Your search keyword '"Manduca anatomy & histology"' showing total 6 results

1. A steroid hormone affects sodium channel expression in Manduca central neurons.

Author

Börner J, Puschmann T, and Duch C

Subjects

Animals, Cells, Cultured, Central Nervous System cytology, Central Nervous System metabolism, Gene Expression Regulation, Developmental drug effects, Immunohistochemistry, In Situ Hybridization, Manduca anatomy & histology, Manduca growth & development, Microscopy, Confocal, Neurons cytology, Neurons metabolism, Receptors, Nicotinic genetics, Receptors, Nicotinic metabolism, Sodium Channels metabolism, Thorax cytology, Central Nervous System drug effects, Ecdysterone pharmacology, Manduca metabolism, Neurons drug effects, Sodium Channels drug effects

Abstract

Neuronal differentiation is characterized by stereotypical sequences of membrane channel and receptor acquisition. This is regulated by the coordinated interactions of a variety of developmental mechanisms, one of which is the control by steroid hormones. We have used the metamorphosis of the holometabolous insect, Manduca sexta, as a model to study effects of 20-hydroxyecdysone on the maturation of thoracic neuron membrane channel expression. To test for direct hormone action, neurons were dissociated into primary cell culture on the first day of pupal life. In situ hybridization demonstrated that the amount of expression of the acetylcholine receptor alpha subunit, MARA1, was not affected by 20-hydroxyecdysone. Immunocytochemistry with an antibody directed against the SP19 segment of voltage-gated sodium channels revealed no effect of 20-hydroxyecdysone treatment during the first 6 days in culture. SP19 sodium channel protein was evenly distributed along all neurites. In contrast, after 8 days in culture, 20-hydroxyecdysone increased the amount of SP19 protein expression and strongly affected its distribution in differentiating neurons. In the presence of 20-hydroxyecdysone, patches of high densities of SP19 sodium channel protein were found in growth cones close to the base of filopodia. This is a further step toward unraveling the blend of membrane proteins under the control of steroids during the development of the central nervous system of postembryonic Manduca. Our results, taken together with previous studies, indicate that 20-hydroxyecdysone does not affect the expression of potassium membrane current or of the nicotinic acetylcholine receptor but instead regulates the amplitude of the calcium membrane current and the amount and distribution of SP19 sodium channel protein.

Published

2006

2. Development of A-type allatostatin immunoreactivity in antennal lobe neurons of the sphinx moth Manduca sexta.

Author

Utz S and Schachtner J

Subjects

Animals, Fluorescence, Immune Sera metabolism, Immunohistochemistry, Manduca metabolism, Microscopy, Confocal, Olfactory Bulb cytology, Manduca anatomy & histology, Manduca growth & development, Metamorphosis, Biological, Neurons metabolism, Neuropeptides metabolism, Olfactory Bulb growth & development

Abstract

The antennal lobe (AL) of the sphinx moth Manduca sexta is a well-established model system for studying mechanisms of neuronal development. To understand whether neuropeptides are suited to playing a role during AL development, we have studied the cellular localization and temporal expression pattern of neuropeptides of the A-type allatostatin family. Based on morphology and developmental appearance, we distinguished four types of AST-A-immunoreactive cell types. The majority of the cells were local interneurons of the AL (type Ia) which acquired AST-A immunostaining in a complex pattern consisting of three rising (RI-RIII) and two declining phases (DI, DII). Type Ib neurons consisted of two local neurons with large cell bodies not appearing before 7/8 days after pupal ecdysis (P7/P8). Types II and III neurons accounted for single centrifugal neurons, with type II neurons present in the larva and disappearing in the early pupa. The type III neuron did not appear before P7/P8. RI and RII coincided with the rises of the ecdysteroid hemolymph titer. Artificially shifting the pupal 20-hydroxyecdysone (20E) peak to an earlier developmental time point resulted in the precocious appearance of AST-A immunostaining in types Ia, Ib, and III neurons. This result supports the hypothesis that the pupal rise in 20E plays a role in AST-A expression during AL development. Because of their early appearance in newly forming glomeruli, AST-A-immunoreactive fibers could be involved in glomerulus formation. Diffuse AST-A labeling during early AL development is discussed as a possible signal providing information for ingrowing olfactory receptor neurons.

