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24 results on '"Piscitiello, Emiliana"'

2. Fluorescent Neuronal Cells v2: Multi-Task, Multi-Format Annotations for Deep Learning in Microscopy

Author

Clissa, Luca, Macaluso, Antonio, Morelli, Roberto, Occhinegro, Alessandra, Piscitiello, Emiliana, Taddei, Ludovico, Luppi, Marco, Amici, Roberto, Cerri, Matteo, Hitrec, Timna, Rinaldi, Lorenzo, and Zoccoli, Antonio

Subjects
Computer Science - Computer Vision and Pattern Recognition, Computer Science - Machine Learning, Physics - Applied Physics
Abstract

Fluorescent Neuronal Cells v2 is a collection of fluorescence microscopy images and the corresponding ground-truth annotations, designed to foster innovative research in the domains of Life Sciences and Deep Learning. This dataset encompasses three image collections in which rodent neuronal cells' nuclei and cytoplasm are stained with diverse markers to highlight their anatomical or functional characteristics. Alongside the images, we provide ground-truth annotations for several learning tasks, including semantic segmentation, object detection, and counting. The contribution is two-fold. First, given the variety of annotations and their accessible formats, we envision our work facilitating methodological advancements in computer vision approaches for segmentation, detection, feature learning, unsupervised and self-supervised learning, transfer learning, and related areas. Second, by enabling extensive exploration and benchmarking, we hope Fluorescent Neuronal Cells v2 will catalyze breakthroughs in fluorescence microscopy analysis and promote cutting-edge discoveries in life sciences. The data are available at: https://amsacta.unibo.it/id/eprint/7347, Comment: 11 pages; 5 figures; 2 tables

Published
2023

4. Activation of orexin-A (hypocretin-1) receptors in the Raphe Pallidus at different ambient temperatures in the rat: effects on thermoregulation, cardiovascular control, sleep, and feeding behavior.

Author

Hitrec, Timna, Del Vecchio, Flavia, Alberti, Luca, Luppi, Marco, Martelli, Davide, Occhinegro, Alessandra, Piscitiello, Emiliana, Taddei, Ludovico, Tupone, Domenico, Amici, Roberto, and Cerri, Matteo

Subjects
AUTONOMIC nervous system, TEMPERATURE effect, BLOOD pressure, WAKEFULNESS, BODY temperature regulation
Abstract

The Raphe Pallidus (RPa) is a brainstem nucleus containing sympathetic premotor neurons that control thermogenesis and modulate cardiovascular function. It receives inputs from various hypothalamic areas, including the Lateral Hypothalamus (LH), a heterogeneous region intricately involved in several autonomic and behavioral functions. A key subpopulation of neurons in the LH expresses orexin/hypocretin, a neuropeptide which is crucially involved in the regulation of the wake-sleep states and feeding behavior. The RPa receives orexinergic projections from the LH and orexinergic signalling in the RPa has been shown to enhance thermogenesis in the anaesthetized rat, but only in the presence of an already existing thermogenic drive, without significantly affecting cardiovascular function. The present work was aimed at exploring the effects on thermoregulation and autonomic function and the possible role in the modulation of the wake-sleep states and feeding behavior of orexin injection in the RPa in the free-behaving rat. In order to assess the influence of an already present thermogenic drive on orexinergic signalling in the RPa, animals were studied at three different ambient temperatures (Ta, 10°C, 24°C, and 32°C). We found that orexin injection into the RPa variably affected the wake-sleep states, autonomic functions, motor activity, and feeding behavior, at the different Tas. In particular, in the first post-injection hour, we observed an increase in wakefulness, which was large at Ta 24°C and Ta 10°C and rather mild at Ta 32°C. Deep brain temperature was increased by orexin injection at Ta 10°C, but not at either Ta 24°C or Ta 32°C. Moreover, an increase in mean arterial blood pressure occurred at Ta 24°C, which was probably masked by the high baseline levels at Ta 10°C and was completely absent at Ta 32°C. Finally, an enhancement in feeding behavior was observed at Ta 24°C and 10°C only. In accordance with what observed in anaesthetized rats, orexinergic signalling in the RPa seems to be ineffective in the absence of any thermogenic drive. Moreover, the effects observed on the wake-sleep states and feeding behavior introduce the RPa as a novel player in the central neural network promoting wakefulness and feeding. [ABSTRACT FROM AUTHOR]

