Motor and cognitive aging can severely affect life quality of elderly people and burden health care systems. In search for diagnostic behavioral biomarkers, it has been suggested that walking speed can predict forms of cognitive decline, but in humans, it remains challenging to separate the effects of biological aging and lifestyle. We examined a possible association of motor and cognitive decline in Drosophila, a genetic model organism of healthy aging.
View Article and Find Full Text PDFAuditory evoked potentials (AEPs) are brain-derived electrical signals, following an auditory stimulus, utilised to examine any obstructions along the brain neural-pathways and to diagnose hearing impairment. The clinical evaluation of AEPs is based on the measurements of the latencies and amplitudes of waves of interest; hence, their identification is a prerequisite for AEP analysis. This process has proven to be complex, as it requires relevant clinical experience, and the existing software for this purpose has little practical use.
View Article and Find Full Text PDFAnnu Int Conf IEEE Eng Med Biol Soc
July 2022
Tinnitus is the perception of sound when no actual external noise is present. Tinnitus is highly prevalent, with more than 1 in 7 adults in the EU having tinnitus, and it causes negative effects on quality of life for many individuals. However, there is currently no cure for tinnitus and its pathophysiology and genesis are unknown.
View Article and Find Full Text PDFThere is an increasing interest to study the interactions between atmospheric electrical parameters and living organisms at multiple scales. So far, relatively few studies have been published that focus on possible biological effects of atmospheric electric and magnetic fields. To foster future work in this area of multidisciplinary research, here we present a glossary of relevant terms.
View Article and Find Full Text PDFThe CORL family of CNS-specific proteins share a Smad-binding region with mammalian SnoN and c-Ski protooncogenes. In this family Drosophila CORL has two mouse and two human relatives. Roles for the mouse and human CORL proteins are largely unknown.
View Article and Find Full Text PDFDuring early postnatal life, speed up of signal propagation through many central and peripheral neurons has been associated with an increase in axon diameter or/and myelination. Especially in unmyelinated axons postnatal adjustments of axonal membrane conductances is potentially a third mechanism but solid evidence is lacking. Here, we show that axonal action potential (AP) conduction velocity in the giant fiber (GF) interneuron, which is required for fast long-distance signal conduction through the escape circuit, is increased by 80% during the first day of adult life.
View Article and Find Full Text PDFThe increase in human life expectancy is accompanied by age-related cognitive and motor disability, thus raising the demand for strategies toward healthy aging. This requires understanding the biology of normal aging and late-life functional phenotypes. Genetic model organisms, such as , can help identifying evolutionary conserved mechanisms underlying aging.
View Article and Find Full Text PDFAccumulation of normal or mutant human Tau isoforms in Central Nervous System (CNS) neurons of vertebrate and invertebrate models underlies pathologies ranging from behavioral deficits to neurodegeneration that broadly recapitulate human Tauopathies. Although some functional differences have begun to emerge, it is still largely unclear whether normal and mutant Tau isoforms induce differential effects on the synaptic physiology of CNS neurons. We use the oligosynaptic Giant Fiber System in the adult Drosophila CNS to address this question and reveal that 3R and 4R isoforms affect distinct synaptic parameters.
View Article and Find Full Text PDFCORL proteins (known as SKOR in mice, Fussel in humans and fussel in Flybase) are a family of CNS specific proteins related to Sno/Ski oncogenes. Their developmental and adult roles are largely unknown. A Drosophila (dCORL) reporter gene is expressed in all Drosophila insulin-like peptide 2 (dILP2) neurons of the pars intercerebralis (PI) of the larval and adult brain.
View Article and Find Full Text PDFDrosophila chorion represents a model biological system for the in vivo study of gene activity, epithelial development, extracellular-matrix assembly and morphogenetic-patterning control. It is produced during the late stages of oogenesis by epithelial follicle cells and develops into a highly organized multi-layered structure that exhibits regional specialization and radial complexity. Among the six major proteins involved in chorion's formation, the s36 and s38 ones are synthesized first and regulated in a cell type-specific and developmental stage-dependent manner.
View Article and Find Full Text PDFObjective: Τhe aim of this study was to observe cortisol responses to a pharmacological challenge with 1 μg ACTH as a function of age and gender.
Patients: Twenty-one young (13 women and 8 men; mean age: 43∙48 ± 10∙52 years) and forty elderly (20 women and 20 men; mean age: 79 ± 6∙76 years) volunteers without overt acute or chronic disease participated in this study.
Measurements: Basal serum cortisol levels were measured, and cortisol values were obtained at 30 and 60 min after administration of 1 μg ACTH.
Development of neural circuitry relies on precise matching between correct synaptic partners and appropriate synaptic strength tuning. Adaptive developmental adjustments may emerge from activity and calcium-dependent mechanisms. Calcium/calmodulin-dependent protein kinase II (CaMKII) has been associated with developmental synaptic plasticity, but its varied roles in different synapses and developmental stages make mechanistic generalizations difficult.
View Article and Find Full Text PDFMolecular mechanisms that concordantly regulate stress, life span, and aging remain incompletely understood. Here, we demonstrate that in Drosophila, a p38 MAP kinase (p38K)/Mef2/MnSOD pathway is a coregulator of stress and life span. Hence, overexpression of p38K extends life span in a MnSOD-dependent manner, whereas inhibition of p38K causes early lethality and precipitates age-related motor dysfunction and stress sensitivity, that is rescued through muscle-restricted (but not neuronal) add-back of p38K.
