Your search keyword '"Soria, Federico N."' showing total 23 results

1. Local diffusion in the extracellular space of the brain

Author

Tønnesen, Jan, Hrabĕtová, Sabina, and Soria, Federico N.

Published

2023

2. Super-resolution STED microscopy in live brain tissue

Author

Calovi, Stefano, Soria, Federico N., and Tønnesen, Jan

Published

2021

3. Microglial phagocytosis dysfunction in stroke is driven by energy depletion and induction of autophagy

Author

Ministerio de Ciencia e Innovación (España), Ministerio de Industria y Competitividad (España), Fundación Tatiana Pérez de Guzmán el Bueno, Eusko Jaurlaritza, Beccari, Sol [0000-0003-3959-462X], Sierra-Torre, Virginia [0000-0002-3205-0307], Valero, Jorge [0000-0001-6072-3313], Soria, Federico N. [0000-0003-1229-9663], De Las Heras-Garcia, Laura [0000-0001-9728-8730], Carretero-Guillén, Alejandro [0000-0003-2370-2534], Capetillo-Zarate, Estibaliz [0000-0002-8416-0495], Domercq, María [0000-0002-4918-9276], Ramonet, David [0000-0002-5058-7757], Osman, Ahmed M. [0000-0002-2854-2552], Faust, Travis E. [0000-0002-4567-8435], Touzani, Omar [0000-0002-9513-097X], Pampliega, Olatz [0000-0002-7924-6374], Boya, Patricia [0000-0003-3045-951X], Schafer, Dorothy [0000-0003-2201-6276], Mariño, Guillermo [0000-0003-1960-1677], Canet-Soulas, Emmanuelle [0000-0002-4742-5570], Blomgren, Klas [0000-0002-0476-7271], Plaza-Zabala, Ainhoa [0000-0002-2812-8992], Sierra, Amanda [0000-0001-8415-096X], Beccari, Sol, Sierra-Torre, Virginia, Valero, Jorge, Pereira-Iglesias, Marta, García-Zaballa, Mikel, Soria, Federico N., De Las Heras-Garcia, Laura, Carretero-Guillén, Alejandro, Capetillo-Zarate, Estibaliz, Domercq, María, Huguet, Paloma R., Ramonet, David, Osman, Ahmed M., Han, Wei, Domínguez, Cecilia, Faust, Travis E., Touzani, Omar, Pampliega, Olatz, Boya, Patricia, Schafer, Dorothy, Mariño, Guillermo, Canet-Soulas, Emmanuelle, Blomgren, Klas, Plaza-Zabala, Ainhoa, Sierra, Amanda, Ministerio de Ciencia e Innovación (España), Ministerio de Industria y Competitividad (España), Fundación Tatiana Pérez de Guzmán el Bueno, Eusko Jaurlaritza, Beccari, Sol [0000-0003-3959-462X], Sierra-Torre, Virginia [0000-0002-3205-0307], Valero, Jorge [0000-0001-6072-3313], Soria, Federico N. [0000-0003-1229-9663], De Las Heras-Garcia, Laura [0000-0001-9728-8730], Carretero-Guillén, Alejandro [0000-0003-2370-2534], Capetillo-Zarate, Estibaliz [0000-0002-8416-0495], Domercq, María [0000-0002-4918-9276], Ramonet, David [0000-0002-5058-7757], Osman, Ahmed M. [0000-0002-2854-2552], Faust, Travis E. [0000-0002-4567-8435], Touzani, Omar [0000-0002-9513-097X], Pampliega, Olatz [0000-0002-7924-6374], Boya, Patricia [0000-0003-3045-951X], Schafer, Dorothy [0000-0003-2201-6276], Mariño, Guillermo [0000-0003-1960-1677], Canet-Soulas, Emmanuelle [0000-0002-4742-5570], Blomgren, Klas [0000-0002-0476-7271], Plaza-Zabala, Ainhoa [0000-0002-2812-8992], Sierra, Amanda [0000-0001-8415-096X], Beccari, Sol, Sierra-Torre, Virginia, Valero, Jorge, Pereira-Iglesias, Marta, García-Zaballa, Mikel, Soria, Federico N., De Las Heras-Garcia, Laura, Carretero-Guillén, Alejandro, Capetillo-Zarate, Estibaliz, Domercq, María, Huguet, Paloma R., Ramonet, David, Osman, Ahmed M., Han, Wei, Domínguez, Cecilia, Faust, Travis E., Touzani, Omar, Pampliega, Olatz, Boya, Patricia, Schafer, Dorothy, Mariño, Guillermo, Canet-Soulas, Emmanuelle, Blomgren, Klas, Plaza-Zabala, Ainhoa, and Sierra, Amanda

