128 research outputs found

    EAG responses to pheromone as a tool in the control of population dynamics of the gypsy moth <i>Lymantria dispar</i>

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    The reproductive programme of the gypsy moth Lymantria dispar L. (Lepidoptera: Lymantriidae), the most important defoliator of Sardinian Quercus suber L. forests, is based on production and release of its sex pheromone (+)disparlure by calling female moths and its perception by conspecific males. The acquisition of information about any factors influencing male sensitivity to this sex attractant may help improve field techniques against this defoliator or possibly provide a basis for predicting where favourable conditions for control of population dynamics will occur. In this respect, the pheromone might be used as a specific tool for olfaction research and to monitor changes in male sensitivity, thus leading to a better control of population

    Drosophila mutant model of Parkinson's disease revealed an unexpected olfactory performance: Morphofunctional evidences

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    Parkinson's disease (PD) is one of the most common neurodegenerative diseases characterized by the clinical triad: tremor, akinesia, and rigidity. Several studies have suggested that PD patients show disturbances in olfaction as one of the earliest, nonspecific nonmotor symptoms of disease onset. We sought to use the fruit fly Drosophila melanogaster as a model organism to explore olfactory function in LRRK loss-of-function mutants, which was previously demonstrated to be a useful model for PD. Surprisingly, our results showed that the LRRK mutant, compared to the wild flies, presents a dramatic increase in the amplitude of the electroantennogram responses and this is coupled with a higher number of olfactory sensilla. In spite of the above reported results, the behavioural response to olfactory stimuli in mutant flies is impaired compared to that obtained in wild type flies. Thus, behaviour modifications and morphofunctional changes in the olfaction of LRRK loss-of-function mutants might be used as an index to explore the progression of parkinsonism in this specific model, also with the aim of studying and developing new treatment

    Impaired sense of smell in a Drosophila Parkinson's model.

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    Parkinson’s disease (PD) is one of the most common neurodegenerative disease characterized by the clinical triad: tremor, akinesia and rigidity. Several studies have suggested that PD patients show disturbances in olfaction at the earliest onset of the disease. The fruit fly Drosophila melanogaster 32 is becoming a powerful model organism to study neurodegenerative diseases. We sought to use this system to explore olfactory dysfunction, if any, in PINK1 mutants, which is a model for PD. PINK1 mutants display many important diagnostic symptoms of the disease such as akinetic motor behavior. In the present study, we describe for the first time, to the best of our knowledge, neurophysiological and neuroanatomical results concerning the olfactory function in PINK1 mutant flies. Electroantennograms were recorded in response to synthetic and natural volatiles (essential oils) from groups of PINK1 mutant adults at three different time points in their life cycle: one from 3-5 day-old flies, from 15-20 and from 27-30 days. The results obtained were compared with the same age-groups of wild type flies. We found that mutant adults showed a decrease in the olfactory response to 1-hexanol, α-pinene and essential oil volatiles. This olfactory response in mutant adults decreased even more as the flies aged. Immunohistological analysis of the antennal lobes in these mutants revealed structural abnormalities, especially in the expression of Bruchpilot protein, a marker for synaptic active zones. The combination of electrophysiological and morphological results suggests that the altered synaptic organization may be due to a neurodegenerative process. Our results indicate that this model can be used as a tool for understanding PD pathogensis and pathophysiology. These results help to explore the potential of using olfaction as a means of monitoring PD progression and developing new treatments

    Functional and morphological correlates in the drosophila LRRK2 loss-of-function model of Parkinson's disease: drug effects of Withania somnifera (Dunal) administration

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    The common fruit fly Drosophila melanogaster (Dm) is a simple animal species that contributed significantly to the development of neurobiology whose leucine-rich repeat kinase 2 mutants (LRRK2) loss-of-function in the WD40 domain represent a very interesting tool to look into physiopathology of Parkinson's disease (PD). Accordingly, LRRK2 Dm have also the potential to contribute to reveal innovative therapeutic approaches to its treatment. Withania somnifera Dunal, a plant that grows spontaneously also in Mediterranean regions, is known in folk medicine for its anti-inflammatory and protective properties against neurodegeneration. The aim of this study was to evaluate the neuroprotective effects of its standardized root methanolic extract (Wse) on the LRRK2 loss-of-function Dm model of PD. To this end mutant and wild type (WT) flies were administered Wse, through diet, at different concentrations as larvae and adults (L+/A+) or as adults (L-/A+) only. LRRK2 mutants have a significantly reduced lifespan and compromised motor function and mitochondrial morphology compared toWT flies 1% Wse-enriched diet, administered to Dm LRRK2 as L-/A+and improved a) locomotor activity b) muscle electrophysiological response to stimuli and also c) protected against mitochondria degeneration. In contrast, the administration of Wse to Dm LRRK2 as L+/A+, no matter at which concentration, worsened lifespan and determined the appearance of increased endosomal activity in the thoracic ganglia. These results, while confirming that the LRRK2 loss-of-function in the WD40 domain represents a valid model of PD, reveal that under appropriate concentrations Wse can be usefully employed to counteract some deficits associated with the disease. However, a careful assessment of the risks, likely related to the impaired endosomal activity, is require

    Analoghi di sintesi del feromone sessuale come strumento per il controllo della popolazione di <i>Lymantria dispar</i>

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    La strategia riproduttiva delle farfalle notturne è basata sull’utilizzo di un feromone speciespecifico, prodotto dagli esemplari femminili per il richiamo a lunga distanza degli individui maschi conspecifici. In particolare le femmine di Lymantria dispar, uno dei più importanti insetti fitofagi defogliatori delle sugherete sarde, elaborano un feromone costituito da un unico componente, chiamato (+)disparlure (2-methyl-7,8-epoxy-octadecane) e lo accumulano nella ghiandola del feromone fino al rilascio. Nel presente lavoro abbiamo sintetizzato diversi analoghi del feromone naturale, allo scopo di ottenere molecole con un maggiore potere attrattivo sugli esemplari maschili, o più stabili nel tempo, ossia dotate di tempi di decadimento più lunghi

    Bitter taste recognition in the blowfly: electrophysiological and behavioral evidence

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    Blowflies respond to sugars, salts, and water through the activation of specific chemoreceptor neurons in the labellar taste chemosensilla. These insects also detect deterrent stimuli, but identification of a specific &quot;deterrent&quot; chemoreceptor within their sensilla has been elusive. Here electrophysiological evidence is provided that the so-called &quot;fifth&quot; cell in taste chemosensilla of blowflies responds to deterrent compounds, such as quinine, amiloride, nicotine, and caffeine, which are also known to be bitter tasting for vertebrates. Therefore, comparison of behavioral and electrophysiological data, including crossadaptation analysis, suggests that the blowfly can detect &quot;bitter&quot; stimuli by activation of the &quot;fifth&quot; cell. A possible chemoreception mechanism is discussed
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