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1.
Purinergic Signal ; 2024 Jul 24.
Artículo en Inglés | MEDLINE | ID: mdl-39046648

RESUMEN

Purinergic receptors regulate the processing of neural information in the hippocampus and cerebral cortex, structures related to cognitive functions. These receptors are activated when astrocytic and neuronal populations release adenosine triphosphate (ATP) in an autocrine and paracrine manner, following sustained patterns of neuronal activity. The modulation by these receptors of GABAergic transmission has only recently been studied. Through their ramifications, astrocytes and GABAergic interneurons reach large groups of excitatory pyramidal neurons. Their inhibitory effect establishes different synchronization patterns that determine gamma frequency rhythms, which characterize neural activities related to cognitive processes. During early life, GABAergic-mediated synchronization of excitatory signals directs the experience-driven maturation of cognitive development, and dysfunctions concerning this process have been associated with neurological and neuropsychiatric diseases. Purinergic receptors timely modulate GABAergic control over ongoing neural activity and deeply affect neural processing in the hippocampal and neocortical circuitry. Stimulation of A2 receptors increases GABA release from presynaptic terminals, leading to a considerable reduction in neuronal firing of pyramidal neurons. A1 receptors inhibit GABAergic activity but only act in the early postnatal period when GABA produces excitatory signals. P2X and P2Y receptors expressed in pyramidal neurons reduce the inhibitory tone by blocking GABAA receptors. Finally, P2Y receptor activation elicits depolarization of GABAergic neurons and increases GABA release, thus favoring the emergence of gamma oscillations. The present review provides an overall picture of purinergic influence on GABAergic transmission and its consequences on neural processing, extending the discussion to receptor subtypes and their involvement in the onset of brain disorders, including epilepsy and Alzheimer's disease.

2.
Adv Rehabil Sci Pract ; 13: 27536351241261023, 2024.
Artículo en Inglés | MEDLINE | ID: mdl-39045264

RESUMEN

Introduction: Estimates of the worldwide increase in amputees raises the awareness to solve long-standing problems. Understanding the functional brain modifications after a lower limb amputation (LLA) is one of the first steps towards proposing new rehabilitation approaches. Functional modifications in the central nervous system due the amputation could be involved in prosthesis use failures and Phantom Limb Pain (PLP), increasing costs and overwhelming the health services. Objective: This study analyses orphan primary motor area (M1-Orphan) hemodynamic and metabolic behaviour, which previously controlled the limb that was amputated, in comparison with the M1-Preserved, responsible for the intact limb (IL) during phantom limb imagery moving during Mirror Therapy (MT), compared to Isolated Intact Limb Movement Task (I-ILMT). Methodology: A case-control study with unilateral traumatic LLA with moderate PLP who measured [oxy-Hb] and [deoxy-Hb] in the M1 area by Functional Near InfraredSpectroscopy (fNIRS) during the real (I-ILMT) and MT task. Results: Sixty-five patients, with 67.69% of men, young (40.32 ± 12.91), 65.63% amputated due motorcycle accidents, 4.71 ± 7.38 years ago, predominantly above the knee (57.14%). The M1 activation in the orphan cortex did not differ from the activation in the intact cortex during MT (P > .05). Conclusion: The perception of the Phantom limb moving or intact limb moving is metabolically equivalent in M1, even in the absence of a limb. In other words, the amputation does not alter the brain metabolism in control of phantom movement.

3.
Nutr Neurosci ; : 1-15, 2024 Jun 11.
Artículo en Inglés | MEDLINE | ID: mdl-38861649

RESUMEN

ABSTRACTThis study evaluated the effects of Rubus sp. extract on behavioral and neurochemical parameters in female mice submitted to experimental model of depression induced by lipopolysaccharide (LPS). The results indicated that Rubus sp. extract protected against depressive-like behavior induced by LPS. Moreover, the administration of Rubus sp. extract was effective in preventing the increase in reactive species and nitrites levels, as well as the decrease in catalase activity induced by LPS in the cerebral cortex. In the serum, the Rubus sp. extract was effective in preventing the decrease in catalase activity induced by LPS. Treatment with Rubus sp. extract attenuated the increase in acetylcholinesterase activity induced by LPS in the cerebral cortex. Finally, blackberry extract also downregulated IL-1ß levels in cerebral cortex. In conclusion, our findings demonstrated that treatment with Rubus sp. exerted antidepressant, antioxidant, anticholinesterase and anti-inflammatory effects in a model of depressive - like behavior induced by LPS in female mice. This highlights Rubus sp. as a potential therapeutic agent for individuals with major depressive disorder.

4.
Mol Biol Evol ; 41(7)2024 Jul 03.
Artículo en Inglés | MEDLINE | ID: mdl-38913688

RESUMEN

The outstanding human cognitive capacities are computed in the cerebral cortex, a mammalian-specific brain region and the place of massive biological innovation. Long noncoding RNAs have emerged as gene regulatory elements with higher evolutionary turnover than mRNAs. The many long noncoding RNAs identified in neural tissues make them candidates for molecular sources of cerebral cortex evolution and disease. Here, we characterized the genomic and cellular shifts that occurred during the evolution of the long noncoding RNA repertoire expressed in the developing cerebral cortex and explored putative roles for these long noncoding RNAs in the evolution of the human brain. Using transcriptomics and comparative genomics, we comprehensively annotated the cortical transcriptomes of humans, rhesus macaques, mice, and chickens and classified human cortical long noncoding RNAs into evolutionary groups as a function of their predicted minimal ages. Long noncoding RNA evolutionary groups showed differences in expression levels, splicing efficiencies, transposable element contents, genomic distributions, and transcription factor binding to their promoters. Furthermore, older long noncoding RNAs showed preferential expression in germinative zones, outer radial glial cells, and cortical inhibitory (GABAergic) neurons. In comparison, younger long noncoding RNAs showed preferential expression in cortical excitatory (glutamatergic) neurons, were enriched in primate and human-specific gene co-expression modules, and were dysregulated in neurodevelopmental disorders. These results suggest different evolutionary routes for older and younger cortical long noncoding RNAs, highlighting old long noncoding RNAs as a possible source of molecular evolution of conserved developmental programs; conversely, we propose that the de novo expression of primate- and human-specific young long noncoding RNAs is a putative source of molecular evolution and dysfunction of cortical excitatory neurons, warranting further investigation.