Abstract

Microglial phagocytosis of apoptotic debris prevents buildup damage of neighbor neurons and inflammatory responses. Whereas microglia are very competent phagocytes under physiological conditions, we report their dysfunction in mouse and preclinical monkey models of stroke (macaques and marmosets) by transient occlusion of the medial cerebral artery (tMCAo). By analyzing recently published bulk and single cell RNA sequencing databases, we show that the phagocytosis dysfunction was not explained by transcriptional changes. In contrast, we demonstrate that the impairment of both engulfment and degradation was related to energy depletion triggered by oxygen and nutrient deprivation (OND), which led to reduced process motility, lysosomal exhaustion, and the induction of a protective macroautophagy/autophagy response in microglia. Basal autophagy, in charge of removing and recycling intracellular elements, was critical to maintain microglial physiology, including survival and phagocytosis, as we determined both in vivo and in vitro using pharmacological and transgenic approaches. Notably, the autophagy inducer rapamycin partially prevented the phagocytosis impairment induced by tMCAo in vivo but not by OND in vitro, where it even had a detrimental effect on microglia, suggesting that modulating microglial autophagy to optimal levels may be a hard to achieve goal. Nonetheless, our results show that pharmacological interventions, acting directly on microglia or indirectly on the brain environment, have the potential to recover phagocytosis efficiency in the diseased brain. We propose that phagocytosis is a therapeutic target yet to be explored in stroke and other brain disorders and provide evidence that it can be modulated in vivo using rapamycin. Abbreviations: AIF1/IBA1: allograft inflammatory factor 1; AMBRA1: autophagy/beclin 1 regulator 1; ATG4B: autophagy related 4B, cysteine peptidase; ATP: adenosine triphosphate; BECN1: beclin 1, autophagy related; CASP3: caspase 3

Published

2023

4. Astrocytes adjust the dynamic range of cortical network activity to control modality-specific sensory information processing

Author

Miguel-Quesada, Claudia, primary, Zaforas, Marta, additional, Herrera-Pérez, Salvador, additional, Lines, Justin, additional, Fernández-López, Elena, additional, Alonso-Calviño, Elena, additional, Ardaya, Maria, additional, Soria, Federico N., additional, Araque, Alfonso, additional, Aguilar, Juan, additional, and Rosa, Juliana M., additional

Published

2023

5. Synucleinopathy alters nanoscale organization and diffusion in the brain extracellular space through hyaluronan remodeling

Author

Soria, Federico N., Paviolo, Chiara, Doudnikoff, Evelyne, Arotcarena, Marie-Laure, Lee, Antony, Danné, Noémie, Mandal, Amit Kumar, Gosset, Philippe, Dehay, Benjamin, Groc, Laurent, Cognet, Laurent, and Bezard, Erwan

Published

2020

6. Member of the Organizing Committee

Author

Fernandes, Adelaide, Santiago, Ana Raquel, Brites, Dora, Soria, Federico N., Castro, Fernando de, Ambrosio, Francisco, Araújo, Inés, Bettencourt Relvas, João, Oliveira Barroso, F., Vaz, Sandra, Summavielle, T., Fernandes, Adelaide, Santiago, Ana Raquel, Brites, Dora, Soria, Federico N., Castro, Fernando de, Ambrosio, Francisco, Araújo, Inés, Bettencourt Relvas, João, Oliveira Barroso, F., Vaz, Sandra, and Summavielle, T.

