed three CSPs, four ABPIIs, three classic OBPs, and four C-OBPs in the antennae., Conclusions: Most of the classic OBPs and all ABPIIs are likely involved in chemoreception. A few are also present in other tissues such as odoriferous glands and testes and may be involved in release or transfer of chemical signals. The majority of the CSPs as well as the C-OBPs are not enriched in antennae or mouthparts, suggesting a more general role in the transport of hydrophobic molecules.

Published
2014
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44. Modular synthesis of cyclic cis- and trans-1,2-diamine derivatives.

Author

Weber AK, Schachtner J, Fichtler R, Leermann TM, Neudörfl JM, and Jacobi von Wangelin A

Abstract

Structurally diverse carbocycles with two vicinal nitrogen-substituents were prepared in expedient three-component reactions from simple amines, aldehydes, and nitroalkenes. trans,trans-6-Nitrocyclohex-2-enyl amines were obtained in a one-pot domino reaction involving condensation, tautomerisation, conjugate addition, and nitro-Mannich cyclisation. Upon employment of less nucleophilic carboxamides, a concerted Diels-Alder cycloaddition mechanism operated to give the corresponding cis,trans-nitrocyclohexenyl amides. Both types of substituted carbocycles offer ample opportunities for chemical manipulations at the core and periphery. Ring oxidation with MnO2 affords substituted nitroarenes. Reduction with Zn/HCl provides access to various trans- and cis-diaminocyclohexenes, respectively, in a straight-forward manner. With enantiopure secondary amines, a two-step synthesis of chiral nitrocyclohexadienes was developed (82-94% ee).

Published
2014
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45. Neuropeptides in the antennal lobe of the yellow fever mosquito, Aedes aegypti.

Author

Siju KP, Reifenrath A, Scheiblich H, Neupert S, Predel R, Hansson BS, Schachtner J, and Ignell R

Subjects
Animals, Female, Male, Spectrometry, Mass, Matrix-Assisted Laser Desorption-Ionization, Arthropod Antennae metabolism, Culicidae anatomy & histology, Neuropeptides metabolism
Abstract

For many insects, including mosquitoes, olfaction is the dominant modality regulating their behavioral repertoire. Many neurochemicals modulate olfactory information in the central nervous system, including the primary olfactory center of insects, the antennal lobe. The most diverse and versatile neurochemicals in the insect nervous system are found in the neuropeptides. In the present study, we analyzed neuropeptides in the antennal lobe of the yellow fever mosquito, Aedes aegypti, a major vector of arboviral diseases. Direct tissue profiling of the antennal lobe by matrix-assisted laser desorption ionization time-of-flight (MALDI-TOF) mass spectrometry indicated the presence of 28 mature products from 10 different neuropeptide genes. In addition, immunocytochemical techniques were used to describe the cellular location of the products of up to seven of these genes within the antennal lobe. Allatostatin A, allatotropin, SIFamide, FMRFamide-related peptides, short neuropeptide F, myoinhibitory peptide, and tachykinin-related peptides were found to be expressed in local interneurons and extrinsic neurons of the antennal lobe. Building on these results, we discuss the possible role of neuropeptide signaling in the antennal lobe of Ae. aegypti., (Copyright © 2013 Wiley Periodicals, Inc.)

Published
2014
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46. Neuropeptidome of Tribolium castaneum antennal lobes and mushroom bodies.

Author

Binzer M, Heuer CM, Kollmann M, Kahnt J, Hauser F, Grimmelikhuijzen CJ, and Schachtner J

Subjects
Animals, Brain metabolism, Immunohistochemistry, Microscopy, Confocal, Neuropeptides analysis, Spectrometry, Mass, Matrix-Assisted Laser Desorption-Ionization, Mushroom Bodies metabolism, Neuropeptides biosynthesis, Neuropil metabolism, Olfactory Pathways metabolism, Proteome metabolism, Tribolium metabolism
Abstract

Neuropeptides are a highly diverse group of signaling molecules that affect a broad range of biological processes in insects, including development, metabolism, behavior, and reproduction. In the central nervous system, neuropeptides are usually considered to act as neuromodulators and cotransmitters that modify the effect of "classical" transmitters at the synapse. The present study analyzes the neuropeptide repertoire of higher cerebral neuropils in the brain of the red flour beetle Tribolium castaneum. We focus on two integrative neuropils of the olfactory pathway, the antennal lobes and the mushroom bodies. Using the technique of direct peptide profiling by matrix-assisted laser desorption/ionization time-of-flight (MALDI-TOF) mass spectrometry, we demonstrate that these neuropils can be characterized by their specific neuropeptide expression profiles. Complementary immunohistological analyses of selected neuropeptides revealed neuropeptide distribution patterns within the antennal lobes and the mushroom bodies. Both approaches revealed consistent differences between the neuropils, underlining that direct peptide profiling by mass spectrometry is a fast and reliable method to identify neuropeptide content., (Copyright © 2013 Wiley Periodicals, Inc.)