Asunto(s)
Corteza Cerebral , Macaca mulatta , Neuronas , ARN Largo no Codificante , ARN Largo no Codificante/genética , Humanos , Corteza Cerebral/metabolismo , Animales , Ratones , Neuronas/metabolismo , Pollos/genética , Evolución Molecular , Transcriptoma
5.
Int. j. morphol ; 42(3): 876-890, jun. 2024. ilus, tab
Artículo en Inglés | LILACS | ID: biblio-1564627

RESUMEN

SUMMARY: Stroke is the leading cause of acquired physical disability in adults and second leading cause of mortality throughout the world. Treatment strategies to curb the effects of stroke would be of great benefit. Pongamia pinnata is a recent attraction in medicine, owing to its abundant medicinal benefits with minimal side effects. The present study aimed to examine acute and subacute effect of Pongamia pinnata leaf extract on transient cerebral hypoperfusion and reperfusion (tCHR) in Wistar rats. 24 adult Wistar rats (12 each for acute and subacute study) were divided in to four groups each viz normal control group, tCHR + NS group, tCHR + 200mg/kg bw and tCHR + 400mg/kg bw groups. Cerebral ischemia induction was carried out by bilateral common carotid artery occlusion and reperfusion. Ethanolic extract of Pongamia pinnata leaves were orally administered for 7 days and 21 days after the surgical procedure for acute and subacute study respectively. Behavioural analysis, histological assessment, and estimation of mRNA levels of HIF-1, GDNF, BDNF and NF-kB were performed. In both acute and subacute study, there was significant improvement in the beam walking assay, neuronal count, decreased neuronal damage in histological sections and higher mRNA expression of BDNF and GDNF in the treatment groups. There was no significant difference in the expression of HIF1 and NF-kB. Thus, Pongamia pinnata has excellent neurorestorative property reversing many of the effects of ischemic stroke induced by tCHR in rats with the underlying mechanism being an improvement in the expression of neurotrophic factors GDNF and BDNF.


El ataque cerebrovascular es la principal causa de discapacidad física adquirida en adultos y la segunda causa de mortalidad en todo el mundo. Las estrategias de tratamiento para frenar los efectos del ataque cerebrovascular serían de gran beneficio. Pongamia pinnata es una atracción reciente en la medicina, debido a sus abundantes beneficios medicinales con mínimos efectos secundarios. El presente estudio tuvo como objetivo examinar el efecto agudo y subagudo del extracto de hoja de Pongamia pinnata sobre la hipoperfusión y reperfusión cerebral transitoria (tCHR) en ratas Wistar. Se dividieron 24 ratas Wistar adultas (12 cada una para el estudio agudo y subagudo) en cuatro grupos, el grupo control normal, el grupo tCHR + NS, los grupos tCHR + 200 mg/kg de peso corporal y tCHR + 400 mg/kg de peso corporal. La inducción de la isquemia cerebral se llevó a cabo mediante oclusión y reperfusión bilateral de la arteria carótida común. El extracto etanólico de hojas de Pongamia pinnata se administró por vía oral durante 7 días y 21 días después del procedimiento quirúrgico para estudio agudo y subagudo respectivamente. Se realizaron análisis de comportamiento, evaluación histológica y estimación de los niveles de ARNm de HIF-1, GDNF, BDNF y NF-kB. Tanto en el estudio agudo como en el subagudo, hubo una mejora significativa en el ensayo de desplazamiento del haz, el recuento neuronal, una disminución del daño neuronal en las secciones histológicas y una mayor expresión de ARNm de BDNF y GDNF en los grupos con tratamiento. No hubo diferencias significativas en la expresión de HIF1 y NF-kB. Por lo tanto, Pongamia pinnata tiene una excelente propiedad neurorestauradora que revierte muchos de los efectos del ataque cerebrovascular isquémico inducido por tCHR en ratas, siendo el mecanismo subyacente una mejora en la expresión de los factores neurotróficos GDNF y BDNF.