Abstract

The Portuguese Glial Network invites you to attend the VII Symposium of the Portuguese Glial Network, in collaboration with Red Glial Española. The Symposium will be held in Albufeira (Algarve) on May 2, 2023, as a satellite meeting of the FENS Regional Meeting 2023. This year, we will have six invited speakers to bring us the latest on glial cell physiology, biology, signaling, and ultrastructure: Amanda Sierra (Achucarro Basque Center for Neuroscience and Department of Biochemistry and Molecular Biology, Spain), Ana Luísa Cardoso (University of Coimbra, Portugal), Christa Rhiner (Champalimaud Research Program, Portugal), Corrado Calì (Università degli Studi di Torino, Italy), Juliana Rosa (Hospital Nacional de Parapléjicos – IDISCAM, Spain) and Renzo Mancuso (Universiteit Antwerpen, Belgium). Six short talks will also be selected from the submitted abstracts by our Scientific Committee. We are delighted to welcome you to our VII Symposium and gather again friends and colleagues of the Portuguese glial family for another great meeting. Registration is, as always, free (but mandatory), and the best poster and oral communication will receive awards! Join us in the vibrant setting of the city of Albufeira and experience the sun and energy of the Algarve.

Published

2023

7. Microglial phagocytosis dysfunction in stroke is driven by energy depletion and induction of autophagy

Author

Beccari, Sol, primary, Sierra-Torre, Virginia, additional, Valero, Jorge, additional, Pereira-Iglesias, Marta, additional, García-Zaballa, Mikel, additional, Soria, Federico N., additional, De Las Heras-Garcia, Laura, additional, Carretero-Guillen, Alejandro, additional, Capetillo-Zarate, Estibaliz, additional, Domercq, Maria, additional, Huguet, Paloma R., additional, Ramonet, David, additional, Osman, Ahmed, additional, Han, Wei, additional, Dominguez, Cecilia, additional, Faust, Travis E., additional, Touzani, Omar, additional, Pampliega, Olatz, additional, Boya, Patricia, additional, Schafer, Dorothy, additional, Mariño, Guillermo, additional, Canet-Soulas, Emmanuelle, additional, Blomgren, Klas, additional, Plaza-Zabala, Ainhoa, additional, and Sierra, Amanda, additional

Published

2023

8. High Water Temperatures Impair the Reproductive Ability of the Pejerrey Fish Odontesthes bonariensis : Effects on the Hypophyseal‐Gonadal Axis

Author

Soria, Federico N., Strüssmann, Carlos A., and Miranda, Leandro A.

Published

2008

9. Acidic nanoparticles protect against α‐synuclein‐induced neurodegeneration through the restoration of lysosomal function

Author

Arotcarena, Marie‐Laure, primary, Soria, Federico N., additional, Cunha, Anthony, additional, Doudnikoff, Evelyne, additional, Prévot, Geoffrey, additional, Daniel, Jonathan, additional, Blanchard‐Desce, Mireille, additional, Barthélémy, Philippe, additional, Bezard, Erwan, additional, Crauste‐Manciet, Sylvie, additional, and Dehay, Benjamin, additional

Published

2022

10. Extrasynaptic glutamate release through cystine/glutamate antiporter contributes to ischemic damage

Author

Soria, Federico N., Perez-Samartin, Alberto, Martin, Abraham, Gona, Kiran Babu, Llop, Jordi, Szczupak, Boguslaw, Chara, Juan Carlos, Matute, Carlos, and Domercq, Maria

Subjects

Methyl aspartate -- Physiological aspects -- Research, Cerebral ischemia -- Risk factors -- Research, Glutamate -- Physiological aspects -- Research, Health care industry

Abstract

During brain ischemia, an excessive release of glutamate triggers neuronal death through the overactivation of NMDA receptors (NMDARs); however, the underlying pathways that alter glutamate homeostasis and whether synaptic or extrasynaptic sites are responsible for excess glutamate remain controversial. Here, we monitored ischemia-gated currents in pyramidal cortical neurons in brain slices from rodents in response to oxygen and glucose deprivation (OGD) as a real-time glutamate sensor to identify the source of glutamate release and determined the extent of neuronal damage. Blockade of excitatory amino acid transporters or vesicular glutamate release did not inhibit ischemia-gated currents or neuronal damage after OGD. In contrast, pharmacological inhibition of the cystine/glutamate antiporter dramatically attenuated ischemia-gated currents and cell death after OGD. Compared with control animals, mice lacking a functional cystine/glutamate antiporter exhibited reduced anoxic depolarization and neuronal death in response to OGD. Furthermore, glutamate released by the cystine/glutamate antiporter activated extrasynaptic, but not synaptic, NMDARs, and blockade of extrasynaptic NMDARs reduced ischemia-gated currents and cell damage after OGD. Finally, PET imaging showed increased cystine/glutamate antiporter function in ischemic rats. Altogether, these data suggest that cystine/glutamate antiporter function is increased in ischemia, contributing to elevated extracellular glutamate concentration, overactivation of extrasynaptic NMDARs, and ischemic neuronal death., Introduction Brain ischemia is the fourth cause of death and the leading cause of long-term disability in industrialized countries (1). Relatively short periods of blood flow interruption in the brain [...]

