Marta Polańska scite author profile

BackgroundIn the olfactory system of malacostracan crustaceans, axonal input from olfactory receptor neurons associated with aesthetascs on the animal’s first pair of antennae target primary processing centers in the median brain, the olfactory lobes. The olfactory lobes are divided into cone-shaped synaptic areas, the olfactory glomeruli where afferents interact with local olfactory interneurons and olfactory projection neurons. The local olfactory interneurons display a large diversity of neurotransmitter phenotypes including biogenic amines and neuropeptides. Furthermore, the malacostracan olfactory glomeruli are regionalized into cap, subcap, and base regions and these compartments are defined by the projection patterns of the afferent olfactory receptor neurons, the local olfactory interneurons, and the olfactory projection neurons. We wanted to know how neurons expressing A-type allatostatins (A-ASTs; synonym dip-allatostatins) integrate into this system, a large family of neuropeptides that share the C-terminal motif –YXFGLamide.ResultsWe used an antiserum that was raised against the A-type Diploptera punctata (Dip)-allatostatin I to analyse the distribution of this peptide in the brain of a terrestrial hermit crab, Coenobita clypeatus (Anomura, Coenobitidae). Allatostatin A-like immunoreactivity (ASTir) was widely distributed in the animal’s brain, including the visual system, central complex and olfactory system. We focussed our analysis on the central olfactory pathway in which ASTir was abundant in the primary processing centers, the olfactory lobes, and also in the secondary centers, the hemiellipsoid bodies. In the olfactory lobes, we further explored the spatial relationship of olfactory interneurons with ASTir to interneurons that synthesize RFamide-like peptides. We found that these two peptides are present in distinct populations of local olfactory interneurons and that their synaptic fields within the olfactory glomeruli are also mostly distinct.ConclusionsWe discuss our findings against the background of the known neurotransmitter complexity in the crustacean olfactory pathway and summarize what is now about the neuronal connectivity in the olfactory glomeruli. A-type allatostatins, in addition to their localization in protocerebral brain areas, seem to be involved in modulating the olfactory signal at the level of the deutocerebrum. They contribute to the complex local circuits within the crustacean olfactory glomeruli the connectivity within which as yet is completely unclear. Because the glomeruli of C. clypeatus display a distinct pattern of regionalization, their olfactory systems form an ideal model to explore the functional relevance of glomerular compartments and diversity of local olfactory interneurons for olfactory processing in crustaceans.

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Immunolocalisation of crustacean-SIFamide in the median brain and eyestalk neuropils of the marbled crayfish

Polańska

Yasuda

Harzsch

2007

Cell Tissue Res

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Crustacean-SIFamide (GYRKPPFNGSIFamide) is a novel neuropeptide that was recently isolated from crayfish nervous tissue. We mapped the localisation of this peptide in the median brain and eyestalk neuropils of the marbled crayfish (Marmorkrebs), a parthenogenetic crustacean. Our experiments showed that crustacean-SIFamide is strongly expressed in all major compartments of the crayfish brain, including all three optic neuropils, the lateral protocerebrum with the hemiellipsoid body, and the medial protocerebrum with the central complex. These findings imply a role of this peptide in visual processing already at the level of the lamina but also at the level of the deeper relay stations. Immunolabelling is particularly strong in the accessory lobes and the deutocerebral olfactory lobes that receive a chemosensory input from the first antennae. Most cells of the olfactory globular tract, a projection neuron pathway that links deuto- and protocerebrum, are labelled. This pathway plays a central role in conveying tactile and olfactory stimuli to the lateral protocerebrum, where this input converges with optic information. Weak labelling is also present in the tritocerebrum that is associated with the mechanosensory second antennae. Taken together, we suggest an important role of crustacean-SIFamidergic neurons in processing high-order, multimodal input in the crayfish brain.