Published
2014
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47. Neuropeptides in insect mushroom bodies.

Author

Heuer CM, Kollmann M, Binzer M, and Schachtner J

Subjects
Animals, Female, Immunohistochemistry, Insect Proteins chemistry, Insecta chemistry, Male, Microscopy, Confocal, Mushroom Bodies metabolism, Mushroom Bodies ultrastructure, Neurons cytology, Neurons metabolism, Neuropeptides chemistry, Sequence Analysis, Protein, Insect Proteins metabolism, Insecta metabolism, Insecta ultrastructure, Neuropeptides metabolism
Abstract

Owing to their experimental amenability, insect nervous systems continue to be in the foreground of investigations into information processing in - ostensibly - simple neuronal networks. Among the cerebral neuropil regions that hold a particular fascination for neurobiologists are the paired mushroom bodies, which, despite their function in other behavioral contexts, are most renowned for their role in learning and memory. The quest to understand the processes that underlie these capacities has been furthered by research focusing on unraveling neuroanatomical connections of the mushroom bodies and identifying key players that characterize the molecular machinery of mushroom body neurons. However, on a cellular level, communication between intrinsic and extrinsic mushroom body neurons still remains elusive. The present account aims to provide an overview on the repertoire of neuropeptides expressed in and utilized by mushroom body neurons. Existing data for a number of insect representatives is compiled and some open gaps in the record are filled by presenting additional original data., (Copyright © 2012 Elsevier Ltd. All rights reserved.)

Published
2012
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48. Seasonal leptin resistance is associated with impaired signalling via JAK2-STAT3 but not ERK, possibly mediated by reduced hypothalamic GRB2 protein.

Author

Tups A, Stöhr S, Helwig M, Barrett P, Krol E, Schachtner J, Mercer JG, and Klingenspor M

Subjects
Animals, Cell Nucleus, Cricetinae, Female, Gene Expression Regulation, Hypothalamus cytology, Male, Nerve Tissue Proteins genetics, Nerve Tissue Proteins metabolism, Neurons cytology, Neurons metabolism, Photoperiod, Protein Isoforms metabolism, Protein Transport, Protein Tyrosine Phosphatase, Non-Receptor Type 11 genetics, Protein Tyrosine Phosphatase, Non-Receptor Type 11 metabolism, RNA, Messenger metabolism, Receptors, Leptin metabolism, STAT3 Transcription Factor genetics, Suppressor of Cytokine Signaling Proteins metabolism, GRB2 Adaptor Protein metabolism, Hypothalamus metabolism, Janus Kinase 2 metabolism, Leptin metabolism, Phodopus metabolism, STAT3 Transcription Factor metabolism, Signal Transduction
Abstract

The Siberian hamster, Phodopus sungorus, undergoes a striking seasonal cycle of leptin sensitivity and body weight regulation, but the molecular mechanism and relevance to human leptin insensitivity are unknown. Here we show that nuclear translocation of phospho-STAT3 in the hypothalamus is rapidly stimulated by leptin to a greater extent in hamsters held in short-day length (SD) as compared to long-day length (LD). Intriguingly, effects of leptin on STAT3 appeared to be in part limited to nuclear translocation of phospho-STAT3 associated with the cell surface rather than phosphorylation of STAT3. The number of phospho-ERK cells within the hypothalamus was unaffected by either photoperiod or leptin. However, proximal to ERK phosphorylation, hypothalamic SH2-containing tyrosine phosphatase (SHP2) and the small growth factor receptor-binding protein (GRB2), which act as competitive negative modulators on binding of SOCS3 to leptin receptor (LRb)-associated Tyr⁹⁸⁵, were increased in SD compared to LD. Our findings suggest that activation of STAT3 by leptin may be dependent on interaction of stimulatory SHP2/GRB2 as well as inhibitory SOCS3 on the level of competitive binding to LRb-associated Tyr⁹⁸⁵. This hypothetical mechanism may represent the molecular identity of seasonally induced adjustments in leptin sensitivity and may be applied to investigating leptin sensitivity in other rodent models.