Published

2014

11. CEREBRAL ISCHEMIA MODEL OPTIMISED FOR TWO-PHOTON IMAGING

Author

Soria, Federico N., García-Etxarri, Aitzol, and Martín, Abraham

Published

2023

12. AUTOPHAGY REGULATES MICROGLIAL PHAGOCYTOSIS OF APOPTOTIC CELLS IN PHYSIOLOGY AND ISCHEMIC STROKE PATHOLOGY

Author

Sierra-Torre, Virginia, Valero, Jorge, Pereira-Iglesias, Marta, García-Zaballa, Mikel, Soria, Federico N., De Las Heras-García, Laura, Carretero-Guillén, Alejandro, Capetillo-Zarate, Estibaliz, Domercq, Maria, Huguet, Paloma R, Faust, Travis E, Pampliega, Olatz, Boya, Patricia, Schafer, Dorothy, Mariño, Guillermo, and Sierra, Amanda

Published

2023

13. Current Techniques for Investigating the Brain Extracellular Space

Author

Soria, Federico N., primary, Miguelez, Cristina, additional, Peñagarikano, Olga, additional, and Tønnesen, Jan, additional

Published

2020

14. Increased expression of cystine/glutamate antiporter in multiple sclerosis

Author

Villoslada Pablo, Soria Federico N, Domercq María, Pampliega Olatz, Rodríguez-Antigüedad Alfredo, and Matute Carlos

Subjects

Neurology. Diseases of the nervous system, RC346-429

Abstract

Abstract Background Glutamate excitotoxicity contributes to oligodendrocyte and tissue damage in multiple sclerosis (MS). Intriguingly, glutamate level in plasma and cerebrospinal fluid of MS patients is elevated, a feature which may be related to the pathophysiology of this disease. In addition to glutamate transporters, levels of extracellular glutamate are controlled by cystine/glutamate antiporter xc-, an exchanger that provides intracellular cystine for production of glutathione, the major cellular antioxidant. The objective of this study was to analyze the role of the system xc- in glutamate homeostasis alterations in MS pathology. Methods Primary cultures of human monocytes and the cell line U-937 were used to investigate the mechanism of glutamate release. Expression of cystine glutamate exchanger (xCT) was quantified by quantitative PCR, Western blot, flow cytometry and immunohistochemistry in monocytes in vitro, in animals with experimental autoimmune encephalomyelitis (EAE), the animal model of MS, and in samples of MS patients. Results and discussion We show here that human activated monocytes release glutamate through cystine/glutamate antiporter xc- and that the expression of the catalytic subunit xCT is upregulated as a consequence of monocyte activation. In addition, xCT expression is also increased in EAE and in the disease proper. In the later, high expression of xCT occurs both in the central nervous system (CNS) and in peripheral blood cells. In particular, cells from monocyte-macrophage-microglia lineage have higher xCT expression in MS and in EAE, indicating that immune activation upregulates xCT levels, which may result in higher glutamate release and contribution to excitotoxic damage to oligodendrocytes. Conclusions Together, these results reveal that increased expression of the cystine/glutamate antiporter system xc- in MS provides a link between inflammation and excitotoxicity in demyelinating diseases.

