Your search keyword '"Vignoli B"' showing total 19 results

1. A Computational Fluid Dynamics Enhanced Oil Recovery Formulation Based on the Volume Average Procedure on the Full Momentum Equation: Effects of Polymer Solution Injection in Real Reservoirs with Anisotropic Permeability

Author

Vignoli, B. A. D. L., primary, Garcia, F. A. S., additional, Barboza Júnior, R. P., additional, Motta, A. B. G., additional, Dias, R. A. C., additional, and Thompson, R. L., additional

Published

2023

2. Pharmacological inactivation of the prion protein by targeting a folding intermediate

Author

Spagnolli, G, Massignan, T, Astolfi, A, Biggi, S, Rigoli, M, Brunelli, P, Libergoli, M, Ianeselli, A, Orioli, S, Boldrini, A, Terruzzi, L, Bonaldo, V, Maietta, G, Lorenzo, N, Fernandez, L, Codeseira, Y, Tosatto, L, Linsenmeier, L, Vignoli, B, Petris, G, Gasparotto, D, Pennuto, M, Guella, G, Canossa, M, Altmeppen, H, Lolli, G, Biressi, S, Pastor, M, Requena, J, Mancini, I, Barreca, M, Faccioli, P, Biasini, E, Spagnolli, Giovanni, Massignan, Tania, Astolfi, Andrea, Biggi, Silvia, Rigoli, Marta, Brunelli, Paolo, Libergoli, Michela, Ianeselli, Alan, Orioli, Simone, Boldrini, Alberto, Terruzzi, Luca, Bonaldo, Valerio, Maietta, Giulia, Lorenzo, Nuria L, Fernandez, Leticia C, Codeseira, Yaiza B, Tosatto, Laura, Linsenmeier, Luise, Vignoli, Beatrice, Petris, Gianluca, Gasparotto, Dino, Pennuto, Maria, Guella, Graziano, Canossa, Marco, Altmeppen, Hermann C, Lolli, Graziano, Biressi, Stefano, Pastor, Manuel M, Requena, Jesús R, Mancini, Ines, Barreca, Maria L, Faccioli, Pietro, Biasini, Emiliano, Spagnolli, G, Massignan, T, Astolfi, A, Biggi, S, Rigoli, M, Brunelli, P, Libergoli, M, Ianeselli, A, Orioli, S, Boldrini, A, Terruzzi, L, Bonaldo, V, Maietta, G, Lorenzo, N, Fernandez, L, Codeseira, Y, Tosatto, L, Linsenmeier, L, Vignoli, B, Petris, G, Gasparotto, D, Pennuto, M, Guella, G, Canossa, M, Altmeppen, H, Lolli, G, Biressi, S, Pastor, M, Requena, J, Mancini, I, Barreca, M, Faccioli, P, Biasini, E, Spagnolli, Giovanni, Massignan, Tania, Astolfi, Andrea, Biggi, Silvia, Rigoli, Marta, Brunelli, Paolo, Libergoli, Michela, Ianeselli, Alan, Orioli, Simone, Boldrini, Alberto, Terruzzi, Luca, Bonaldo, Valerio, Maietta, Giulia, Lorenzo, Nuria L, Fernandez, Leticia C, Codeseira, Yaiza B, Tosatto, Laura, Linsenmeier, Luise, Vignoli, Beatrice, Petris, Gianluca, Gasparotto, Dino, Pennuto, Maria, Guella, Graziano, Canossa, Marco, Altmeppen, Hermann C, Lolli, Graziano, Biressi, Stefano, Pastor, Manuel M, Requena, Jesús R, Mancini, Ines, Barreca, Maria L, Faccioli, Pietro, and Biasini, Emiliano

Abstract

Recent computational advancements in the simulation of biochemical processes allow investigating the mechanisms involved in protein regulation with realistic physics-based models, at an atomistic level of resolution. These techniques allowed us to design a drug discovery approach, named Pharmacological Protein Inactivation by Folding Intermediate Targeting (PPI-FIT), based on the rationale of negatively regulating protein levels by targeting folding intermediates. Here, PPI-FIT was tested for the first time on the cellular prion protein (PrP), a cell surface glycoprotein playing a key role in fatal and transmissible neurodegenerative pathologies known as prion diseases. We predicted the all-atom structure of an intermediate appearing along the folding pathway of PrP and identified four different small molecule ligands for this conformer, all capable of selectively lowering the load of the protein by promoting its degradation. Our data support the notion that the level of target proteins could be modulated by acting on their folding pathways, implying a previously unappreciated role for folding intermediates in the biological regulation of protein expression.