Asunto(s)
Animales , Ratas , Extractos Vegetales/administración & dosificación , Accidente Cerebrovascular/tratamiento farmacológico , Millettia/química , Extractos Vegetales/farmacología , Corteza Cerebral/efectos de los fármacos , Isquemia Encefálica/tratamiento farmacológico , Administración Oral , FN-kappa B , Ratas Wistar , Factor Neurotrófico Derivado del Encéfalo/genética , Modelos Animales de Enfermedad , Factor 1 Inducible por Hipoxia/genética , Factor Neurotrófico Derivado de la Línea Celular Glial/genética , Reacción en Cadena en Tiempo Real de la Polimerasa , Factores de Crecimiento Nervioso/administración & dosificación
6.
Biochim Biophys Acta Mol Basis Dis ; 1870(5): 167178, 2024 06.
Artículo en Inglés | MEDLINE | ID: mdl-38636614

RESUMEN

Pitt-Hopkins syndrome (PTHS) is a neurodevelopmental disorder caused by haploinsufficiency of transcription factor 4 (TCF4). In this work, we focused on the cerebral cortex and investigated in detail the progenitor cell dynamics and the outcome of neurogenesis in a PTHS mouse model. Labeling and quantification of progenitors and newly generated neurons at various time points during embryonic development revealed alterations affecting the dynamic of cortical progenitors since the earliest stages of cortex formation in PTHS mice. Consequently, establishment of neuronal populations and layering of the cortex were found to be altered in heterozygotes subjects at birth. Interestingly, defective layering process of pyramidal neurons was partially rescued by reintroducing TCF4 expression using focal in utero electroporation in the cerebral cortex. Coincidentally with a defective dorsal neurogenesis, we found that ventral generation of interneurons was also defective in this model, which may lead to an excitation/inhibition imbalance in PTHS. Overall, sex-dependent differences were detected with more marked effects evidenced in males compared with females. All of this contributes to expand our understanding of PTHS, paralleling the advances of research in autism spectrum disorder and further validating the PTHS mouse model as an important tool to advance preclinical studies.


Asunto(s)
Corteza Cerebral , Modelos Animales de Enfermedad , Hiperventilación , Discapacidad Intelectual , Neurogénesis , Factor de Transcripción 4 , Animales , Factor de Transcripción 4/metabolismo , Factor de Transcripción 4/genética , Femenino , Masculino , Ratones , Hiperventilación/metabolismo , Hiperventilación/genética , Hiperventilación/patología , Discapacidad Intelectual/genética , Discapacidad Intelectual/patología , Discapacidad Intelectual/metabolismo , Corteza Cerebral/metabolismo , Corteza Cerebral/patología , Facies , Caracteres Sexuales , Interneuronas/metabolismo , Interneuronas/patología , Células Piramidales/metabolismo , Células Piramidales/patología , Haploinsuficiencia
7.
Artículo en Inglés | MEDLINE | ID: mdl-38653363

RESUMEN

A functional lateralization has been reported in control of emotional responses by the medial prefrontal cortex (mPFC). However, a hemisphere asymmetry in involvement of the mPFC in expression of fear conditioning responses has never been reported. Therefore, we investigated whether control by mPFC of freezing and cardiovascular responses during re-exposure to an aversively conditioned context is lateralized. For this, rats had guide cannulas directed to the mPFC implanted bilaterally or unilaterally in the right or left hemispheres. Vehicle or the non-selective synaptic inhibitor CoCl2 was microinjected into the mPFC 10 min before re-exposure to a chamber where the animals had previously received footshocks. A catheter was implanted into the femoral artery before the fear retrieval test for cardiovascular recordings. We observed that bilateral microinjection of CoCl2 into the mPFC reduced both the freezing behavior (enhancing locomotion and rearing) and arterial pressure and heart rate increases during re-exposure to the aversively conditioned context. Unilateral microinjection of CoCl2 into the right hemisphere of the mPFC also decreased the freezing behavior (enhancing locomotion and rearing), but without affecting the cardiovascular changes. Conversely, unilateral synaptic inhibition in the left mPFC did not affect either behavioral or cardiovascular responses during fear retrieval test. Taken together, these results suggest that the right hemisphere of the mPFC is necessary and sufficient for expression of freezing behavior to contextual fear conditioning. However, the control of cardiovascular responses and freezing behavior during fear retrieval test is somehow dissociated in the mPFC, being the former bilaterally processed.


Asunto(s)
Cobalto , Miedo , Lateralidad Funcional , Corteza Prefrontal , Animales , Corteza Prefrontal/fisiología , Corteza Prefrontal/efectos de los fármacos , Masculino , Cobalto/farmacología , Miedo/fisiología , Miedo/efectos de los fármacos , Ratas , Lateralidad Funcional/fisiología , Lateralidad Funcional/efectos de los fármacos , Emociones/fisiología , Emociones/efectos de los fármacos , Ratas Wistar , Frecuencia Cardíaca/fisiología , Frecuencia Cardíaca/efectos de los fármacos , Microinyecciones , Condicionamiento Clásico/fisiología , Condicionamiento Clásico/efectos de los fármacos
8.
J Anat ; 244(5): 815-830, 2024 05.
Artículo en Inglés | MEDLINE | ID: mdl-38183319

RESUMEN

Structural asymmetries of brain regions associated with lateralised functions have been extensively studied. However, there are fewer morphometric analyses of asymmetries of the gyri and sulci of the entire cortex. The current study assessed cortical asymmetries in a sample of healthy adults (N = 175) from an admixed population from South America. Grey matter volume and surface area of 66 gyri and sulci were quantified on T1 magnetic resonance images. The departure from zero of the differences between left and right hemispheres (L-R), a measure of directional asymmetry (DA), the variance of L-R, and an index of fluctuating asymmetry (FA) were evaluated for each region. Significant departures from perfect symmetry were found for most cortical gyri and sulci. Regions showed leftward asymmetry at the population level in the frontal lobe and superior lateral parts of the parietal lobe. Rightward asymmetry was found in the inferior parietal, occipital, frontopolar, and orbital regions, and the cingulate (anterior, middle, and posterior-ventral). Despite this general pattern, several sulci showed the opposite DA compared to the neighbouring gyri, which remarks the need to consider the neurobiological differences in gyral and sulcal development in the study of structural asymmetries. The results also confirm the absence of DA in most parts of the inferior frontal gyrus and the precentral region. This study contributes with data on populations underrepresented in the databases used in neurosciences. Among its findings, there is agreement with previous results obtained in populations of different ancestry and some discrepancies in the middle frontal and medial parietal regions. A significant DA not reported previously was found for the volume of long and short insular gyri and the central sulcus of the insula, frontomarginal, transverse frontopolar, paracentral, and middle and posterior parts of the cingulate gyrus and sulcus, gyrus rectus, occipital pole, and olfactory sulcus, as well as for the volume and area of the transverse collateral sulcus and suborbital sulcus. Also, several parcels displayed significant variability in the left-right differences, which can be partially attributable to developmental instability, a source of FA. Moreover, a few gyri and sulci displayed ideal FA with non-significant departures from perfect symmetry, such as subcentral and posterior cingulate gyri and sulci, inferior frontal and fusiform gyri, and the calcarine, transverse collateral, precentral, and orbital sulci. Overall, these results show that asymmetries are ubiquitous in the cerebral cortex.