Published
2024
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5. Hibernation and Radioprotection: Gene Expression in the Liver and Testicle of Rats Irradiated under Synthetic Torpor

Author

Tinganelli, Walter, Hitrec, Timna, Romani, Fabrizio, Simoniello, Palma, Squarcio, Fabio, Stanzani, Agnese, Piscitiello, Emiliana, Marchesano, Valentina, Luppi, Marco, Sioli, Maximiliano, Helm, Alexander, Compagnone, Gaetano, Morganti, Alessio G., Amici, Roberto, Negrini, Matteo, Zoccoli, Antonio, Durante, Marco, Cerri, Matteo, Tinganelli, Walter, Hitrec, Timna, Romani, Fabrizio, Simoniello, Palma, Squarcio, Fabio, Stanzani, Agnese, Piscitiello, Emiliana, Marchesano, Valentina, Luppi, Marco, Sioli, Maximiliano, Helm, Alexander, Compagnone, Gaetano, Morganti, Alessio G., Amici, Roberto, Negrini, Matteo, Zoccoli, Antonio, Durante, Marco, and Cerri, Matteo

Abstract

Hibernation has been proposed as a tool for human space travel. In recent years, a procedure to induce a metabolic state known as "synthetic torpor" in non-hibernating mammals was successfully developed. Synthetic torpor may not only be an efficient method to spare resources and reduce psychological problems in long-term exploratory-class missions, but may also represent a countermeasure against cosmic rays. Here we show the preliminary results from an experiment in rats exposed to ionizing radiation in normothermic conditions or synthetic torpor. Animals were irradiated with 3 Gy X-rays and organs were collected 4 h after exposure. Histological analysis of liver and testicle showed a reduced toxicity in animals irradiated in torpor compared to controls irradiated at normal temperature and metabolic activity. The expression of ataxia telangiectasia mutated (ATM) in the liver was significantly downregulated in the group of animal in synthetic torpor. In the testicle, more genes involved in the DNA damage signaling were downregulated during synthetic torpor. These data show for the first time that synthetic torpor is a radioprotector in non-hibernators, similarly to natural torpor in hibernating animals. Synthetic torpor can be an effective strategy to protect humans during long term space exploration of the solar system.

Published
2024

6. Fluorescent Neuronal Cells v2

Author

Clissa, Luca, Occhinegro, Alessandra, Piscitiello, Emiliana, Taddei, Ludovico, Macaluso, Antonio, Clissa, Luca, Occhinegro, Alessandra, Piscitiello, Emiliana, Taddei, Ludovico, and Macaluso, Antonio

Abstract

Fluorescent Neuronal Cells v2 is a collection of fluorescence microscopy images and the corresponding ground-truth annotations, designed to foster innovative research in the domains of Life Science and Deep Learning. This dataset encompasses three image collections wherein rodent neuronal cell nuclei and cytoplasm are stained with diverse markers to highlight their anatomical or functional characteristics. Specifically, we release 1874 high-resolution images alongside 750 corresponding ground-truth annotations for several learning tasks, including semantic segmentation, object detection and counting. The contribution is two-fold. First, thanks to the variety of annotations and their accessible formats, we envision our work would facilitate methodological advancements in computer vision approaches for segmentation, detection, feature learning, unsupervised and self-supervised learning, transfer learning, and related areas. Second, by enabling extensive exploration and benchmarking, we hope Fluorescent Neuronal Cells v2 would catalyze breakthroughs in fluorescence microscopy analysis and promote cutting-edge discoveries in life sciences. For more information, please refer to Clissa, L. et al., 2024. Fluorescent Neuronal Cells v2: Multi-Task, Multi-Format Annotations for Deep Learning in Microscopy. Scientific data. https://doi.org/10.1038/s41597-024-03005-9. This research was partly funded by PNRR - M4C2 - Investimento 1.3, Partenariato Esteso PE00000013 - “FAIR - Future Artificial Intelligence Research” - Spoke 8 “Pervasive AI” and the European Commission under the NextGeneration EU programme. The collection of original images was supported by funding from the University of Bologna and the European Space Agency (Research agreement collaboration 4000123556).