Published

2021

3. TrkB Signaling Directs the Incorporation of Newly Generated Periglomerular Cells in the Adult Olfactory Bulb

Author

Bergami, M., primary, Vignoli, B., additional, Motori, E., additional, Pifferi, S., additional, Zuccaro, E., additional, Menini, A., additional, and Canossa, M., additional

Published

2013

4. Reiterated male-to-female violence disrupts hippocampal estrogen receptor β expression, prompting anxiety-like behavior.

Author

Agrimi J, Bernardele L, Sbaiti N, Brondi M, D'Angelo D, Canato M, Marchionni I, Oeing CU, Barbara G, Vignoli B, Canossa M, Kaludercic N, Spolverato G, Raffaello A, Lodovichi C, Maschio MD, and Paolocci N

Abstract

Intimate partner violence (IPV) is a significant public health concern whose neurological/behavioral sequelae remain to be mechanistically explained. Using a mouse model recapitulating an IPV scenario, we evaluated the female brain neuroendocrine alterations produced by a reiterated male-to-female violent interaction (RMFVI). RMFVI prompted anxiety-like behavior in female mice whose hippocampus displayed a marked neuronal loss and hampered neurogenesis, namely reduced BrdU-DCX-positive nuclei and diminished dendritic arborization in the dentate gyrus (DG): effects paralleled by a substantial downregulation of the estrogen receptor β (ERβ). After RMFVI, the DG harbored reduced brain-derived neurotrophic factor (BDNF) pools and tyrosine kinase receptor B (TrkB) phosphorylation. Accordingly, ERβ knockout (KO) mice had heightened anxiety and curtailed BDNF levels at baseline while dying prematurely during the RMFVI procedure. Strikingly, injecting an ERβ antagonist or agonist into the wild-type (WT) female hippocampus enhanced or reduced anxiety, respectively. Thus, reiterated male-to-female violence jeopardizes hippocampal homeostasis, perturbing the ERβ/BDNF axis and ultimately instigating anxiety and chronic stress., Competing Interests: The authors declare no conflicts of interests., (© 2024 Published by Elsevier Inc.)

Published

2024

5. Understanding the nervous system: lessons from Frontiers in Neurophotonics.

Author

De Koninck Y, Alonso J, Bancelin S, Béïque JC, Bélanger E, Bouchard C, Canossa M, Chaniot J, Choquet D, Crochetière MÈ, Cui N, Danglot L, De Koninck P, Devor A, Ducros M, Getz AM, Haouat M, Hernández IC, Jowett N, Keramidis I, Larivière-Loiselle C, Lavoie-Cardinal F, MacGillavry HD, Malkoç A, Mancinelli M, Marquet P, Minderler S, Moreaud M, Nägerl UV, Papanikolopoulou K, Paquet ME, Pavesi L, Perrais D, Sansonetti R, Thunemann M, Vignoli B, Yau J, and Zaccaria C

Abstract

The Frontiers in Neurophotonics Symposium is a biennial event that brings together neurobiologists and physicists/engineers who share interest in the development of leading-edge photonics-based approaches to understand and manipulate the nervous system, from its individual molecular components to complex networks in the intact brain. In this Community paper, we highlight several topics that have been featured at the symposium that took place in October 2022 in Québec City, Canada., (© 2024 The Authors.)