Asunto(s)
Corteza Cerebral , Sustancia Gris , Adulto , Humanos , Sustancia Gris/diagnóstico por imagen , Corteza Cerebral/diagnóstico por imagen , Lóbulo Frontal , Giro del Cíngulo , Imagen por Resonancia Magnética/métodos , América del Sur
9.
Glia ; 72(4): 708-727, 2024 04.
Artículo en Inglés | MEDLINE | ID: mdl-38180226

RESUMEN

Radial glia (RG) cells generate neurons and glial cells that make up the cerebral cortex. Both in rodents and humans, these stem cells remain for a specific time after birth, named late radial glia (lRG). The knowledge of lRG and molecules that may be involved in their differentiation is based on very limited data. We analyzed whether ascorbic acid (AA) and its transporter SVCT2, are involved in lRG cells differentiation. We demonstrated that lRG cells are highly present between the first and fourth postnatal days. Anatomical characterization of lRG cells, revealed that lRG cells maintained their bipolar morphology and stem-like character. When lRG cells were labeled with adenovirus-eGFP at 1 postnatal day, we detected that some cells display an obvious migratory neuronal phenotype, suggesting that lRG cells continue generating neurons postnatally. Moreover, we demonstrated that SVCT2 was apically polarized in lRG cells. In vitro studies using the transgenic mice SVCT2+/- and SVCT2tg (SVCT2-overexpressing mouse), showed that decreased SVCT2 levels led to accelerated differentiation into astrocytes, whereas both AA treatment and elevated SVCT2 expression maintain the lRG cells in an undifferentiated state. In vivo overexpression of SVCT2 in lRG cells generated cells with a rounded morphology that were migratory and positive for proliferation and neuronal markers. We also examined mediators that can be involved in AA/SVCT2-modulated signaling pathways, determining that GSK3-ß through AKT, mTORC2, and PDK1 is active in brains with high levels of SVCT2/AA. Our data provide new insights into the role of AA and SVCT2 in late RG cells.


Asunto(s)
Ácido Ascórbico , Transportadores de Sodio Acoplados a la Vitamina C , Animales , Humanos , Ratones , Ácido Ascórbico/farmacología , Células Ependimogliales/metabolismo , Glucógeno Sintasa Quinasa 3/metabolismo , Proteínas de Transporte de Membrana/metabolismo , Ratones Transgénicos , Neuronas/metabolismo , Transportadores de Sodio Acoplados a la Vitamina C/genética
10.
Eur J Appl Physiol ; 124(3): 753-760, 2024 Mar.
Artículo en Inglés | MEDLINE | ID: mdl-38105311

RESUMEN

PURPOSE: Research describes the existence of a relationship between cortical activity and the regulation of bulbar respiratory centers through the evaluation of the electroencephalographic (EEG) signal during respiratory challenges. For example, we found evidences of a reduction in the frequency of the EEG (alpha band) in both divers and non-divers during apnea tests. For instance, this reduction was more prominent in divers due to the greater physiological disturbance resulting from longer apnea time. However, little is known about EEG adaptations during tests of maximal apnea, a test that voluntarily stops breathing and induces dyspnea. RESULTS: Through this mini-review, we verified that a protocol of successive apneas triggers a significant increase in the maximum apnea time and we hypothesized that successive maximal apnea test could be a powerful model for the study of cortical activity during respiratory distress. CONCLUSION: Dyspnea is a multifactorial symptom and we believe that performing a successive maximal apnea protocol is possible to understand some factors that determine the sensation of dyspnea through the EEG signal, especially in people not trained in apnea.


Asunto(s)
Buceo , Síndrome de Dificultad Respiratoria , Humanos , Apnea/diagnóstico , Contencion de la Respiración , Disnea/diagnóstico , Electroencefalografía , Buceo/fisiología
11.
Acta cir. bras ; Acta cir. bras;39: e394224, 2024. graf
Artículo en Inglés | LILACS-Express | LILACS, VETINDEX | ID: biblio-1568717

RESUMEN

ABSTRACT Purpose: Amid rising health awareness, natural products which has milder effects than medical drugs are becoming popular. However, only few systems can quantitatively assess their impact on living organisms. Therefore, we developed a deep-learning system to automate the counting of cells in a gerbil model, aiming to assess a natural product's effectiveness against ischemia. Methods: The image acquired from paraffin blocks containing gerbil brains was analyzed by a deep-learning model (fine-tuned Detectron2). Results: The counting system achieved a 79%-positive predictive value and 85%-sensitivity when visual judgment by an expert was used as ground truth. Conclusions: Our system evaluated hydrogen water's potential against ischemia and found it potentially useful, which is consistent with expert assessment. Due to natural product's milder effects, large data sets are needed for evaluation, making manual measurement labor-intensive. Hence, our system offers a promising new approach for evaluating natural products.