Published
2024

7. Ultrasonic vocalisations during rapid eye movement sleep in the rat.

Author

Squarcio, Fabio, Hitrec, Timna, Luppi, Marco, Martelli, Davide, Occhinegro, Alessandra, Piscitiello, Emiliana, Taddei, Ludovico, Tupone, Domenico, Amici, Roberto, and Cerri, Matteo

Subjects
NON-REM sleep, RAPID eye movement sleep, SLEEP deprivation, ULTRASONICS, EYE movements
Abstract

Summary: Rats are known to use a 22‐kHz ultrasonic vocalisation as a distress call to warn of danger to other members of their group. We monitored 22‐kHz ultrasonic vocalisation emissions in rats (lean and obese) as part of a sleep deprivation study to detect the eventual presence of stress during the procedure. Unexpectedly, we detected ultrasonic vocalisation emission during rapid eye movement (REM) sleep, but not during non‐REM (NREM) sleep, in all the rats. The event occurs during the expiratory phase and can take place singularly or as a train. No difference was detected in the number or duration of these events in lean versus obese rats, during the light versus the dark period, and after sleep deprivation. As far as we know, this is the first report showing that rats can vocalise during REM sleep. [ABSTRACT FROM AUTHOR]

Published
2024
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9. Corrigendum: Synthetic torpor triggers a regulated mechanism in the rat brain, favoring the reversibility of Tau protein hyperphosphorylation

Author

Squarcio, Fabio, primary, Hitrec, Timna, additional, Piscitiello, Emiliana, additional, Cerri, Matteo, additional, Giovannini, Catia, additional, Martelli, Davide, additional, Occhinegro, Alessandra, additional, Taddei, Ludovico, additional, Tupone, Domenico, additional, Amici, Roberto, additional, and Luppi, Marco, additional

Published
2023
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10. Synthetic torpor triggers a regulated mechanism in the rat brain, favoring the reversibility of Tau protein hyperphosphorylation

Author

Squarcio, Fabio, primary, Hitrec, Timna, additional, Piscitiello, Emiliana, additional, Cerri, Matteo, additional, Giovannini, Catia, additional, Martelli, Davide, additional, Occhinegro, Alessandra, additional, Taddei, Ludovico, additional, Tupone, Domenico, additional, Amici, Roberto, additional, and Luppi, Marco, additional

Published
2023
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11. Molecular changes induced by a centrally-induced state of synthetic torpor in multiple organs:a new strategy for radioprotection.

Author

Cerri, Matteo, Piscitiello, Emiliana <1993>, Cerri, Matteo, and Piscitiello, Emiliana <1993>

Abstract

Torpor is a successful survival strategy displayed by several mammalian species to cope with harsh environmental conditions. A complex interplay of ambient, genetic and circadian stimuli acts centrally to induce a severe suppression of metabolic rate, usually followed by an apparently undefended reduction of body temperature. Some animals, such as marmots, are able to maintain this physiological state for months (hibernation), during which torpor bouts are periodically interrupted by short interbouts of normothermia (arousals). Interestingly, torpor adaptations have been shown to be associated with a large resistance towards stressors, such as radiation: indeed, if irradiated during torpor, hibernators can tolerate higher doses of radiation, showing an increased survival rate. New insights for radiotherapy and long-term space exploration could arise from the induction of torpor in non-hibernators, like humans. The present research project is centered on synthetic torpor (ST), a hypometabolic/hypothermic condition induced in a non-hibernator, the rat, through the pharmacological inhibition of the Raphe Pallidus, a key brainstem area controlling thermogenic effectors. By exploiting this procedure, this thesis aimed at: i) providing a multiorgan description of the functional cellular adaptations to ST; ii) exploring the possibility, and the underpinning molecular mechanisms, of enhanced radioresistance induced by ST. To achieve these aims, transcriptional and histological analysis have been performed in multiple organs of synthetic torpid rats and normothermic rats, either exposed or not exposed to 3 Gy total body of X-rays. The results showed that: i) similarly to natural torpor, ST induction leads to the activation of survival and stress resistance responses, which allow the organs to successfully adapt to the new homeostasis; ii) ST provides tissue protection against radiation damage, probably mainly through the cellular adaptations constitutively induced by ST, eve

Published
2023

12. Molecular changes induced by a centrally-induced state of synthetic torpor in multiple organs:a new strategy for radioprotection

