Circadian Rhythm Abnormalities in Parkinson's Disease from Humans to Flies and Back

Clinical and research studies have suggested a link between Parkinson\u2019s disease (PD) and alterations in the circadian clock. Drosophila melanogaster may represent a useful model to study the relationship between the circadian clock and PD. Apart from the conservation of many genes, cellular mechanisms, signaling pathways, and neuronal processes, Drosophila shows an organized central nervous system and well-characterized complex behavioral phenotypes. In fact, Drosophila has been successfully used in the dissection of the circadian system and as a model for neurodegenerative disorders, including PD. Here, we describe the fly circadian and dopaminergic systems and report recent studies which indicate the presence of circadian abnormalities in some fly PD genetic models. We discuss the use of Drosophila to investigate whether, in adults, the disruption of the circadian system might be causative of brain neurodegeneration. We also consider approaches using Drosophila, which might provide new information on the link between PD and the circadian clock. As a corollary, since PD develops its symptomatology over a large part of the organism\u2019s lifespan and given the relatively short lifespan of fruit flies, we suggest that genetic models of PD could be used to perform lifelong screens for drug-modulators of general and/or circadian-related PD traits

Antioxidant Therapy in Parkinson's Disease: Insights From Drosophila melanogaster

Reactive oxygen species (ROS) play an important role as endogenous mediators in several cellular signalling pathways. However, at high concentrations they can also exert deleterious effects by reacting with many macromolecules including DNA, proteins and lipids. The precise balance between ROS production and their removal via numerous enzymatic and nonenzymatic molecules is of fundamental importance for cell survival. Accordingly, many neurodegenerative disorders, including Parkinson\u2019s disease (PD), are associated with excessive levels of ROS, which induce oxidative damage. With the aim of coping with the progression of PD, antioxidant compounds are currently receiving increasing attention as potential co-adjuvant molecules in the treatment of these diseases, and many studies have been performed to evaluate the purported protective effects of several antioxidant molecules. In the present review, we present and discuss the relevance of the use of Drosophila melanogaster as an animal model with which to evaluate the therapeutic potential of natural and synthetic antioxidants. The conservation of most of the PD-related genes between humans and D. melanogaster, along with the animal\u2019s rapid life cycle and the versatility of genetic tools, makes fruit flies an ideal experimental system for rapid screening of antioxidant-based treatments

Antioxidant Therapy in Parkinson's Disease: Insights from Drosophila melanogaster.

Reactive oxygen species (ROS) play an important role as endogenous mediators in several cellular signalling pathways. However, at high concentrations they can also exert deleterious effects by reacting with many macromolecules including DNA, proteins and lipids. The precise balance between ROS production and their removal via numerous enzymatic and nonenzymatic molecules is of fundamental importance for cell survival. Accordingly, many neurodegenerative disorders, including Parkinson's disease (PD), are associated with excessive levels of ROS, which induce oxidative damage. With the aim of coping with the progression of PD, antioxidant compounds are currently receiving increasing attention as potential co-adjuvant molecules in the treatment of these diseases, and many studies have been performed to evaluate the purported protective effects of several antioxidant molecules. In the present review, we present and discuss the relevance of the use of Drosophila melanogaster as an animal model with which to evaluate the therapeutic potential of natural and synthetic antioxidants. The conservation of most of the PD-related genes between humans and D. melanogaster, along with the animal's rapid life cycle and the versatility of genetic tools, makes fruit flies an ideal experimental system for rapid screening of antioxidant-based treatments

Insect Cecropins, Antimicrobial Peptides with Potential Therapeutic Applications

The alarming escalation of infectious diseases resistant to conventional antibiotics requires urgent global actions, including the development of new therapeutics. Antimicrobial peptides (AMPs) represent potential alternatives in the treatment of multi-drug resistant (MDR) infections. Here, we focus on Cecropins (Cecs), a group of naturally occurring AMPs in insects, and on synthetic Cec-analogs. We describe their action mechanisms and antimicrobial activity against MDR bacteria and other pathogens. We report several data suggesting that Cec and Cec-analog peptides are promising antibacterial therapeutic candidates, including their low toxicity against mammalian cells, and anti-inflammatory activity. We highlight limitations linked to the use of peptides as therapeutics and discuss methods overcoming these constraints, particularly regarding the introduction of nanotechnologies. New formulations based on natural Cecs would allow the development of drugs active against Gram-negative bacteria, and those based on Cec-analogs would give rise to therapeutics effective against both Gram-positive and Gram-negative pathogens. Cecs and Cec-analogs might be also employed to coat biomaterials for medical devices as an approach to prevent biomaterial-associated infections. The cost of large-scale production is discussed in comparison with the economic and social burden resulting from the progressive diffusion of MDR infectious diseases

Silkworm and Silk: Traditional and Innovative Applications

The various subjects covered in the present Special Issue "Silkworm and Silk: Traditional and Innovative Applications" demonstrate how sericulture, a practice deeply rooted in human history, can act as a bridge to bring together an exceptionally wide range of scientific and technical expertise in both conventional topics and cutting-edge technologies [...]