12.
Artículo en Español | LILACS-Express | LILACS | ID: biblio-1569852

RESUMEN

Fundamento: El cerebro durante la etapa prenatal es uno de los órganos más afectados por factores teratógenos, por ejemplo la Diabetes Mellitus Pregestacional. Su efecto sobre este en esta etapa requiere un mayor conocimiento porque es un importante predictor de problemas cognitivos y psicológicos en la edad adulta. Para el estudio de la corteza cerebral resultan muy útiles los modelos animales, combinados con técnicas morfométricas tendremos una mayor precisión a la hora de establecer las causas que condicionan el daño. Objetivo: Determinar las posibles diferencias de los indicadores morfométricos nucleares: área, volumen, y factor de forma en las neuronas de la corteza cerebral temporal de gazapos de ratas Wistar normal y en un modelo animal con diabetes mellitus pregestacional. Métodos: Se realizó un estudio experimental básico con 16 cerebros de gazapos de ratas Wistar en el período comprendido entre junio 2021 a junio 2022 en la Universidad de Ciencias Médicas de Holguín. Dichos cerebros se organizaron en dos grupos de ocho cada uno. Un grupo control con los procedentes de gazapos de ratas sanas y un grupo casos con los cerebros de gazapos de ratas diabéticas. Se estudiaron indicadores morfométricos nucleares como el área, el volumen y el factor de forma. Resultados: El área y el volumen nuclear muestran valores superiores en el grupo control .El valor del factor de forma no mostró diferencias. Conclusiones: Los resultados obtenidos traducen que la Diabetes Mellitus Pregestacional puede causar daño a las neuronas del tejido nervioso de la zona cerebral estudiada.


Background: The brain during the prenatal stage is one of the organs most affected by teratogenic factors such as Pregestacional Diabetes Mellitus. Its effect on it during these stages requires greater knowledge because it is an important predictor of cognitive and psychological problem in age adult. For the study of the cerebral cortex, animal models are very useful, combined with morphometric techniques, greater precision will be obtained when establishing the causes to determinate the damage. Objective: To determine the possible differences of the nuclear morphometric indicators: area, volume and shape factor in the neurons of the temporal cerebral cortex of normal Wistar rat kits and in an animal model with pregestacional diabetes mellitus. Method: A basic experimental study was carried out with 16 brains of Wistar rats in the period from June 2021 to June 2022 at the University of Medical Sciences of Holguín. These brains were organized into two groups of eight each. A control group with those from healthy rat kits and a case group with brain from diabetic rats kits. Nuclear morphometric indicators such as area, volume and shape of factor were studied. Results: The area and the nuclear volume show superior values in the control group. The value of the shape factor did not show significant difference. Conclusions: the results obtained show that Pregestational Diabetes Mellitus can cause damage to the neurons of the nervous tissue of the brain area studied.

13.
Mol Biol Evol, v. 41, n. 7, msae123, jun. 2024
Artículo en Inglés | Sec. Est. Saúde SP, SESSP-IBPROD, Sec. Est. Saúde SP | ID: bud-5428

RESUMEN

The outstanding human cognitive capacities are computed in the cerebral cortex, a mammalian-specific brain region and the place of massive biological innovation. Long noncoding RNAs have emerged as gene regulatory elements with higher evolutionary turnover than mRNAs. The many long noncoding RNAs identified in neural tissues make them candidates for molecular sources of cerebral cortex evolution and disease. Here, we characterized the genomic and cellular shifts that occurred during the evolution of the long noncoding RNA repertoire expressed in the developing cerebral cortex and explored putative roles for these long noncoding RNAs in the evolution of the human brain. Using transcriptomics and comparative genomics, we comprehensively annotated the cortical transcriptomes of humans, rhesus macaques, mice, and chickens and classified human cortical long noncoding RNAs into evolutionary groups as a function of their predicted minimal ages. Long noncoding RNA evolutionary groups showed differences in expression levels, splicing efficiencies, transposable element contents, genomic distributions, and transcription factor binding to their promoters. Furthermore, older long noncoding RNAs showed preferential expression in germinative zones, outer radial glial cells, and cortical inhibitory (GABAergic) neurons. In comparison, younger long noncoding RNAs showed preferential expression in cortical excitatory (glutamatergic) neurons, were enriched in primate and human-specific gene co-expression modules, and were dysregulated in neurodevelopmental disorders. These results suggest different evolutionary routes for older and younger cortical long noncoding RNAs, highlighting old long noncoding RNAs as a possible source of molecular evolution of conserved developmental programs; conversely, we propose that the de novo expression of primate- and human-specific young long noncoding RNAs is a putative source of molecular evolution and dysfunction of cortical excitatory neurons, warranting further investigation.