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Fungal infection causes changes in the number, morphology and spreading ability of Galleria mellonella haemocytes

et al. 2018

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The most effective and important strategy in the insect immune response is based on cellular reactions incorporating haemocytes. The present study uses Galleria mellonella (Lepidoptera: Pyralidae) as a host to study the pathogenesis caused by the entomopthoralean fungus Conidiobolus coronatus (Entomophthorales). Five types of haemocytes with different morphologies and behaviour are observed in the haemolymph of G. mellonella: granulocytes (GRs), plasmatocytes (PLs), spherulocytes (SPs), oenocytes (OEs) and prohaemocytes (PRs). During in vitro cultivation, three morphological subtypes of PLs are distinguished: flattened PLs, sun‐like PLs and oval PLs. In fresh smears of haemolymph observed under phase‐contrast microscopy, only flattened PLs are identified. No morphological changes are observed between fresh smears and in vitro cultures for GR, OE, SP and PR. Haemocytes cultured in vitro form a cellular network composed of PLs and GRs. Changes in the numbers, morphology and behaviour of haemocytes induced by fungal infection are compared with those observed in normally‐developing untreated larvae. Infection results in a significant drop in the number of haemocyte types. Fresh smears of haemocytes from mycosed larvae reveal malformed OEs, vacuolized PLs and GRs, as well as PLs with apoptotic blebs. Haemocytes from mycosed larvae incubated in vitro look similar, with degranulated GRs and vacuolized PLs forming microaggregations, as well as deformed OEs; only the SPs remain unharmed. Fungal infection impairs the ability of haemocytes to attach and spread on the culture dish. The actin cytoskeleton of haemocytes from mycosed larvae appear disorganized.

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Clock-controlled rhythm of ecdysteroid levels in the haemolymph and testes, and its relation to sperm release in the Egyptian cotton leafworm, Spodoptera littoralis

Polańska

Maksimiuk-Ramirez

Ciuk

et al. 2009

Journal of Insect Physiology

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Temporal Expression of the Clock Genes in the Water Flea Daphnia pulex (Crustacea: Cladocera)

et al. 2016

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The timekeeping mechanisms that operate at the core of circadian clocks (oscillators) are based on interacting molecular feedback loops consisting of clock and clock-associated genes. However, there is a lack of comprehensive studies on the expression of clock genes (particularly those forming its core) in single crustacean species at the mRNA and protein levels, and these studies could serve as a basis for constructing a model of the crustacean molecular oscillator. Studies on Daphnia pulex are well suited to fill this gap because this species is the only representative crustacean whose genome has been sequenced. We analyzed the abundance of 20 gene transcripts throughout the day in the whole bodies of D. pulex (single clone); we found that 15 of these genes were transcriptionally active, and most had daily expression level changes. According to the functional classification of their homologues in insects, these genes may represent elements of the Daphnia molecular oscillator core and its input and output pathways. Studies of PERIOD (PER) protein, one of the main clock components, revealed its rhythmic expression pattern in the epidermis, gut, and ovaries. Finally, the cycling levels of many of these clock components observed in animals reared in continuous light led to the conclusion that the Daphnia oscillator, even if it is structurally similar to the oscillators of other arthropods, can be considered a particularly important adaptive mechanism for living in environments with extreme photoperiods.

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Marta Polańska

Neuropeptide complexity in the crustacean central olfactory pathway: immunolocalization of A-type allatostatins and RFamide-like peptides in the brain of a terrestrial hermit crab

Immunolocalisation of crustacean-SIFamide in the median brain and eyestalk neuropils of the marbled crayfish

Fungal infection causes changes in the number, morphology and spreading ability of Galleria mellonella haemocytes

Clock-controlled rhythm of ecdysteroid levels in the haemolymph and testes, and its relation to sperm release in the Egyptian cotton leafworm, Spodoptera littoralis

Temporal Expression of the Clock Genes in the Water Flea Daphnia pulex (Crustacea: Cladocera)

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