View Article and Find Full Text PDFThe 14-3-3 family members play a crucial role in the determination of cell fate, exerting their antiapoptotic activity through directly interfering with the critical function of the mitochondrial core proapoptotic machinery. Dimerization of 14-3-3 is vital for the interaction with many of its client proteins and is regulated by phosphorylation. In a previous study, we observed time-dependent neuronal apoptosis during sepsis.
View Article and Find Full Text PDFHorm Metab Res
November 2008
The aim of our study was to analyze the action of zoledronic acid on MG-63 human osteosarcoma cells. The proliferation of MG-63 cells was inhibited by either continuous or pulsatile exposures of zoledronic acid in a dose-dependent manner (10-250 microM). Zoledronic acid did not produce evidence of MG-63 cell death when administered at 100 mM for 48 hours, but only after exposure of 96 hours.
View Article and Find Full Text PDFDendrites are subject to subtle modifications as well as extensive remodeling during the assembly and maturation of neural circuits in a wide variety of organisms. During metamorphosis, Drosophila flight motoneurons MN1-MN4 undergo dendritic regression, followed by regrowth, whereas MN5 differentiates de novo (Consoulas et al. [2002] J.
View Article and Find Full Text PDFIndividual contributions made by different calcium release and sequestration mechanisms to various aspects of excitable cell physiology are incompletely understood. SERCA, a sarco-endoplasmic reticulum calcium ATPase, being the main agent for calcium uptake into the ER, plays a central role in this process. By isolation and extensive characterization of conditional mutations in the Drosophila SERCA gene, we describe novel roles of this key protein in neuromuscular physiology and enable a genetic analysis of SERCA function.
View Article and Find Full Text PDFBackground: The transcription factor AP1 mediates long-term plasticity in vertebrate and invertebrate central nervous systems. Recent studies of activity-induced synaptic change indicate that AP1 can function upstream of CREB to regulate both CREB-dependent enhancement of synaptic strength as well as CREB-independent increase in bouton number at the Drosophila neuromuscular junction (NMJ). However, it is not clear from this study if AP1 functions autonomously in motor neurons to directly modulate plasticity.
View Article and Find Full Text PDFInsect motoneurons display dramatic dendritic plasticity during metamorphosis. Many larval motoneurons survive to adulthood but undergo dendritic regression and outgrowth as they are incorporated into developing circuits. This study explores the dendritic remodeling and development of Drosophila motoneurons MN1-MN5, which innervate indirect flight muscles of the adult.
View Article and Find Full Text PDFBrain Res Bull
November 2000
During insect metamorphosis, neural and motor systems are remodeled to accommodate behavioral transformations. Nerve and muscle cells that are required for larval behavior, such as crawling, feeding and ecdysis, must either be replaced or respecified to allow adult emergence, walking, flight, mating and egg-laying. This review describes the types of cellular changes that occur during metamorphosis, as well as recent attempts to understand how they are related to behavioral changes and how they are regulated.
View Article and Find Full Text PDFDuring metamorphosis of the moth, Manduca sexta, the larval legs degenerate and are replaced by adult legs with a diverse array of new sensory organs. The majority of the larval sensory neurons degenerate but some hair sensilla and chordotonal organ sensory neurons survive metamorphosis (Consoulas [2000] J. Comp.
View Article and Find Full Text PDFJ Comp Neurol
April 2000
The adult legs of the hawkmoth Manduca sexta are supplied by a diverse array of sensory organs and associated neurons (Kent and Griffin [1990] Cell Tissue Res. 259:209-223) that differ from those in the larval legs. In the present study, a combination of nerve-tracing techniques [biocytin, 1,1;-dioctadecyl-3,3,3;, 3;-tetramethyl-indocarbocyanine perchlorate (DiI)], birth date labeling (5-bromodeoxyuridine), confocal microscopy, and electrophysiology were used to describe the remodeling of the prothoracic leg sensory system.
View Article and Find Full Text PDFInsect muscle fibers are commonly innervated by multiple motor neurons and efferent unpaired median (UM) neurons. The role of UM neurons in the modulation rather than rapid activation of muscle contraction (Evans and O'Shea [1977] Nature 270:257-259) suggests that their terminal varicosities may differ structurally and functionally from the presynaptic terminals of motor neurons. Furthermore, differences in the characteristics of UM neuron terminal varicosities may be correlated with functional differences among their diverse target muscles.
View Article and Find Full Text PDFThe females of the palaearctic digger wasp species Liris niger hunt crickets (e.g., Acheta domesticus) as food for their future brood.
View Article and Find Full Text PDFThe unpaired median neurons are common to the segmental ganglia of many insects. Although some of the functional consequences of their activation, among them the release of octopamine to modulate muscle contraction, have been described, less is understood about how and when these neurons are recruited during movement. The present study demonstrates that peripherally projecting unpaired median neurons in the abdominal and thoracic ganglia of the larval tobacco hornworm Manduca sexta are recruited rhythmically during the fictive crawling motor activity that is produced by the isolated central nervous system in response to pilocarpine.
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