The clock gene period in the medfly Ceratitis capitata.

We have isolated the clock gene period (per) from the medfly Ceratitis capitata, one of the most economically important insect pest species. The overall pattern of conserved, non-conserved and functional domains that are observed within dipteran and lepidopteran per orthologues is preserved within the coding sequence. Expression analysis from fly heads revealed a daily oscillation in per mRNA in both light[ratio ]dark cycles and in constant darkness. However PER protein levels from head extracts did not show any significant evidence for cycling in either of these two conditions. When the Ceratitis per transgene under the control of the Drosophila per promoter and 3′UTR was introduced into Drosophila per-null mutant hosts, the transformants revealed a low level of rescue of behavioural rhythmicity. Nevertheless, the behaviour of the rhythmic transformants showed some similarities to that of Ceratitis, suggesting that Ceratitis per carries species-specific information that can evidently affect the Drosophila host's downstream rhythmic behaviour

Phenotypic effects induced by knock-down of the period clock gene in Bombyx mori.

SummaryThe lepidopteranBombyx moriis an insect of considerable scientific and economic importance. Recently, theB. moricircadian clock geneperiodhas been molecularly characterized. We have transformed aB. moristrain with a construct encoding aperioddouble-strand RNA in order to knock-downperiodgene expression. We observe that this post-transcriptional silencing produces a small but detectable disruption in the egg-hatching rhythm, as well as a reduction in egg-to-adult developmental time, without altering silk production parameters. Thus we show that both circadian and non-circadian phenotypes can be altered by changingperexpression, and, at a practical level, these results suggest thatperknock-down may provide a suitable strategy for improving the efficiency of rearing, without affecting silk productivity

EduINAF: la valutazione degli insegnanti 2022/2023

Nell’anno 2022/2023, per conoscere l’opinione della classe docente sulle offerte EduINAF, si è deciso di realizzare un questionario di valutazione da proporre annualmente agli insegananti che leggono e utilizzano EduINAF, partecipando alle varie iniziative. In questo Report vengono riportati e analizzati i dati raccolti nel primo anno di questo monitoraggio

Report EduINAF anno 2021/2022

Il periodo a cui fa riferimento questo Report (Anno scolastico 2021/2022: Settembre 2021-Agosto 2022) è stato caratterizzato dal protrarsi dell’emergenza COVID in Italia con conseguenti difficoltà delle scuole e periodi di ricorso alla Didattica a Distanza (DaD). Il 2021/2022 è stato anche il terzo anno di attività della testata registrata EduINAF, il magazine di Didattica e Divulgazione dell’Istituto Nazionale di Astrofisica. In questo periodo, la redazione di EduINAF, oltre a pubblicare risorse didattiche e contenuti informativi sul mondo della Didattica e Divulgazione della scienza, ha organizzato e contribuito a organizzare numerose iniziative a sostegno della scuola e della società, come le dirette osservative della Serie “Il Cielo in Salotto”, i concorsi per le scuole e altre campagne di engagement. In questo Report si presentano le attività svolte nell’arco di tempo indicato e si analizzano i risultati ottenuti in termini di audience, di comportamento e di gradimento del pubblico. L’obiettivo è quello di fornire il contesto per strutturare il Piano Editoriale 2022/2023 che conterrà le linee guida per la programmazione del prossimo anno scolastico

Un ingranaggio per due orologi

I risultati delle nostre ricerche collegano, per la prima volta, una proteina che svolge un ruolo cardinale nell\u2019orologio biologico circadiano di un organismo ad un comportamento che costituisce una risposta a variazioni ambientali corrispondenti al ciclo delle stagioni. Nel loro insieme questi risultati costituiscono anche un nuovo, solido argomento a sostegno della teoria neo-darwiniana dell\u2019evoluzione, una testimonianza concreta del come la struttura genetica di una specie possa evolvere in natura per effetto della mutazione spontanea e della selezione naturale