Published

2011

15. Synaptic Regulator α-Synuclein in Dopaminergic Fibers Is Essentially Required for the Maintenance of Subependymal Neural Stem Cells

Author

Perez-Villalba, Ana, primary, Sirerol-Piquer, M. Salomé, additional, Belenguer, Germán, additional, Soriano-Cantón, Raúl, additional, Muñoz-Manchado, Ana Belén, additional, Villadiego, Javier, additional, Alarcón-Arís, Diana, additional, Soria, Federico N., additional, Dehay, Benjamin, additional, Bezard, Erwan, additional, Vila, Miquel, additional, Bortolozzi, Analía, additional, Toledo-Aral, Juan José, additional, Pérez-Sánchez, Francisco, additional, and Fariñas, Isabel, additional

Published

2017

16. Mitochondrial division inhibitor-1 is neuroprotective in the A53T-α-synuclein rat model of Parkinson’s disease

Author

Bido, Simone, primary, Soria, Federico N., additional, Fan, Rebecca Z., additional, Bezard, Erwan, additional, and Tieu, Kim, additional

Published

2017

17. Glucocerebrosidase deficiency in dopaminergic neurons induces microglial activation without neurodegeneration

Author

Soria, Federico N., primary, Engeln, Michel, additional, Martinez-Vicente, Marta, additional, Glangetas, Christelle, additional, López-González, María José, additional, Dovero, Sandra, additional, Dehay, Benjamin, additional, Normand, Elisabeth, additional, Vila, Miquel, additional, Favereaux, Alexandre, additional, Georges, François, additional, Lo Bianco, Christophe, additional, Bezard, Erwan, additional, and Fernagut, Pierre-Olivier, additional

Published

2017

18. Exosomes, an Unmasked Culprit in Neurodegenerative Diseases

Author

Soria, Federico N., primary, Pampliega, Olatz, additional, Bourdenx, Mathieu, additional, Meissner, Wassilios G., additional, Bezard, Erwan, additional, and Dehay, Benjamin, additional

Published

2017

19. Nanoparticles restore lysosomal acidification defects: Implications for Parkinson and other lysosomal-related diseases

Author

Bourdenx, Mathieu, primary, Daniel, Jonathan, additional, Genin, Emilie, additional, Soria, Federico N., additional, Blanchard-Desce, Mireille, additional, Bezard, Erwan, additional, and Dehay, Benjamin, additional

Published

2016

20. Synaptic Regulator α-Synuclein in Dopaminergic Fibers Is Essentially Required for the Maintenance of Subependymal Neural Stem Cells.

Author

Vila, Miquel, Perez-Villalba, Ana, Sirerol-Piquer, M. Salomé, Belenguer, Germán, Soriano-Cantón, Raúl, Pérez-Sánchez, Francisco, Fariñas, Isabel, Muñoz-Manchado, Ana Belén, Villadiego, Javier, Toledo-Aral, Juan José, Alarcón-Arís, Diana, Bortolozzi, Analía, Soria, Federico N., Dehay, Benjamin, and Bezard, Erwan

Subjects

DEVELOPMENTAL neurobiology, PARKINSONIAN disorders, ALPHA-synuclein, NEURAL stem cells, AGING, BRAIN, DOPAMINERGIC neurons, NEURAL transmission

Abstract

Synaptic protein α-synuclein (α-SYN) modulates neurotransmission in a complex and poorly understood manner and aggregates in the cytoplasm of degenerating neurons in Parkinson's disease. Here, we report that α-SYN present in dopaminergic nigral afferents is essential for the normal cycling and maintenance of neural stem cells (NSCs) in the brain subependymal zone of adult male and female mice. We also show that premature senescence of adult NSCs into non-neurogenic astrocytes in mice lacking α-SYN resembles the effects of dopaminergic fiber degeneration resulting from chronic exposure to l-methyl-4-phenyl-1,2,3,6-tetra-hydropyridine or intranigral inoculation of aggregated toxic α-SYN. Interestingly, NSC loss in α-SYN-deficient mice can be prevented by viral delivery of human α-SYN into their sustantia nigra or by treatment with l-DOPA, suggesting that α-SYN regulates dopamine availability to NSCs. Our data indicate that α-SYN, present in dopaminergic nerve terminals supplying the subependymal zone, acts as a niche component to sustain the neurogenic potential of adult NSCs and identify α-SYN and DA as potential targets to ameliorate neurogenic defects in the aging and diseased brain. [ABSTRACT FROM AUTHOR]

Published

2018

21. Increased expression of cystine/glutamate antiporter in multiple sclerosis

Author

Pampliega, Olatz, primary, Domercq, María, additional, Soria, Federico N, additional, Villoslada, Pablo, additional, Rodríguez-Antigüedad, Alfredo, additional, and Matute, Carlos, additional