14.
Gac Med Mex ; 159(5): 380-386, 2023.
Artículo en Inglés | MEDLINE | ID: mdl-38096842

RESUMEN

BACKGROUND: Early appearance of serotonin in the fetal brain and its effects on brain morphogenesis support its neurotrophic role. OBJECTIVE: To determine the presence of serotonergic cells and the expression of tryptophan-5-hydroxylase (TPH), 5-hydroxytryptamine (5-HT), serotonin transporter (SERT), 5-HT1A receptor and Pet-1 during the development of the cerebral cortex, both in situ and in tissue cultures. MATERIAL AND METHODS: A descriptive, observational study was carried out in pregnant Wistar rats. The presence of the plug was regarded as the beginning of gestation. On days 13, 16 and 17, cesarean sections were performed to obtain the fetuses, and the brains were then immediately dissected to identify the presence of serotonergic cells, TPH, 5-HT, SERT, 5-HT1A and Pet-1 in tissue cultures and in situ by immunostaining detected on a confocal microscope. RESULTS: Serotonergic cells and terminals were observed in the midbrain on day 17 of gestation, and in neopallium cocultures on days 13 and 16. TPH, 5-HT, SERT and Pet-1 immunopositive cells were also observed in the neopallium on day 12 of culture. CONCLUSIONS: The presence of serotonergic cells and other elements of the serotonergic system in the early cerebral cortex was confirmed, which may be transient and participate in cortical maturation processes during brain development.


ANTECEDENTES: La aparición temprana de serotonina en el cerebro fetal y sus efectos en la morfogénesis cerebral apoyan su papel neurotrófico. OBJETIVO: Determinar la presencia de células serotoninérgicas y la expresión de triptófano-5-hidroxilasa (TPH), 5-hidroxitriptamina (5-HT), transportador de serotonina (SERT), receptor 5-HT1A y Pet-1 durante el desarrollo de la corteza cerebral, tanto in situ como en cultivo de tejidos. MATERIAL Y MÉTODOS: Se realizó estudio observacional descriptivo en ratas Wistar preñadas. La presencia del tapón se consideró el inicio de la gestación; en los días 13, 16 y 17 se practicaron cesáreas para obtener los fetos e inmediatamente se disecaron los cerebros para identificar células serotoninérgicas, TPH, 5-HT, SERT, 5-HT1A y Pet-1 en cultivo de tejido e in situ mediante inmunomarcaje detectado en un microscopio confocal. RESULTADOS: Células y terminales serotoninérgicas fueron observadas en el mesencéfalo el día 17 de gestación y en cocultivos de neopalio los días 13 y 16. También se observaron células inmunopositivas a TPH, 5-HT, SERT y Pet-1 en el neopalio en el día 12 del cultivo. CONCLUSIONES: Se confirmó la presencia de células serotoninérgicas y otros elementos del sistema serotoninérgico en la corteza cerebral temprana, la cual puede ser transitoria y participar en los procesos de maduración cortical durante el desarrollo cerebral.


Asunto(s)
Neuronas , Serotonina , Animales , Femenino , Embarazo , Ratas , Corteza Cerebral/metabolismo , Feto/metabolismo , Neuronas/metabolismo , Ratas Wistar , Serotonina/metabolismo , Serotonina/farmacología , Triptófano Hidroxilasa/metabolismo , Triptófano Hidroxilasa/farmacología , Modelos Animales
15.
Mol Neurobiol ; 2023 Nov 01.
Artículo en Inglés | MEDLINE | ID: mdl-37910283

RESUMEN

Maple syrup urine disease (MSUD) is caused by severe deficiency of branched-chain α-keto acid dehydrogenase complex activity, resulting in tissue accumulation of branched-chain α-keto acids and amino acids, particularly α-ketoisocaproic acid (KIC) and leucine. Affected patients regularly manifest with acute episodes of encephalopathy including seizures, coma, and potentially fatal brain edema during the newborn period. The present work investigated the ex vivo effects of a single intracerebroventricular injection of KIC to neonate rats on redox homeostasis and neurochemical markers of neuronal viability (neuronal nuclear protein (NeuN)), astrogliosis (glial fibrillary acidic protein (GFAP)), and myelination (myelin basic protein (MBP) and 2',3'-cyclic-nucleotide 3'-phosphodiesterase (CNPase)) in the cerebral cortex and striatum. KIC significantly disturbed redox homeostasis in these brain structures 6 h after injection, as observed by increased 2',7'-dichlorofluorescein oxidation (reactive oxygen species generation), malondialdehyde levels (lipid oxidative damage), and carbonyl formation (protein oxidative damage), besides impairing the antioxidant defenses (diminished levels of reduced glutathione and altered glutathione peroxidase, glutathione reductase, and superoxide dismutase activities) in both cerebral structures. Noteworthy, the antioxidants N-acetylcysteine and melatonin attenuated or normalized most of the KIC-induced effects on redox homeostasis. Furthermore, a reduction of NeuN, MBP, and CNPase, and an increase of GFAP levels were observed at postnatal day 15, suggesting neuronal loss, myelination injury, and astrocyte reactivity, respectively. Our data indicate that disruption of redox homeostasis, associated with neural damage caused by acute intracerebral accumulation of KIC in the neonatal period may contribute to the neuropathology characteristic of MSUD patients.

16.
Adv Neurobiol ; 34: 367-496, 2023.
Artículo en Inglés | MEDLINE | ID: mdl-37962801

RESUMEN

Dendritic spine features in human neurons follow the up-to-date knowledge presented in the previous chapters of this book. Human dendrites are notable for their heterogeneity in branching patterns and spatial distribution. These data relate to circuits and specialized functions. Spines enhance neuronal connectivity, modulate and integrate synaptic inputs, and provide additional plastic functions to microcircuits and large-scale networks. Spines present a continuum of shapes and sizes, whose number and distribution along the dendritic length are diverse in neurons and different areas. Indeed, human neurons vary from aspiny or "relatively aspiny" cells to neurons covered with a high density of intermingled pleomorphic spines on very long dendrites. In this chapter, we discuss the phylogenetic and ontogenetic development of human spines and describe the heterogeneous features of human spiny neurons along the spinal cord, brainstem, cerebellum, thalamus, basal ganglia, amygdala, hippocampal regions, and neocortical areas. Three-dimensional reconstructions of Golgi-impregnated dendritic spines and data from fluorescence microscopy are reviewed with ultrastructural findings to address the complex possibilities for synaptic processing and integration in humans. Pathological changes are also presented, for example, in Alzheimer's disease and schizophrenia. Basic morphological data can be linked to current techniques, and perspectives in this research field include the characterization of spines in human neurons with specific transcriptome features, molecular classification of cellular diversity, and electrophysiological identification of coexisting subpopulations of cells. These data would enlighten how cellular attributes determine neuron type-specific connectivity and brain wiring for our diverse aptitudes and behavior.