Published

2024

6. Male violence disrupts estrogen receptor β signaling in the female hippocampus.

Author

Agrimi J, Bernardele L, Sbaiti N, Canato M, Marchionni I, Oeing CU, Vignoli B, Canossa M, Kaludercic N, Lodovichi C, Dal Maschio M, and Paolocci N

Abstract

Women are the main target of intimate partner violence (IPV), which is escalating worldwide. Mechanisms subtending IPV-related disorders, such as anxiety, depression and PTSD, remain unclear. We employed a mouse model molded on an IPV scenario (male vs. female prolonged violent interaction) to unearth the neuroendocrine alterations triggered by an aggressive male mouse on the female murine brain. Experimental IPV (EIPV) prompted marked anxiety-like behavior in young female mice, coincident with high circulating/cerebral corticosterone levels. The hippocampus of EIPV-inflicted female animals displayed neuronal loss, reduced BrdU-DCX-positive nuclei, decreased mature DCX-positive cells, and diminished dendritic arborization level in the dentate gyrus (DG), features denoting impaired neurogenesis and neuronal differentiation. These hallmarks were associated with marked down-regulation of estrogen receptor β (ERβ) density in the hippocampus, especially in the DG and dependent prosurvival ERK signaling. Conversely, ERα expression was unchanged. After EIPV, the DG harbored lowered local BDNF pools, diminished TrkB phosphorylation, and elevated glucocorticoid receptor phosphorylation. In unison, ERβ KO mice had heightened anxiety-like behavior and curtailed BDNF levels at baseline, despite enhanced circulating estradiol levels, while dying prematurely during EIPV. Thus, reiterated male-to-female violence jeopardizes hippocampal homeostasis in the female brain, perturbing ERβ/BDNF signaling, thus instigating anxiety and chronic stress.

Published

2023

7. Impaired synaptic plasticity in an animal model of autism exhibiting early hippocampal GABAergic-BDNF/TrkB signaling alterations.

Author

Sgritta M, Vignoli B, Pimpinella D, Griguoli M, Santi S, Bialowas A, Wiera G, Zacchi P, Malerba F, Marchetti C, Canossa M, and Cherubini E

Abstract

In Neurodevelopmental Disorders, alterations of synaptic plasticity may trigger structural changes in neuronal circuits involved in cognitive functions. This hypothesis was tested in mice carrying the human R451C mutation of Nlgn3 gene (NLG3 R451C KI), found in some families with autistic children. To this aim, the spike time dependent plasticity (STDP) protocol was applied to immature GABAergic Mossy Fibers (MF)-CA3 connections in hippocampal slices from NLG3 R451C KI mice. These animals failed to exhibit STD-LTP, an effect that persisted in adulthood when these synapses became glutamatergic. Similar results were obtained in mice lacking the Nlgn3 gene (NLG3 KO mice), suggesting a loss of function. The loss of STD-LTP was associated with a premature shift of GABA from the depolarizing to the hyperpolarizing direction, a reduced BDNF availability and TrkB phosphorylation at potentiated synapses. These effects may constitute a general mechanism underlying cognitive deficits in those forms of Autism caused by synaptic dysfunctions., Competing Interests: The authors declare no competing interests., (© 2022 The Authors.)

Published

2022

8. Perirhinal Cortex LTP Does Not Require Astrocyte BDNF-TrkB Signaling.

Author

Vignoli B and Canossa M

Subjects

Astrocytes metabolism, Protein-Tyrosine Kinases metabolism, Receptor, trkB metabolism, Brain-Derived Neurotrophic Factor metabolism, Perirhinal Cortex metabolism

Abstract

Neurons release and respond to brain-derived neurotrophic factor (BDNF) with bursts of brain activity. BDNF action is known to extend to peri-synaptic astrocytes, contributing to synaptic strengthening. This implies that astrocytes have a set of dynamic responses, some of which might be secondary to activation of the tropomyosin tyrosine kinase B (TrkB) receptor. Here, we assessed the contribution of BDNF to long-term synaptic potentiation (LTP), by specifically deleting TrkB in cortical astrocytes. TrkB deletion had no effect on LTP induction, stabilization and maintenance, indicating that TrkB signaling in astrocytes is extraneous to transducing BDNF activity for synaptic strengthening.

Published

2022

9. Trpm8 Expression in Human and Mouse Castration Resistant Prostate Adenocarcinoma Paves the Way for the Preclinical Development of TRPM8-Based Targeted Therapies.