Published
2012
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49. Toward a single-cell-based analysis of neuropeptide expression in Periplaneta americana antennal lobe neurons.

Author

Neupert S, Fusca D, Schachtner J, Kloppenburg P, and Predel R

Subjects
Amino Acid Sequence, Animals, Arthropod Antennae cytology, Gene Expression Profiling, Immunohistochemistry, Interneurons metabolism, Male, Microscopy, Confocal, Molecular Sequence Data, Patch-Clamp Techniques, Spectrometry, Mass, Electrospray Ionization, Spectrometry, Mass, Matrix-Assisted Laser Desorption-Ionization, Tissue Fixation, Arthropod Antennae metabolism, Neurons metabolism, Neuropeptides biosynthesis, Periplaneta physiology, Single-Cell Analysis methods
Abstract

A multitude of potential neurotransmitters and neuromodulators, including peptides, have been detected in the antennal lobe (AL), the first synaptic relay of the central olfactory pathway in the insect brain. However, the functional role of neuropeptides in this system has yet to be revealed. An important prerequisite to understanding the role of neuropeptides is to match the functionally different cell types in the AL with their peptide profiles by using electrophysiological recordings combined with immunocytochemical studies and/or single-cell mass spectrometry. The olfactory system of Periplaneta americana is particularly well suited to accomplish this goal because several physiologically distinct neuron types can be unequivocally identified. With the aim to analyze the neuropeptide inventory of the P. americana AL, this study is an essential step in this direction. First, we systematically analyzed different parts of the AL by matrix-assisted laser desorption/ionization time of flight (MALDI-TOF) mass spectrometry to obtain the complete set of neuropeptides present. Altogether, 56 ion signals could be assigned to products of 10 neuropeptide genes (allatostatins A, B, C, SIFamide, allatotropin, FMRFamide-related peptides [myosuppressin, short neuropeptides F, extended FMRFamides], crustacean cardioactive peptide, tachykinin-related peptides). In a second step, a combination of immunocytochemistry and mass spectrometric profiling of defined AL compartments was used to reveal the spatial distribution of neuropeptide-containing cells. Finally, we demonstrated the feasibility of MALDI-TOF mass spectrometric profiling of single AL neurons, which is an important precondition for combining electrophysiology with peptide profiling at the single-cell level., (Copyright © 2011 Wiley Periodicals, Inc.)

Published
2012
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50. Cockchafer larvae smell host root scents in soil.

Author

Weissteiner S, Huetteroth W, Kollmann M, Weißbecker B, Romani R, Schachtner J, and Schütz S

Subjects
Analysis of Variance, Animals, Chemotaxis physiology, Coleoptera anatomy & histology, Gas Chromatography-Mass Spectrometry, Germany, Host-Parasite Interactions, Immunohistochemistry, Larva physiology, Larva ultrastructure, Microscopy, Electron, Scanning, Microscopy, Electron, Transmission, Microscopy, Fluorescence, Statistics, Nonparametric, Coleoptera physiology, Plant Roots chemistry, Quercus chemistry, Smell physiology, Volatile Organic Compounds analysis
Abstract

In many insect species olfaction is a key sensory modality. However, examination of the chemical ecology of insects has focussed up to now on insects living above ground. Evidence for behavioral responses to chemical cues in the soil other than CO(2) is scarce and the role played by olfaction in the process of finding host roots below ground is not yet understood. The question of whether soil-dwelling beetle larvae can smell their host plant roots has been under debate, but proof is as yet lacking that olfactory perception of volatile compounds released by damaged host plants, as is known for insects living above ground, occurs. Here we show that soil-dwelling larvae of Melolontha hippocastani are well equipped for olfactory perception and respond electrophysiologically and behaviorally to volatiles released by damaged host-plant roots. An olfactory apparatus consisting of pore plates at the antennae and about 70 glomeruli as primary olfactory processing units indicates a highly developed olfactory system. Damage induced host plant volatiles released by oak roots such as eucalyptol and anisol are detected by larval antennae down to 5 ppbv in soil air and elicit directed movement of the larvae in natural soil towards the odor source. Our results demonstrate that plant-root volatiles are likely to be perceived by the larval olfactory system and to guide soil-dwelling white grubs through the dark below ground to their host plants. Thus, to find below-ground host plants cockchafer larvae employ mechanisms that are similar to those employed by the adult beetles flying above ground, despite strikingly different physicochemical conditions in the soil.

Published
2012
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