André Machado Xavier scite author profile

Amyotrophic lateral sclerosis (ALS) is characterized by progressive loss of upper and lower motor neurons leading to muscle paralysis and death. While a link between dysregulated lipid metabolism and ALS has been proposed, lipidome alterations involved in disease progression are still understudied. Using a rodent model of ALS overexpressing mutant human Cu/Zn-superoxide dismutase gene (SOD1-G93A), we performed a comparative lipidomic analysis in motor cortex and spinal cord tissues of SOD1-G93A and WT rats at asymptomatic (~70 days) and symptomatic stages (~120 days). Interestingly, lipidome alterations in motor cortex were mostly related to age than ALS. In contrast, drastic changes were observed in spinal cord of SOD1-G93A 120d group, including decreased levels of cardiolipin and a 6-fold increase in several cholesteryl esters linked to polyunsaturated fatty acids. Consistent with previous studies, our findings suggest abnormal mitochondria in motor neurons and lipid droplets accumulation in aberrant astrocytes. Although the mechanism leading to cholesteryl esters accumulation remains to be established, we postulate a hypothetical model based on neuroprotection of polyunsaturated fatty acids into lipid droplets in response to increased oxidative stress. Implicated in the pathology of other neurodegenerative diseases, cholesteryl esters appear as attractive targets for further investigations.

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Gene Expression Control by Glucocorticoid Receptors during Innate Immune Responses

Xavier

Anunciato

Rosenstock

et al. 2016

Front. Endocrinol.

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Glucocorticoids (GCs) are potent anti-inflammatory compounds that have been extensively used in clinical practice for several decades. GC’s effects on inflammation are generally mediated through GC receptors (GRs). Signal transduction through these nuclear receptors leads to dramatic changes in gene expression programs in different cell types, typically due to GR binding to DNA or to transcription modulators. During the last decade, the view of GCs as exclusive anti-inflammatory molecules has been challenged. GR negative interference in pro-inflammatory gene expression was a landmark in terms of molecular mechanisms that suppress immune activity. In fact, GR can induce varied inhibitory molecules, including a negative regulator of Toll-like receptors pathway, or subject key transcription factors, such as NF-κB and AP-1, to a repressor mechanism. In contrast, the expression of some acute-phase proteins and other players of innate immunity generally requires GR signaling. Consequently, GRs must operate context-dependent inhibitory, permissive, or stimulatory effects on host defense signaling triggered by pathogens or tissue damage. This review aims to disclose how contradictory or comparable effects on inflammatory gene expression can depend on pharmacological approach (including selective GC receptor modulators; SEGRMs), cell culture, animal treatment, or transgenic strategies used as models. Although the current view of GR-signaling integrated many advances in the field, some answers to important questions remain elusive.

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Oligodendrocyte precursor cells engulf synapses during circuit remodeling in mice

et al. 2022

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Oligodendrocyte precursor cells (OPCs) give rise to myelinating oligodendrocytes throughout life, but the functions of OPCs are not limited to oligodendrogenesis. Here we show that OPCs contribute to thalamocortical presynapse elimination in the developing and adult mouse visual cortex. OPC-mediated synapse engulfment increases in response to sensory experience during neural circuit refinement. Our data suggest that OPCs may regulate synaptic connectivity in the brain independently of oligodendrogenesis.

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Simvastatin improves morphological and functional recovery of sciatic nerve injury in Wistar rats

Xavier

Serafim

Higashi

et al. 2012

Injury

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CD36 is expressed in a defined subpopulation of neurons in the olfactory epithelium

Xavier

Ludwig

Nagai

et al. 2016

Sci Rep

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The sensory neurons in the olfactory epithelium (OSNs) are equipped with a large repertoire of olfactory receptors and the associated signal transduction machinery. In addition to the canonical OSNs, which express odorant receptors (ORs), the epithelium contains specialized subpopulations of sensory neurons that can detect specific information from environmental cues and relay it to relevant neuronal circuitries. Here we describe a subpopulation of mature OSNs in the main olfactory epithelium (MOE) which expresses CD36, a multifunctional receptor involved in a series of biological processes, including sensory perception of lipid ligands. The Cd36 expressing neurons coexpress markers of mature OSNs and are dispersed throughout the MOE. Unlike several ORs analyzed in our study, we found frequent coexpression of the OR Olfr287 in these neurons, suggesting that only a specific set of ORs may be coexpressed with CD36 in OSNs. We also show that CD36 is expressed in the cilia of OSNs, indicating a possible role in odorant detection. CD36-deficient mice display no signs of gross changes in the organization of the olfactory epithelium, but show impaired preference for a lipid mixture odor. Our results show that CD36-expressing neurons represent a distinct population of OSNs, which may have specific functions in olfaction.Olfactory sensory neurons (OSNs) in the olfactory epithelium (OE) express different types of olfactory receptors, which participate in the detection of distinct chemosensory stimuli. This information is subsequently transmitted to the olfactory bulb (OB) in the central nervous system 1,2 . Mature OSNs express the olfactory marker protein (OMP) 3 and are functionally and molecularly classified according to the type of olfactory receptor they express, their pattern of axonal projection to olfactory glomeruli in the OB, or presence of specific signal transduction machinery 4,5 . Most OSNs in the main olfactory epithelium (MOE) express canonical odorant receptors (ORs), which belong to a large family of over a thousand G-protein coupled receptors 6 and function in a combinatorial manner to discriminate an enormous number of odorants 7 . Other OSNs in the MOE express instead trace amine-associated receptors (TAARs) or receptor guanylyl cyclase (GC-D). These receptors are involved in the detection of volatile amines [8][9][10] and peptide hormones 11 present in urine, respectively. It has also been shown that GC-D expressing neurons detect CO 2 , which is an important olfactory stimulus for many organisms 12 . Distinct subpopulations of OSNs in the olfactory epithelium may also differ in the signaling proteins they express. While the canonical OSNs express the olfactory G protein alpha subunit (Gα olf/Gnal), adenylyl cyclase III (ACIII/Adcy3) and the cyclic nucleotide-gated (Cnga2) channel, other subpopulations express members of the transient receptor potential (Trp) channel family or other subtypes of transduction proteins 4 . CD36, also known as fatty acid transporter (FAT), is a single-chain glycoprotein e...

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