Author

Piscitiello, Emiliana <1993> and Cerri, Matteo

Subjects
BIO/09 Fisiologia
Abstract

Torpor is a successful survival strategy displayed by several mammalian species to cope with harsh environmental conditions. A complex interplay of ambient, genetic and circadian stimuli acts centrally to induce a severe suppression of metabolic rate, usually followed by an apparently undefended reduction of body temperature. Some animals, such as marmots, are able to maintain this physiological state for months (hibernation), during which torpor bouts are periodically interrupted by short interbouts of normothermia (arousals). Interestingly, torpor adaptations have been shown to be associated with a large resistance towards stressors, such as radiation: indeed, if irradiated during torpor, hibernators can tolerate higher doses of radiation, showing an increased survival rate. New insights for radiotherapy and long-term space exploration could arise from the induction of torpor in non-hibernators, like humans. The present research project is centered on synthetic torpor (ST), a hypometabolic/hypothermic condition induced in a non-hibernator, the rat, through the pharmacological inhibition of the Raphe Pallidus, a key brainstem area controlling thermogenic effectors. By exploiting this procedure, this thesis aimed at: i) providing a multiorgan description of the functional cellular adaptations to ST; ii) exploring the possibility, and the underpinning molecular mechanisms, of enhanced radioresistance induced by ST. To achieve these aims, transcriptional and histological analysis have been performed in multiple organs of synthetic torpid rats and normothermic rats, either exposed or not exposed to 3 Gy total body of X-rays. The results showed that: i) similarly to natural torpor, ST induction leads to the activation of survival and stress resistance responses, which allow the organs to successfully adapt to the new homeostasis; ii) ST provides tissue protection against radiation damage, probably mainly through the cellular adaptations constitutively induced by ST, even though the triggering of specific responses when the animal is irradiated during hypothermia might play a role.

Published
2023

13. Western-blot results from Synthetic-torpor experiments conducted in 2019-2020

Author

Squarcio, Fabio, Hitrec, Timna, Piscitiello, Emiliana, Cerri, Matteo, Occhinegro, Alessandra, Squarcio, Fabio, Hitrec, Timna, Piscitiello, Emiliana, Cerri, Matteo, and Occhinegro, Alessandra

Abstract

This dataset contains the original results for the western-blot (WB) determinations from experiments carried out in the "Physiological regulations in the wake-sleep cycle" lab, at the Department of Biomedical and Neuromotor Sciences - University of Bologna, Italy. The WB procedure, the bands acquisitions and their intensity quantifications were conducted at the “Centre for Applied Biomedical Research – CRBA” - University of Bologna, St. Orsola Hospital, Italy.

Published
2022

14. Synthetic torpor triggers a neuroprotective and regulated mechanism in the rat brain, favoring the reversibility of Tau protein hyperphosphorylation

Author

Squarcio, Fabio, primary, Hitrec, Timna, additional, Piscitiello, Emiliana, additional, Cerri, Matteo, additional, Giovannini, Catia, additional, Martelli, Davide, additional, Occhinegro, Alessandra, additional, Taddei, Ludovico, additional, Tupone, Domenico, additional, Amici, Roberto, additional, and Luppi, Marco, additional

Published
2022
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18. Gene expression in the liver of the rat induced in synthetic torpor

Author

Hitrec, Timna, primary, Tinganelli, Walter, additional, Romani, Fabrizio, additional, Simoniello, Palma, additional, Squarcio, Fabio, additional, Piscitiello, Emiliana, additional, Marchesano, Valentina, additional, Luppi, Marco, additional, Occhinegro, Alessandra, additional, Sioli, Maximiliano, additional, Helm, Alexander, additional, Compagnone, Gaetano, additional, Morganti, Alessio G, additional, Amici, Roberto, additional, Negrini, Matteo, additional, Zoccoli, Antonio, additional, Durante, Marco, additional, and Cerri, Matteo, additional

Published
2020
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20. Melatonin mediates the reversibility of brain hyperphosphorylated tau protein induced by synthetic torpor in rats.

Author

Luppi, Marco, Hitrec, Timna, Cerri, Matteo, Occhinegro, Alessandra, Piscitiello, Emiliana, Squarcio, Fabio, Moshari, Mahshad, Aminpour, Maral, Tuszynski, Jack A., Cavaglià, Marco, and Amici, Roberto