Author

Genovesi S, Moro R, Vignoli B, De Felice D, Canossa M, Montironi R, Carbone FG, Barbareschi M, Lunardi A, and Alaimo A

Subjects

Androgen Antagonists therapeutic use, Animals, Castration, Humans, Male, Mice, Adenocarcinoma drug therapy, Adenocarcinoma metabolism, Membrane Proteins metabolism, Prostatic Neoplasms, Castration-Resistant drug therapy, Prostatic Neoplasms, Castration-Resistant metabolism, TRPM Cation Channels

Abstract

Metastatic prostate cancer (mPCa) is one of the leading causes of cancer-related mortality in both the US and Europe. Androgen deprivation is the first-line therapy for mPCa; however, resistance to therapy inevitably occurs and the disease progresses to the castration resistant stage, which is uncurable. A definition of novel targeted therapies is necessary for the establishment of innovative and more effective protocols of personalized oncology. We employed genetically engineered mouse models of PCa and human samples to characterize the expression of the TRPM8 cation channel in both hormone naïve and castration resistant tumors. We show that Trpm8 expression marks both indolent (Pten-null) and aggressive (Pten/Trp53 double-null and TRAMP) mouse prostate adenocarcinomas. Importantly, both mouse and human castration-resistant PCa preserve TRPM8 protein expression. Finally, we tested the effect of TRPM8 agonist D-3263 administration in combination with enzalutamide or docetaxel on the viability of aggressive mouse PCa cell lines. Our data demonstrate that D-3263 substantially enhances the pro-apoptotic activity of enzalutamide and docetaxel in TRAMP-C1 e TRAMP-C2 PCa cell lines. To conclude, this study provides the basis for pre-clinical in vivo testing of TRPM8 targeting as a novel strategy to implement the efficacy of standard-of-care treatments for advanced PCa.

Published

2022

10. Astrocytic microdomains from mouse cortex gain molecular control over long-term information storage and memory retention.

Author

Vignoli B, Sansevero G, Sasi M, Rimondini R, Blum R, Bonaldo V, Biasini E, Santi S, Berardi N, Lu B, and Canossa M

Subjects

Animals, Brain-Derived Neurotrophic Factor metabolism, Membrane Glycoproteins metabolism, Mice, Nerve Tissue Proteins metabolism, Protein-Tyrosine Kinases metabolism, Receptors, Cell Surface metabolism, Astrocytes physiology, Brain-Derived Neurotrophic Factor genetics, Long-Term Potentiation genetics, Membrane Glycoproteins genetics, Memory physiology, Nerve Tissue Proteins genetics, Protein-Tyrosine Kinases genetics, Receptors, Cell Surface genetics

Abstract

Memory consolidation requires astrocytic microdomains for protein recycling; but whether this lays a mechanistic foundation for long-term information storage remains enigmatic. Here we demonstrate that persistent synaptic strengthening invited astrocytic microdomains to convert initially internalized (pro)-brain-derived neurotrophic factor (proBDNF) into active prodomain (BDNFpro) and mature BDNF (mBDNF) for synaptic re-use. While mBDNF activates TrkB, we uncovered a previously unsuspected function for the cleaved BDNFpro, which increases TrkB/SorCS2 receptor complex at post-synaptic sites. Astrocytic BDNFpro release reinforced TrkB phosphorylation to sustain long-term synaptic potentiation and to retain memory in the novel object recognition behavioral test. Thus, the switch from one inactive state to a multi-functional one of the proBDNF provides post-synaptic changes that survive the initial activation. This molecular asset confines local information storage in astrocytic microdomains to selectively support memory circuits., (© 2021. The Author(s).)

Published

2021

11. Pharmacological inactivation of the prion protein by targeting a folding intermediate.

Author

Spagnolli G, Massignan T, Astolfi A, Biggi S, Rigoli M, Brunelli P, Libergoli M, Ianeselli A, Orioli S, Boldrini A, Terruzzi L, Bonaldo V, Maietta G, Lorenzo NL, Fernandez LC, Codeseira YB, Tosatto L, Linsenmeier L, Vignoli B, Petris G, Gasparotto D, Pennuto M, Guella G, Canossa M, Altmeppen HC, Lolli G, Biressi S, Pastor MM, Requena JR, Mancini I, Barreca ML, Faccioli P, and Biasini E