Published

2005

3. Immunocytochemical localization of choline acetyltransferase and muscarinic ACh receptors in the antenna during development of the sphinx moth Manduca sexta.

Author

Clark J, Meisner S, and Torkkeli PH

Subjects

Animals, Epidermal Cells, Epidermis metabolism, Neuroglia metabolism, Neurons metabolism, Choline O-Acetyltransferase metabolism, Immunohistochemistry methods, Manduca anatomy & histology, Manduca growth & development, Metamorphosis, Biological, Receptors, Muscarinic metabolism, Sense Organs metabolism

Abstract

Immunocytochemistry with monoclonal antibodies was used to investigate the locations of muscarinic acetylcholine receptors (mAChR) and choline acetyltransferase (ChAT) in sections of the developing antennae of the moth Manduca sexta. The results were correlated with a previous morphological investigation in the developing antennae which allowed us to locate different cell types at various stages of development. Our findings indicated that the muscarinic cholinergic system was not restricted to the sensory neurons but was also present in glial and epidermal cells. By day 4-5 of adult development, immunoreactivity against both antibodies was present in the axons of the antennal nerve, and more intense labeling was present in sections from older pupae. At days 4-9, the cell bodies of the sensory neurons in the basal part of the epidermis were also intensely immunolabeled by the anti-mAChR antibody. In mature flagella, large numbers of cells, some with processes into hairs, were strongly labeled by both antibodies. Antennal glial cells were intensely immunolabeled with both antibodies by days 4-5, but in later stages, it was not possible to discriminate between glial and neural staining. At days 4-9, we observed a distinctly labeled layer of epidermal cells close to the developing cuticle. The expression of both ChAT and mAChRs by neurons in moth antennae may allow the regulation of excitability by endogenous ACh. Cholinergic communication between neurons and glia may be part of the system that guides axon elongation during development. The cholinergic system in the apical part of the developing epidermis could be involved in cuticle formation.

Published

2005

4. Standard three-dimensional glomeruli of the Manduca sexta antennal lobe: a tool to study both developmental and adult neuronal plasticity.

Author

Huetteroth W and Schachtner J

Subjects

Animals, Calcium-Binding Proteins metabolism, Cell Differentiation, Female, Fluorescent Antibody Technique, Indirect, Male, Membrane Glycoproteins metabolism, Metamorphosis, Biological physiology, Models, Animal, Nerve Tissue Proteins metabolism, Neurons physiology, Olfactory Bulb growth & development, Synaptotagmins, Imaging, Three-Dimensional methods, Manduca anatomy & histology, Neuronal Plasticity physiology, Neurons cytology, Olfactory Bulb anatomy & histology

Abstract

The metamorphosing antennal lobe (AL) of the sphinx moth Manduca sexta serves as an established model system for studying neuronal development. To improve our understanding of mechanisms involved in neuronal plasticity, we have analyzed the size, shape, and localization of ten identified glomeruli at three different time points during development and in the adult, viz., (1) 13 days after pupal eclosion (P13), which reflects a time when the basic glomerular map has formed, (2) immediately after adult eclosion (A0), which represents a time when the newly formed glomeruli are uninfluenced by external odors, and (3) 4 days after adult eclosion (A4), which reflects a time when the animals have been exposed to surrounding odors. Our data from normally developing ALs of male M. sexta from P13 to A0 revealed an increase in size of all examined glomeruli of between 40% and 130%, with the strongest increases occurring in two of the three sex-specific glomeruli (cumulus, toroid). From A0 to A4, the cumulus and toroid increased significantly when correlated to AL volume, whereas the other glomeruli reached the sizes gained after A0. This study was based on antibody staining against the ubiquitous synaptic vesicle protein synaptotagmin, confocal laser scan microscopy, and the three-dimensional (3D) analysis tool AMIRA. Tissue permeability and therefore reliability of the staining quality was enhanced by using formalin/methanol fixation. The standard 3D glomeruli introduced in this study can now be used as basic tools for further examination of neuronal plasticity at the level of the identified neuropil structures, viz., the glomeruli of the AL of M. sexta.