Abstract

Background: The hyperphosphorylation of tau protein (PPtau) in the brain is the main pathophysiological marker of tauopathies. Recently was found that when induced by a "synthetic torpor" (ST)1 condition (induced on rats), PPtau accumulations is reversible, as observed in hibernators2. Thus, ST uncover a latent physiological mechanism able to cope with PPtau and not specifically evolved with hibernation. Aim of the present work was to describe it. Methods: We induced ST as already reported2 on 12 Sprague‐Dawley rats. Hippocampal and plasma samples were collected at the following experimental conditions: nadir of hypothermia (N); early recovery (ER), as soon as animals reached normothermia following N; 6h following ER (R6). Control (C) animals were also included. Levels of AT8 (p[S020/T205]‐tau), p[S9]‐GSK3β (inhibited form of the main kinase targeting tau) and plasma melatonin were determined. To better understand in vivo experimental results, we performed in silico simulations of melatonin‐tubulin interactions3. Results: Figure 1 shows, at N, a huge amount of AT8 and high levels of p[S9]‐GSK3β and melatonin in respect to C. All factors returned to normal at R6. These paradoxical results (i.e. the coexistence of high levels of PPtau and p[S9]‐GSK3β) could be interpreted considering the destabilization of microtubules (MTs) induced by hypothermia as the main trigger of the whole process, then eliciting a neuroprotective physiological response mediated by melatonin, also interacting with MTs. To sustain this hypothesis, we also provide computational analysis of the microtubule stability as a function of temperature and other factors, such as melatonin binding. The molecular docking simulation shows that melatonin did not bind to 1sa0 structure, but it binds to one site of 1jff structure on the α‐tubulin monomer (Figure 2). This is further elucidated using a molecular fingerprint representation (Figure 3), showing the binding site of melatonin with respect to those well‐known binding locations. Conclusions: Our results could pave the way for an effective new strategy to contrast tauopathies, with next‐step studies aimed to pharmacologically interacting with this process at physiological temperature. References: (1) Luppi et al. Front Neuroanat 2019, 13:57; (2) Stieler et al. PLoS One 2011, 6: e14530. 3Craddock, et al. Sci Reports 2017, 7:1. [ABSTRACT FROM AUTHOR]

Published
2021
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21. Hibernation and Radioprotection: Gene Expression in the Liver and Testicle of Rats Irradiated under Synthetic Torpor

Author

Tinganelli, Walter, primary, Hitrec, Timna, additional, Romani, Fabrizio, additional, Simoniello, Palma, additional, Squarcio, Fabio, additional, Stanzani, Agnese, additional, Piscitiello, Emiliana, additional, Marchesano, Valentina, additional, Luppi, Marco, additional, Sioli, Maximiliano, additional, Helm, Alexander, additional, Compagnone, Gaetano, additional, Morganti, Alessio, additional, Amici, Roberto, additional, Negrini, Matteo, additional, Zoccoli, Antonio, additional, Durante, Marco, additional, and Cerri, Matteo, additional

Published
2019
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22. Acclimation of intestinal morphology and function in Djungarian hamsters (Phodopus sungorus) related to seasonal and acute energy balance

Author

Piscitiello, Emiliana, Herwig, Annika, Haugg, Elena, Schro¨der, Bernd, Breves, Gerhard, Steinlechner, Stephan, and Diedrich, Victoria

Abstract

Small mammals exhibit seasonal changes in intestinal morphology and function via increased intestine size and resorptive surface and/or nutrient transport capacity to increase energy yield from food during winter. This study investigated whether seasonal or acute acclimation to anticipated or actual energetic challenges in Djungarian hamsters also resulted in higher nutrient resorption capacities owing to changes in small intestine histology and physiology. The hamsters show numerous seasonal energy-saving adjustments in response to short photoperiod. As spontaneous daily torpor represents one of these adjustments related to food quality and quantity, it was hypothesized that the hamsters' variable torpor expression patterns are influenced by their individual nutrient uptake capacity. Hamsters under short photoperiod showed longer small intestines and higher mucosal electrogenic transport capacities for glucose relative to body mass. Similar observations were made in hamsters under long photoperiod and food restriction. However, this acute energetic challenge caused a stronger increase of glucose transport capacity. Apart from that, neither fasting-induced torpor in food-restricted hamsters nor spontaneous daily torpor in short photoperiod-exposed hamsters clearly correlated with mucosal glucose transport capacity. Both seasonally anticipated and acute energetic challenges caused adjustments in the hamsters' small intestine. Short photoperiod appeared to induce an integration of these and other acclimation processes in relation to body mass to achieve a long-term adjustment of energy balance. Food restriction seemed to result in a more flexible, short-term strategy of maximizing energy uptake possibly via mucosal glucose transport and reducing energy consumption via torpor expression as an emergency response.