Subjects

Animals, Binding Sites, Computer Simulation, Endoplasmic Reticulum metabolism, Fibroblasts, HEK293 Cells, Humans, Ligands, Lysosomes drug effects, Lysosomes metabolism, Mice, Peptide Fragments chemistry, Peptide Fragments metabolism, Protein Processing, Post-Translational, Reproducibility of Results, Drug Evaluation, Preclinical methods, Prion Diseases drug therapy, Prion Proteins chemistry, Prion Proteins metabolism, Protein Folding

Abstract

Recent computational advancements in the simulation of biochemical processes allow investigating the mechanisms involved in protein regulation with realistic physics-based models, at an atomistic level of resolution. These techniques allowed us to design a drug discovery approach, named Pharmacological Protein Inactivation by Folding Intermediate Targeting (PPI-FIT), based on the rationale of negatively regulating protein levels by targeting folding intermediates. Here, PPI-FIT was tested for the first time on the cellular prion protein (PrP), a cell surface glycoprotein playing a key role in fatal and transmissible neurodegenerative pathologies known as prion diseases. We predicted the all-atom structure of an intermediate appearing along the folding pathway of PrP and identified four different small molecule ligands for this conformer, all capable of selectively lowering the load of the protein by promoting its degradation. Our data support the notion that the level of target proteins could be modulated by acting on their folding pathways, implying a previously unappreciated role for folding intermediates in the biological regulation of protein expression.

Published

2021

12. Mutations in TGM6 induce the unfolded protein response in SCA35.

Author

Tripathy D, Vignoli B, Ramesh N, Polanco MJ, Coutelier M, Stephen CD, Canossa M, Monin ML, Aeschlimann P, Turberville S, Aeschlimann D, Schmahmann JD, Hadjivassiliou M, Durr A, Pandey UB, Pennuto M, and Basso M

Subjects

Animals, Animals, Genetically Modified, COS Cells, Cell Line, Chlorocebus aethiops, Drosophila melanogaster, Endoplasmic Reticulum metabolism, Endoplasmic Reticulum Stress genetics, Female, HEK293 Cells, Humans, Male, Mice, Inbred C57BL, Mutation, Neurons enzymology, Neurons metabolism, Neurons pathology, Spinocerebellar Ataxias enzymology, Spinocerebellar Ataxias metabolism, Spinocerebellar Ataxias pathology, Spinocerebellar Ataxias genetics, Transglutaminases genetics, Transglutaminases metabolism, Unfolded Protein Response genetics

Abstract

Spinocerebellar ataxia type 35 (SCA35) is a rare autosomal-dominant neurodegenerative disease caused by mutations in the TGM6 gene, which codes for transglutaminase 6 (TG6). Mutations in TG6 induce cerebellar degeneration by an unknown mechanism. We identified seven patients bearing new mutations in TGM6. To gain insights into the molecular basis of mutant TG6-induced neurotoxicity, we analyzed all the seven new TG6 mutants and the five TG6 mutants previously linked to SCA35. We found that the wild-type (TG6-WT) protein mainly localized to the nucleus and perinuclear area, whereas five TG6 mutations showed nuclear depletion, increased accumulation in the perinuclear area, insolubility and loss of enzymatic function. Aberrant accumulation of these TG6 mutants in the perinuclear area led to activation of the unfolded protein response (UPR), suggesting that specific TG6 mutants elicit an endoplasmic reticulum stress response. Mutations associated with activation of the UPR caused death of primary neurons and reduced the survival of novel Drosophila melanogaster models of SCA35. These results indicate that mutations differently impacting on TG6 function cause neuronal dysfunction and death through diverse mechanisms and highlight the UPR as a potential therapeutic target for patient treatment., (© The Author 2017. Published by Oxford University Press. All rights reserved. For Permissions, please email: journals.permissions@oup.com.)