Published

2005

5. Expression patterns of odorant-binding proteins in antennae of the moth Manduca sexta.

Author

Nardi JB, Miller LA, Walden KK, Rovelstad S, Wang L, Frye JC, Ramsdell K, Deem LS, and Robertson HM

Subjects

Animals, Antibodies, Monoclonal metabolism, Immunoblotting, Manduca anatomy & histology, Models, Biological, Receptors, Odorant genetics, Recombinant Proteins isolation & purification, Recombinant Proteins metabolism, Smell physiology, Manduca metabolism, Receptors, Odorant metabolism, Sense Organs metabolism

Abstract

Monoclonal antibodies (MAbs) were generated to six recombinant proteins (odorant-binding proteins; OBPs) of Manduca sexta. The specificity of each MAb was demonstrated by labeling six immunoblots, each of which contained samples of all six recombinant OBPs. The expression patterns of the six OBPs could be grouped into three classes: (1) one (GOBP1) was expressed in sensilla located throughout each annulus; (2) two (ABPX and ABP2) were expressed in the long sensilla trichoidea bordering a zone that was arranged as an arch on the periphery of each annulus; (3) three (PBP2, PBP3, and GOBP2) were expressed in shorter sensilla occupying a wedge-shaped mid-annular zone of each annulus. In female antennae, sensilla expressing these OBPs were intermixed, and the distinct zonation observed in the male antenna was absent. In males, PBP2 was co-expressed in exactly the same cells of the mid-annular zone as those expressing PBP3 and most of the same cells expressing GOBP2, although its expression overlapped with no or only a few sensilla expressing OBPs of class 1 (GOBP1) or class 2 (ABPX, ABP2). This overlap of expression or lack of overlap between PBP2 and the other OBPs for male antennae was mirrored in female antennae. In view of the restricted spatial expression of OBPs within an annulus and the diversity of possible dimeric combinations of OBPs that arises from the co-expression of multiple OBPs in a given sensillum, OBPs could contribute to the specificity of the olfactory responses of insects.

Published

2003

6. Localization of cGMP immunoreactivity and of soluble guanylyl cyclase in antennal sensilla of the hawkmoth Manduca sexta.

Author

Stengl M, Zintl R, De Vente J, and Nighorn A

Subjects

1-Methyl-3-isobutylxanthine pharmacology, Adaptation, Physiological, Animals, Cyclic GMP biosynthesis, Cyclic GMP immunology, Guanylate Cyclase genetics, Guanylate Cyclase immunology, Immunohistochemistry, In Situ Hybridization, Male, Manduca anatomy & histology, Manduca cytology, Manduca enzymology, Nitric Oxide physiology, Nitric Oxide Donors pharmacology, Phosphodiesterase Inhibitors pharmacology, Protein Subunits, RNA, Messenger biosynthesis, Sex Attractants pharmacology, Signal Transduction, Up-Regulation, Cyclic GMP analysis, Guanylate Cyclase analysis, Manduca chemistry, Olfactory Receptor Neurons chemistry

Abstract

The intracellular messenger cGMP (cyclic guanosine monophosphate) has been suggested to play a role in olfactory transduction in both invertebrates and vertebrates, but its cellular location within the olfactory system has remained elusive. We used cGMP immunocytochemistry to determine which antennal cells of the hawkmoth Manduca sexta are cGMP immunoreactive in the absence of pheromone. We then tested which antennal cells increase cGMP levels in response to nitric oxide (NO) and to long pheromonal stimuli, which the male encounters close to a calling female moth. In addition, we used in situ hybridization to determine which antennal cells express NO-sensitive soluble guanylyl cyclase. In response to long pheromonal stimuli with NO donors present, cGMP concentrations change in at least a subpopulation of pheromone-sensitive olfactory receptor neurons. These changes in cGMP concentrations in pheromone-dependent olfactory receptor neurons cannot be mimicked by the addition of NO donors in the absence of pheromone. NO stimulates sensilla chaetica type I and II, but not pheromone-sensitive trichoid sensilla, to high levels of cGMP accumulation as detected by immunocytochemistry. In situ hybridizations show that sensilla chaetica, but not sensilla trichodea, express detectable levels of mRNA coding for soluble guanylyl cyclase. These results suggest that intracellular rises in cGMP concentrations play a role in information processing in a subpopulation of pheromone-sensitive sensilla in Manduca sexta antennae, mediated by an NO-sensitive mechanism, but not an NO-dependent soluble guanylyl cyclase.

Published

2001