Asunto(s)
Enfermedad de Alzheimer , Espinas Dendríticas , Humanos , Amígdala del Cerebelo , Neuronas , Filogenia
17.
Radiol Bras ; 56(4): 187-194, 2023.
Artículo en Inglés | MEDLINE | ID: mdl-37829590

RESUMEN

Objective: To assess the reliability of phase-sensitive inversion recovery (PSIR) magnetic resonance imaging (MRI) and its accuracy for determining the topography of demyelinating cortical lesions in patients with multiple sclerosis (MS). Materials and Methods: This was a cross-sectional study conducted at a tertiary referral center for MS and other demyelinating disorders. We assessed the agreement among three raters for the detection and topographic classification of cortical lesions on fluid-attenuated inversion recovery (FLAIR) and PSIR sequences in patients with MS. Results: We recruited 71 patients with MS. The PSIR sequences detected 50% more lesions than did the FLAIR sequences. For detecting cortical lesions, the level of interrater agreement was satisfactory, with a mean free-response kappa (κFR) coefficient of 0.60, whereas the mean κFR for the topographic reclassification of the lesions was 0.57. On PSIR sequences, the raters reclassified 366 lesions (20% of the lesions detected on FLAIR sequences), with excellent interrater agreement. There was a significant correlation between the total number of lesions detected on PSIR sequences and the Expanded Disability Status Scale score (ρ = 0.35; p < 0.001). Conclusion: It seems that PSIR sequences perform better than do FLAIR sequences, with clinically satisfactory interrater agreement, for the detection and topographic classification of cortical lesions. In our sample of patients with MS, the PSIR MRI findings were significantly associated with the disability status, which could influence decisions regarding the treatment of such patients.


Objetivo: Avaliar a confiabilidade da sequência PSIR e sua precisão no diagnóstico topográfico de lesões corticais desmielinizantes em pacientes com esclerose múltipla (EM). Materiais e Métodos: Estudo transversal realizado em centro de referência terciário para EM e distúrbios desmielinizantes. Avaliamos a concordância entre três avaliadores na identificação e classificação topográfica de lesões corticais na ressonância magnética de pacientes com EM, utilizando as sequências FLAIR e PSIR. Resultados: Foram incluídos 71 pacientes com EM. Em PSIR detectou-se 1,5× mais lesões do que em FLAIR, com concordância satisfatória entre examinadores na identificação de lesões corticais, com coeficiente kappa de resposta livre (κFR) = 0,60, e na reclassificação topográfica das lesões, com κFR médio = 0,57. Os avaliadores reclassificaram 366 lesões em PSIR (20% das lesões detectadas em FLAIR), com excelente concordância. Houve correlação significativa do total de lesões detectadas em PSIR e o escore da escala de incapacidade EDSS (ρ = 0,35; p < 0,001). Conclusão: PSIR mostrou-se superior na detecção de lesões corticais e na classificação topográfica destas em comparação ao FLAIR, com concordâncias entre examinadores clinicamente satisfatórias. A associação significativa entre o número de lesões corticais em PSIR e o grau de incapacidade dos pacientes pode influenciar em decisões terapêuticas.

18.
Gac. méd. Méx ; Gac. méd. Méx;159(5): 390-397, sep.-oct. 2023. graf
Artículo en Español | LILACS-Express | LILACS | ID: biblio-1534466

RESUMEN

Resumen Antecedentes: La aparición temprana de serotonina en el cerebro fetal y sus efectos en la morfogénesis cerebral apoyan su papel neurotrófico. Objetivo: Determinar la presencia de células serotoninérgicas y la expresión de triptófano-5-hidroxilasa (TPH), 5-hidroxitriptamina (5-HT), transportador de serotonina (SERT), receptor 5-HT1A y Pet-1 durante el desarrollo de la corteza cerebral, tanto in situ como en cultivo de tejidos. Material y métodos: Se realizó estudio observacional descriptivo en ratas Wistar preñadas. La presencia del tapón se consideró el inicio de la gestación; en los días 13, 16 y 17 se practicaron cesáreas para obtener los fetos e inmediatamente se disecaron los cerebros para identificar células serotoninérgicas, TPH, 5-HT, SERT, 5-HT1A y Pet-1 en cultivo de tejido e in situ mediante inmunomarcaje detectado en un microscopio confocal. Resultados: Células y terminales serotoninérgicas fueron observadas en el mesencéfalo el día 17 de gestación y en cocultivos de neopalio los días 13 y 16. También se observaron células inmunopositivas a TPH, 5-HT, SERT y Pet-1 en el neopalio en el día 12 del cultivo. Conclusiones: Se confirmó la presencia de células serotoninérgicas y otros elementos del sistema serotoninérgico en la corteza cerebral temprana, la cual puede ser transitoria y participar en los procesos de maduración cortical durante el desarrollo cerebral.