Published

2017

13. Erratum to: Neurobiology of local and intercellular BDNF signaling.

Author

Sasi M, Vignoli B, Canossa M, and Blum R

Published

2017

14. Neurobiology of local and intercellular BDNF signaling.

Author

Sasi M, Vignoli B, Canossa M, and Blum R

Subjects

Animals, Anxiety Disorders metabolism, Brain-Derived Neurotrophic Factor genetics, Humans, Long-Term Potentiation, Receptor, trkB metabolism, Synapses physiology, Synaptic Transmission, Brain-Derived Neurotrophic Factor metabolism, Synapses metabolism

Abstract

Brain-derived neurotrophic factor (BDNF) is a member of the neurotrophin family of secreted proteins. Signaling cascades induced by BDNF and its receptor, the receptor tyrosine kinase TrkB, link neuronal growth and differentiation with synaptic plasticity. For this reason, interference with BDNF signaling has emerged as a promising strategy for potential treatments in psychiatric and neurological disorders. In many brain circuits, synaptically released BDNF is essential for structural and functional long-term potentiation, two prototypical cellular models of learning and memory formation. Recent studies have revealed an unexpected complexity in the synaptic communication of mature BDNF and its precursor proBDNF, not only between local pre- and postsynaptic neuronal targets but also with participation of glial cells. Here, we consider recent findings on local actions of the BDNF family of ligands at the synapse and discuss converging lines of evidence which emerge from per se conflicting results.

Published

2017

15. Pharmacological rescue of adult hippocampal neurogenesis in a mouse model of X-linked intellectual disability.

Author

Allegra M, Spalletti C, Vignoli B, Azzimondi S, Busti I, Billuart P, Canossa M, and Caleo M

Subjects

Animals, Cytoskeletal Proteins deficiency, Cytoskeletal Proteins metabolism, Disease Models, Animal, GTPase-Activating Proteins deficiency, GTPase-Activating Proteins metabolism, Mice, Inbred C57BL, Mice, Knockout, Nuclear Proteins deficiency, Nuclear Proteins metabolism, Hippocampus metabolism, Intellectual Disability physiopathology, Neurogenesis physiology, Neurons metabolism

Abstract

Oligophrenin-1 (OPHN1) is a Rho GTPase activating protein whose mutations cause X-linked intellectual disability (XLID). How loss of function of Ophn1 affects neuronal development is only partly understood. Here we have exploited adult hippocampal neurogenesis to dissect the steps of neuronal differentiation that are affected by Ophn1 deletion. We found that mice lacking Ophn1 display a reduction in the number of newborn neurons in the dentate gyrus. A significant fraction of the Ophn1-deficient newly generated neurons failed to extend an axon towards CA3, and showed an altered density of dendritic protrusions. Since Ophn1-deficient mice display overactivation of Rho-associated protein kinase (ROCK) and protein kinase A (PKA) signaling, we administered a clinically approved ROCK/PKA inhibitor (fasudil) to correct the neurogenesis defects. While administration of fasudil was not effective in rescuing axon formation, the same treatment completely restored spine density to control levels, and enhanced the long-term survival of adult-born neurons in mice lacking Ophn1. These results identify specific neurodevelopmental steps that are impacted by Ophn1 deletion, and indicate that they may be at least partially corrected by pharmacological treatment., (Copyright © 2017 The Authors. Published by Elsevier Inc. All rights reserved.)

Published

2017

16. Glioactive ATP controls BDNF recycling in cortical astrocytes.

Author

Vignoli B and Canossa M

Abstract

We have recently reported that long-term memory retention requires synaptic glia for proBDNF uptake and recycling. Through the recycling course, glial cells release endocytic BDNF, a mechanism that is activated in response to glutamate via AMPA and mGluRI/II receptors. Cortical astrocytes express receptors for many different transmitters suggesting for a complex signaling controlling endocytic BDNF secretion. Here, we demonstrated that the extracellular nucleotide ATP, activating P2X and P2Y receptors, regulates endocytic BDNF secretion in cultured astrocytes. Our data indicate that distinct glioactive molecules can participate in BDNF glial recycling and suggest that cortical astrocytes contributing to neuronal plasticity can be influenced by neurotransmitters in tune with synaptic needs.