Published

2011

22. Microglial phagocytosis dysfunction in stroke is driven by energy depletion and induction of autophagy

Author

Sol Beccari, Virginia Sierra-Torre, Jorge Valero, Marta Pereira-Iglesias, Mikel García-Zaballa, Federico N. Soria, Laura De Las Heras-Garcia, Alejandro Carretero-Guillen, Estibaliz Capetillo-Zarate, Maria Domercq, Paloma R. Huguet, David Ramonet, Ahmed Osman, Wei Han, Cecilia Dominguez, Travis E. Faust, Omar Touzani, Olatz Pampliega, Patricia Boya, Dorothy Schafer, Guillermo Mariño, Emmanuelle Canet-Soulas, Klas Blomgren, Ainhoa Plaza-Zabala, Amanda Sierra, Ministerio de Ciencia e Innovación (España), Ministerio de Industria y Competitividad (España), Fundación Tatiana Pérez de Guzmán el Bueno, Basque Government Department of Education, Beccari, Sol, Sierra-Torre, Virginia, Valero, Jorge, Soria, Federico N., De Las Heras-Garcia, Laura, Carretero-Guillén, Alejandro, Capetillo-Zarate, Estibaliz, Domercq, María, Ramonet, David, Osman, Ahmed M., Faust, Travis E., Touzani, Omar, Pampliega, Olatz, Boya, Patricia, Schafer, Dorothy, Mariño, Guillermo, Canet-Soulas, Emmanuelle, Blomgren, Klas, Plaza-Zabala, Ainhoa, and Sierra, Amanda

Subjects

Stroke, Phagocytosis, Ischemia, Autophagy, Cell Biology, Microglia, Rapamycin, tMCAo, Lysosomes, Molecular Biology

Abstract

31 p.-12 fig.-1 tab. We dedicate this paper to Takashi Umekawa, who generated the HI model at the Karolinska Institute, and unfortunately passed away in 2018., Microglial phagocytosis of apoptotic debris prevents buildup damage of neighbor neurons and inflammatory responses. Whereas microglia are very competent phagocytes under physiological conditions, we report their dysfunction in mouse and preclinical monkey models of stroke (macaques and marmosets) by transient occlusion of the medial cerebral artery (tMCAo). By analyzing recently published bulk and single cell RNA sequencing databases, we show that the phagocytosis dysfunction was not explained by transcriptional changes. In contrast, we demonstrate that the impairment of both engulfment and degradation was related to energy depletion triggered by oxygen and nutrient deprivation (OND), which led to reduced process motility, lysosomal exhaustion, and the induction of a protective macroautophagy/autophagy response in microglia. Basal autophagy, in charge of removing and recycling intracellular elements, was critical to maintain microglial physiology, including survival and phagocytosis, as we determined both in vivo and in vitro using pharmacological and transgenic approaches. Notably, the autophagy inducer rapamycin partially prevented the phagocytosis impairment induced by tMCAo in vivo but not by OND in vitro, where it even had a detrimental effect on microglia, suggesting that modulating microglial autophagy to optimal levels may be a hard to achieve goal. Nonetheless, our results show that pharmacological interventions, acting directly on microglia or indirectly on the brain environment, have the potential to recover phagocytosis efficiency in the diseased brain. We propose that phagocytosis is a therapeutic target yet to be explored in stroke and other brain disorders and provide evidence that it can be modulated in vivo using rapamycin. Abbreviations: AIF1/IBA1: allograft inflammatory factor 1; AMBRA1: autophagy/beclin 1 regulator 1; ATG4B: autophagy related 4B, cysteine peptidase; ATP: adenosine triphosphate; BECN1: beclin 1, autophagy related; CASP3: caspase 3; CBF: cerebral blood flow; CCA: common carotid artery; CCR2: chemokine (C-C motif) receptor 2; CIR: cranial irradiation; Csf1r/v-fms: colony stimulating factor 1 receptor; CX3CR1: chemokine (C-X3-C motif) receptor 1; DAPI: 4’,6-diamidino-2-phenylindole; DG: dentate gyrus; GO: Gene Ontology; HBSS: Hanks’ balanced salt solution; HI: hypoxia-ischemia; LAMP1: lysosomal-associated membrane protein 1; MAP1LC3/LC3: microtubule-associated protein 1 light chain 3; MCA: medial cerebral artery; MTOR: mechanistic target of rapamycin kinase; OND: oxygen and nutrient deprivation; Ph/A coupling: phagocytosis-apoptosis coupling; Ph capacity: phagocytic capacity; Ph index: phagocytic index; SQSTM1: sequestosome 1; RNA-Seq: RNA sequencing; TEM: transmission electron microscopy; tMCAo: transient medial cerebral artery occlusion; ULK1: unc-51 like kinase 1. © 2023 The Author(s)., This work was supported by grants from the Spanish Ministry of Science and Innovation Competitiveness MCIN/AEI/10.13039/501100011033 (https://www.ciencia.gob.es/) and ERDF “A way to make Europe” (RTI2018-099267-B-I00 and RYC-2013-12817 to AS; RTI2018–097948-A-100 and RYC-2016–20480 to OP), a Tatiana Foundation Award (P-048-FTPGB 2018) to AS a Basque Government Department of Education project (PIBA 2020_1_0030; http://www.euskadi.eus/basque-government/department-education/) to AS, a Basque Government Department of Economic development, Sustainability and environment (ELKARTEK KK-2020/00034; https://www.spri.eus/en/) to ECZ, and . SB is recipient of predoctoral fellowship from the Spanish Ministry of Economy and Competitiveness, and VST is recipient of predoctoral fellowship from the Basque Government.