Abstract Background: Early appearance of serotonin in the fetal brain and its effects on brain morphogenesis support its neurotrophic role. Objective: To determine the presence of serotonergic cells and the expression of tryptophan-5-hydroxylase (TPH), 5-hydroxytryptamine (5-HT), serotonin transporter (SERT), 5-HT1A receptor and Pet-1 during the development of the cerebral cortex, both in situ and in tissue cultures. Material and methods: A descriptive, observational study was carried out in pregnant Wistar rats. The presence of the plug was regarded as the beginning of gestation. On days 13, 16 and 17, cesarean sections were performed to obtain the fetuses, and the brains were then immediately dissected to identify the presence of serotonergic cells, TPH, 5-HT, SERT, 5-HT1A and Pet-1 in tissue cultures and in situ by immunostaining detected on a confocal microscope. Results: Serotonergic cells and terminals were observed in the midbrain on day 17 of gestation, and in neopallium cocultures on days 13 and 16. TPH, 5-HT, SERT and Pet-1 immunopositive cells were also observed in the neopallium on day 12 of culture. Conclusions: The presence of serotonergic cells and other elements of the serotonergic system in the early cerebral cortex was confirmed, which may be transient and participate in cortical maturation processes during brain development.

19.
Exp Brain Res ; 241(11-12): 2591-2604, 2023 Dec.
Artículo en Inglés | MEDLINE | ID: mdl-37725136

RESUMEN

Neuropathic pain (NP) represents a complex disorder with sensory, cognitive, and emotional symptoms. The medial prefrontal cortex (mPFC) takes critical regulatory roles and may change functionally and morphologically during chronic NP. There needs to be a complete understanding of the neurophysiological and psychopharmacological bases of the NP phenomenon. This study aimed to investigate the participation of the infralimbic division (IFL) of the mPFC in chronic NP, as well as the role of the N-methyl-D-aspartic acid receptor (NMDAr) in the elaboration of chronic NP. Male Wistar rats were submitted to the von Frey and acetone tests to assess mechanical and cold allodynia after 21 days of chronic constriction injury (CCI) of the sciatic nerve or Sham-procedure ("false operated"). Electrical neurostimulation of the IFL/mPFC was performed by low-frequency stimuli (20 µA, 100 Hz) applied for 15 s by deep brain stimulation (DBS) device 21 days after CCI. Either cobalt chloride (CoCl2 at 1.0 mM/200 nL), NMDAr agonist (at 0.25, 1.0, and 2.0 nmol/200 nL) or physiological saline (200 nL) was administered into the IFL/mPFC. CoCl2 administration in the IFL cortex did not alter either mechanical or cold allodynia. DBS stimulation of the IFL cortex decreased mechanical allodynia in CCI rats. Chemical stimulation of the IFL cortex by an NMDA agonist (at 2.0 nmol) decreased mechanical allodynia. NMDA at any dose (0.25, 1.0, and 2.0 nmol) reduced the flicking/licking duration in the cold test. These findings suggest that the IFL/mPFC and the NMDAr of the neocortex are involved in attenuating chronic NP in rats.


Asunto(s)
Hiperalgesia , Neuralgia , Ratas , Masculino , Animales , N-Metilaspartato/farmacología , Dimensión del Dolor , Ratas Wistar , Neuralgia/terapia , Receptores de N-Metil-D-Aspartato/metabolismo , Corteza Prefrontal/metabolismo
20.
Acta neurol. colomb ; 39(3)sept. 2023.
Artículo en Español | LILACS | ID: biblio-1533504

RESUMEN

Introducción: la necrosis laminar cortical es un término radiológico que describe la presencia de lesiones hiperdensas de localización cerebral, las cuales siguen una distribución giriforme y se observan con mayor sensibilidad en los estudios de resonancia magnética cerebral (RM). Esta condición patológica, que afecta a la corteza del cerebro, suele ser secundaria a una depleción de sus fuentes energéticas como consecuencia de hipoxia cerebral, alteraciones metabólicas, hipoglicemia, falla renal o hepática, intoxicaciones o infecciones. Presentación del caso: se reporta el caso de un hombre de 23 años, con antecedente de consumo crónico de alcohol, quien ingresó al servicio de urgencias de nuestra institución con un estado epiléptico. El estudio de resonancia magnética cerebral demostró la presencia de una necrosis laminar cortical con posterior déficit neurocognitivo y funcional. Conclusión: si se consideran las secuelas neurológicas potenciales asociadas a un estado epiléptico, relacionadas con necrosis laminar cortical cerebral, es necesario hacer un diagnóstico etiológico precoz, así como una atención terapéutica temprana a los pacientes.


Introduction: Cortical laminar necrosis (CLN) is radiologically defined as high-intensity cortical lesions on T1-weighted MRI images that follow a gyral distribution in the brain. Histopathologically, this pathological condition is characterized by necrosis of the cortex involving neurons, glial cells, and blood vessels. It is usually triggered by hypoxia, metabolic alterations, drugs, intoxications, or infections. Case description: We report the case of a 23-year-old man with a history of chronic alcohol abuse who was admitted to our institution with status epilepticus. The brain magnetic resonance imaging performed on this patient showed cortical laminar necrosis associated with subsequent neurocognitive deficits. Conclusion: Due to the potential neurological sequelae secondary to status epilepticus in relation to cortical laminar necrosis as permanent brain damage, it is necessary to provide early diagnosis and treatment for these patients.


Asunto(s)
Estado Epiléptico , Hipoxia Encefálica , Corteza Cerebral , Neuroimagen
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