Published
2021
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23. Hibernation and Radioprotection: Gene Expression in the Liver and Testicle of Rats Irradiated under Synthetic Torpor

Author

Hitrec, Timna, Romani, Fabrizio, Simoniello, Palma, Squarcio, Fabio, Stanzani, Agnese, Piscitiello, Emiliana, Marchesano, Valentina, Luppi, Marco, Sioli, Maximiliano, Helm, Alexander, Compagnone, Gaetano, Morganti, Alessio, Amici, Roberto, Negrini, Matteo, Zoccoli, Antonio, and Durante, Marco

Subjects
3. Good health
Abstract

International journal of molecular sciences 20(2), 352 - (2019). doi:10.3390/ijms20020352, Published by Molecular Diversity Preservation International, Basel

24. Reversible Tau Phosphorylation Induced by Synthetic Torpor in the Spinal Cord of the Rat

Author

Timna Hitrec, Fabio Squarcio, Matteo Cerri, Davide Martelli, Alessandra Occhinegro, Emiliana Piscitiello, Domenico Tupone, Roberto Amici, Marco Luppi, Hitrec, Timna, Squarcio, Fabio, Cerri, Matteo, Martelli, Davide, Occhinegro, Alessandra, Piscitiello, Emiliana, Tupone, Domenico, Amici, Roberto, and Luppi, Marco

Subjects
0301 basic medicine, Neuroscience (miscellaneous), Hyperphosphorylation, microglia, Keywords: hypothermia, hibernation, microglia, tauopathies, GSK3β, motor neurons, adaptive response, Biology, lcsh:RC321-571, lcsh:QM1-695, 03 medical and health sciences, Cellular and Molecular Neuroscience, 0302 clinical medicine, adaptive response, medicine, motor neurons, hibernation, GSK3B, lcsh:Neurosciences. Biological psychiatry. Neuropsychiatry, Neuroinflammation, Original Research, Microglia, Kinase, tauopathies, GSK3β, Torpor, lcsh:Human anatomy, Hypothermia, Spinal cord, Cell biology, 030104 developmental biology, medicine.anatomical_structure, Anatomy, medicine.symptom, hypothermia, 030217 neurology & neurosurgery, Neuroscience
Abstract

Tau is a key protein in neurons, where it affects the dynamicsof the microtubulesystem. The hyperphosphorylation of Tau (PP-Tau) commonlyleads to the formationof neurofibrillary tangles, as it occurs in tauopathies, a group of neurodegenerativediseases, including Alzheimer’s. Hypothermia-related accumulation of PP-Tau has beendescribed in hibernators and during synthetic torpor (ST),a torpor-like condition that hasbeen induced in rats, a non-hibernating species. Remarkably, in ST PP-Tau is reversibleand Tau de-phosphorylates within a few hours following the torpor bout, apparentlynot evolving into pathology. These observations have been limited to the brain, but inanimal models of tauopathies, PP-Tau accumulation also appears to occur in the spinalcord (SpCo). The aim of the present work was to assess whetherST leads to PP-Tauaccumulation in the SpCo and whether this process is reversible. Immunofluorescence(IF) for AT8 (to assess PP-Tau) and Tau-1 (non-phosphorylated Tau) was carried out onSpCo coronal sections. AT8-IF was clearly expressed in the dorsal horns (DH) duringST, while in the ventral horns (VH) no staining was observed.The AT8-IF completelydisappeared after 6h from the return to euthermia. Tau-1-IFdisappeared in both DH andVH during ST, returning to normal levels during recovery. Toshed light on the cellularprocess underlying the PP-Tau pattern observed, the inhibited form of the glycogen-synthase kinase 3β(the main kinase acting on Tau) was assessed using IF: VH (i.e., inmotor neurons) were highly stained mainly during ST, while in DH there was no staining.Since tauopathies are also related to neuroinflammation, microglia activation was alsoassessed through morphometric analyses, but no ST-inducedmicroglia activation wasfound in the SpCo. Taken together, the present results show that, in the DH of SpCo, STinduces a reversible accumulation of PP-Tau. Since during ST there is no motor activity,the lack of AT8-IF in VH may result from an activity-related process at a cellular level. Thus,ST demonstrates a newly-described physiological mechanism that is able to resolve theaccumulation of PP-Tau and apparently avoid the neurodegenerative outcome.Keywords: hypothermia, hibernation, microglia, tauopathies, GSK3β, motor neurons, adaptive response

Published
2021

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