Sónia Paixão scite author profile

Astrocytes are critical participants in synapse development and function, but their role in synaptic plasticity is unclear. Eph receptors and their ephrin ligands have been suggested to regulate neuron-glia interactions and EphA4-mediated ephrin reverse signaling is required for synaptic plasticity in the hippocampus. Here we show that long-term potentiation (LTP) at the CA3-CA1 synapse is modulated by EphA4 in the postsynaptic CA1 cell and by ephrinA3, a ligand of EphA4 that is found in astrocytes. Lack of EphA4 increases the levels of glial glutamate transporters and ephrinA3 modulates transporter currents in astrocytes. Pharmacological inhibition of glial glutamate transporters rescues the LTP defects in EphA4 and ephrinA3 mutant mice. Transgenic overexpression of ephrinA3 in astrocytes reduces glutamate transporter levels and produces focal dendritic swellings possibly caused by glutamate excitotoxicity. These results suggest that EphA4/ephrinA3 signaling is a critical mechanism for astrocytes to regulate synaptic function and plasticity.

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Modular Structure of the Human Lamin B2 Replicator

Paixão

Colaluca

Cubells

et al. 2004

Molecular and Cellular Biology

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The cis-acting elements necessary for the activity of DNA replication origins in metazoan cells are still poorly understood. Here we report a thorough characterization of the DNA sequence requirements of the origin associated with the human lamin B2 gene. A 1.2-kb DNA segment, comprising the start site of DNA replication and located within a large protein-bound region, as well as a CpG island, displays origin activity when moved to different ectopic positions. Genomic footprinting analysis of both the endogenous and the ectopic origins indicates that the large protein complex is assembled in both cases around the replication start site. Replacement of this footprinted region with an unrelated sequence, maintaining the CpG island intact, abolishes origin activity and the interaction with hORC2, a subunit of the origin recognition complex. Conversely, the replacement of 17 bp within the protected region reduces the extension of the protection without affecting the interaction with hORC2. This substitution does not abolish the origin activity but makes it more sensitive to the integration site. Finally, the nearby CpG island positively affects the efficiency of initiation. This analysis reveals the modular structure of the lamin B2 origin and supports the idea that sequence elements close to the replication start site play an important role in origin activation.In 1963 Jacob, Brenner, and Cuzin (24) proposed the replicon model to explain the control of replication of the bacterial chromosome. In this model, DNA replication starts from a specific origin sequence, the replicator, that is recognized by a positive regulatory protein, the initiator. Since then the model has been validated in numerous prokaryotic and viral systems. The organization of the eukaryotic genome in multiple replication units distributed on several chromosomes has hampered the validation of this model in eukaryotes until the identification of the autonomous replicating sequences (ARS) in Saccharomyces cerevisiae. Initially identified for their ability to support the propagation of plasmid molecules in yeast cells, most of these sequences were successively proven to correspond to chromosomal replicators. ARSs are relatively short sequence elements (100 to 200 bp) that include the start site of replication, also called the origin of bidirectional DNA replication (OBR) (11). They consist of an essential 11-bp ARS consensus sequence (ACS) and of several auxiliary B elements that contribute to initiation activity. The ACS binds the origin recognition complex (ORC), a heteromeric complex of six proteins that assists the formation of a prereplicative complex on the origin. ORC orthologs have been isolated from all the eukaryotic species analyzed so far, including humans (for a review see reference 8). The ARS sequences and the ORC can be viewed as the prototypes of the eukaryotic replicator and initiator.The major obstacle to the validation of the replicon model in metazoan cells was the failure to isolate the functional homologues of the ARS elements...

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EphA4-Mediated Ipsilateral Corticospinal Tract Misprojections Are Necessary for Bilateral Voluntary Movements But Not Bilateral Stereotypic Locomotion

et al. 2014

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In this study, we took advantage of the reported role of EphA4 in determining the contralateral spinal projection of the corticospinal tract (CST) to investigate the effects of ipsilateral misprojections on voluntary movements and stereotypic locomotion. Null EphA4 mutations produce robust ipsilateral CST misprojections, resulting in bilateral corticospinal tracts. We hypothesize that a unilateral voluntary limb movement, not a stereotypic locomotor movement, will become a bilateral movement in EphA4 knock-out mice with a bilateral CST. However, in EphA4 full knock-outs, spinal interneurons also develop bilateral misprojections. Aberrant bilateral spinal circuits could thus transform unilateral corticospinal control signals into bilateral movements. We therefore studied mice with conditional forebrain deletion of the EphA4 gene under control by Emx1, a gene expressed in the forebrain that affects the developing CST but spares brainstem motor pathways and spinal motor circuits. We examined two conditional knock-outs targeting forebrain EphA4 during performance of stereotypic locomotion and voluntary movement: adaptive locomotion over obstacles and exploratory reaching. We found that the conditional knock-outs used alternate stepping, not hopping, during overground locomotion, suggesting normal central pattern generator function and supporting our hypothesis of minimal CST involvement in the moment-to-moment control of stereotypic locomotion. In contrast, the conditional knock-outs showed bilateral voluntary movements under conditions when single limb movements are normally produced and, as a basis for this aberrant control, developed a bilateral motor map in motor cortex that is driven by the aberrant ipsilateral CST misprojections. Therefore, a specific change in CST connectivity is associated with and explains a change in voluntary movement.

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Neuron–astrocyte communication and synaptic plasticity

Paixão

Klein

2010

Current Opinion in Neurobiology

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EphrinB3/EphA4-Mediated Guidance of Ascending and Descending Spinal Tracts

Paixão

Balijepalli

Serradj

et al. 2013

Neuron

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Summary The spinal cord contains many descending and ascending longitudinal tracts whose development appears to be controlled by distinct guidance systems. We identified a population of dorsal spinal neurons marked by co-expression of the transcription factor Zic2 and the guidance receptor EphA4. Zic2+;EphA4+ neurons are surrounded by mechanosensory terminals, suggesting innervation by mechanoreceptor afferents. Their axons form an ipsilateral ascending pathway that develops during embryogenesis and projects within the ventral aspect of the dorsal funiculus, the same location as the descending corticospinal tract (CST), which develops postnatally. Interestingly the same guidance mechanism, namely ephrinB3-induced EphA4 forward signaling, is required for the guidance of both ascending and descending axon tracts. Our analysis of conditional EphA4 mutant mice also revealed that the development of the dorsal funiculus occurs independently of EphA4 expression in descending CST axons and is linked to the distribution of Zic2+;EphA4+ spinal neurons and the formation of the ascending pathway.

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Sónia Paixão

Neuron-glia communication via EphA4/ephrin-A3 modulates LTP through glial glutamate transport

Modular Structure of the Human Lamin B2 Replicator

EphA4-Mediated Ipsilateral Corticospinal Tract Misprojections Are Necessary for Bilateral Voluntary Movements But Not Bilateral Stereotypic Locomotion

Neuron–astrocyte communication and synaptic plasticity

EphrinB3/EphA4-Mediated Guidance of Ascending and Descending Spinal Tracts

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