Published

2017

17. Peri-Synaptic Glia Recycles Brain-Derived Neurotrophic Factor for LTP Stabilization and Memory Retention.

Author

Vignoli B, Battistini G, Melani R, Blum R, Santi S, Berardi N, and Canossa M

Subjects

Animals, Cerebral Cortex cytology, Cerebral Cortex metabolism, Mice, Phosphorylation, Receptors, Nerve Growth Factor genetics, Brain-Derived Neurotrophic Factor metabolism, Long-Term Potentiation, Memory, Neuroglia metabolism, Receptor, trkB metabolism, Receptors, Nerve Growth Factor metabolism, Synapses metabolism

Abstract

Glial cells respond to neuronal activation and release neuroactive molecules (termed "gliotransmitters") that can affect synaptic activity and modulate plasticity. In this study, we used molecular genetic tools, ultra-structural microscopy, and electrophysiology to assess the role of brain-derived neurotrophic factor (BDNF) on cortical gliotransmission in vivo. We find that glial cells recycle BDNF that was previously secreted by neurons as pro-neurotrophin following long-term potentiation (LTP)-inducing electrical stimulation. Upon BDNF glial recycling, we observed tight, temporal, highly localized TrkB phosphorylation on adjacent neurons, a process required to sustain LTP. Engagement of BDNF recycling by astrocytes represents a novel mechanism by which cortical synapses can expand BDNF action and provide synaptic changes that are relevant for the acquisition of new memories. Accordingly, mice deficient in BDNF glial recycling fail to recognize familiar from novel objects, indicating a physiological requirement for this process in memory consolidation., (Copyright © 2016 Elsevier Inc. All rights reserved.)

Published

2016

18. Sex differences in conditioned nicotine reward are age-specific.

Author

Lenoir M, Starosciak AK, Ledon J, Booth C, Zakharova E, Wade D, Vignoli B, and Izenwasser S

Abstract

Women constitute half of all smokers and many studies suggest that adult males and females differ in factors that maintain tobacco smoking, yet there is limited information about sex differences in nicotine reward during adolescence. Limited studies suggest that adolescent male rats self-administer more nicotine than adults, suggesting that drug administration during adolescence leads to different behavioral effects than during adulthood. In the present study, male rats developed a significant conditioned place preference (CPP) to lower doses of nicotine than females, regardless of age. In addition, adolescents were more sensitive than adults. In female rats, adolescents exhibited a CPP of greater magnitude than adult females. In males, the magnitude of the CPP did not differ as a function of age, but adolescents exhibited CPP to lower doses than adults. There also were differences in nicotinic acetylcholinergic receptor binding in nucleus accumbens and caudate putamen in response to nicotine across age and sex. These findings suggest that it is necessary to consider sex- and age-specific effects of drugs such as nicotine when developing strategies for improving smoking cessation treatments., (Copyright © 2015 Elsevier Inc. All rights reserved.)

Published

2015

19. Polarized expression of p75(NTR) specifies axons during development and adult neurogenesis.

Author

Zuccaro E, Bergami M, Vignoli B, Bony G, Pierchala BA, Santi S, Cancedda L, and Canossa M

Subjects

Animals, Cell Polarity physiology, Cells, Cultured, Gene Knockdown Techniques, Hippocampus cytology, Hippocampus metabolism, Mice, Mice, Knockout, Neurogenesis, Neurons cytology, Stem Cells metabolism, Axons metabolism, Neurons metabolism, Receptor, Nerve Growth Factor metabolism

Abstract

Video Abstract: Newly generated neurons initiate polarizing signals that specify a single axon and multiple dendrites, a process critical for patterning neuronal circuits in vivo. Here, we report that the pan-neurotrophin receptor p75(NTR) is a polarity regulator that localizes asymmetrically in differentiating neurons in response to neurotrophins and is required for specification of the future axon. In cultured hippocampal neurons, local exposure to neurotrophins causes early accumulation of p75(NTR) into one undifferentiated neurite to specify axon fate. Moreover, knockout or knockdown of p75(NTR) results in failure to initiate an axon in newborn neurons upon cell-cycle exit in vitro and in the developing cortex, as well as during adult hippocampal neurogenesis in vivo. Hence, p75(NTR) governs neuronal polarity, determining pattern and assembly of neuronal circuits in adult hippocampus and cortical development., (Copyright © 2014 The Authors. Published by Elsevier Inc. All rights reserved.)

Published

2014