Published

2023

23. Synaptic Regulator α-Synuclein in Dopaminergic Fibers Is Essentially Required for the Maintenance of Subependymal Neural Stem Cells.

Author

Perez-Villalba A, Sirerol-Piquer MS, Belenguer G, Soriano-Cantón R, Muñoz-Manchado AB, Villadiego J, Alarcón-Arís D, Soria FN, Dehay B, Bezard E, Vila M, Bortolozzi A, Toledo-Aral JJ, Pérez-Sánchez F, and Fariñas I

Subjects

Animals, Brain cytology, Cellular Senescence physiology, Dopamine metabolism, Dopaminergic Neurons cytology, Female, Humans, Male, Mice, Mice, Mutant Strains, Neural Stem Cells cytology, Neurogenesis physiology, Neurons, Afferent cytology, Neurons, Afferent metabolism, Brain metabolism, Dopaminergic Neurons metabolism, Neural Stem Cells metabolism, Stem Cell Niche physiology, alpha-Synuclein metabolism

Abstract

Synaptic protein α-synuclein (α-SYN) modulates neurotransmission in a complex and poorly understood manner and aggregates in the cytoplasm of degenerating neurons in Parkinson's disease. Here, we report that α-SYN present in dopaminergic nigral afferents is essential for the normal cycling and maintenance of neural stem cells (NSCs) in the brain subependymal zone of adult male and female mice. We also show that premature senescence of adult NSCs into non-neurogenic astrocytes in mice lacking α-SYN resembles the effects of dopaminergic fiber degeneration resulting from chronic exposure to 1-methyl-4-phenyl-1,2,3,6-tetra-hydropyridine or intranigral inoculation of aggregated toxic α-SYN. Interestingly, NSC loss in α-SYN-deficient mice can be prevented by viral delivery of human α-SYN into their sustantia nigra or by treatment with l-DOPA, suggesting that α-SYN regulates dopamine availability to NSCs. Our data indicate that α-SYN, present in dopaminergic nerve terminals supplying the subependymal zone, acts as a niche component to sustain the neurogenic potential of adult NSCs and identify α-SYN and DA as potential targets to ameliorate neurogenic defects in the aging and diseased brain. SIGNIFICANCE STATEMENT We report an essential role for the protein α-synuclein present in dopaminergic nigral afferents in the regulation of adult neural stem cell maintenance, identifying the first synaptic regulator with an implication in stem cell niche biology. Although the exact role of α-synuclein in neural transmission is not completely clear, our results indicate that it is required for stemness and the preservation of neurogenic potential in concert with dopamine., (Copyright © 2018 the authors 0270-6474/18/380815-12$15.00/0.)

Published

2018