18 results on '"Erika Orta-Salazar"'
Search Results
2. Advancing Alzheimer’s Therapeutics: Exploring the Impact of Physical Exercise in Animal Models and Patients
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Jesús Andrade-Guerrero, Paola Rodríguez-Arellano, Nayeli Barron-Leon, Erika Orta-Salazar, Carlos Ledesma-Alonso, Sofía Díaz-Cintra, and Luis O. Soto-Rojas
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physical exercise ,physical activity ,neuroprotection ,animal model ,Alzheimer’s disease ,Cytology ,QH573-671 - Abstract
Alzheimer’s disease (AD) is the main neurodegenerative disorder characterized by several pathophysiological features, including the misfolding of the tau protein and the amyloid beta (Aβ) peptide, neuroinflammation, oxidative stress, synaptic dysfunction, metabolic alterations, and cognitive impairment. These mechanisms collectively contribute to neurodegeneration, necessitating the exploration of therapeutic approaches with multiple targets. Physical exercise has emerged as a promising non-pharmacological intervention for AD, with demonstrated effects on promoting neurogenesis, activating neurotrophic factors, reducing Aβ aggregates, minimizing the formation of neurofibrillary tangles (NFTs), dampening inflammatory processes, mitigating oxidative stress, and improving the functionality of the neurovascular unit (NVU). Overall, the neuroprotective effects of exercise are not singular, but are multi-targets. Numerous studies have investigated physical exercise’s potential in both AD patients and animal models, employing various exercise protocols to elucidate the underlying neurobiological mechanisms and effects. The objective of this review is to analyze the neurological therapeutic effects of these exercise protocols in animal models and compare them with studies conducted in AD patients. By translating findings from different approaches, this review aims to identify opportune, specific, and personalized therapeutic windows, thus advancing research on the use of physical exercise with AD patients.
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- 2023
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3. Protective effects of intracerebroventricular adiponectin against olfactory impairments in an amyloid β1–42 rat model
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Mara A. Guzmán-Ruiz, Amor Herrera-González, Adriana Jiménez, Alan Candelas-Juárez, Crystal Quiroga-Lozano, Claudia Castillo-Díaz, Erika Orta-Salazar, Diana Organista-Juárez, Sofía Díaz-Cintra, and Rosalinda Guevara-Guzmán
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Adiponectin ,Amyloid-beta ,Alzheimer disease model ,Hippocampus ,Olfactory bulb ,Olfactory dysfunction ,Neurosciences. Biological psychiatry. Neuropsychiatry ,RC321-571 ,Neurophysiology and neuropsychology ,QP351-495 - Abstract
Abstract Background Alzheimer’s disease (AD) is characterized by cognitive impairment that eventually develops into dementia. Amyloid-beta (Aβ) accumulation is a widely described hallmark in AD, and has been reported to cause olfactory dysfunction, a condition considered an early marker of the disease associated with injuries in the olfactory bulb (OB), the hippocampus (HIPP) and other odor-related cortexes. Adiponectin (APN) is an adipokine with neuroprotective effects. Studies have demonstrated that APN administration decreases Aβ neurotoxicity and Tau hyperphosphorylation in the HIPP, reducing cognitive impairment. However, there are no studies regarding the neuroprotective effects of APN in the olfactory dysfunction observed in the Aβ rat model. The aim of the present study is to determine whether the intracerebroventricular (i.c.v) administration of APN prevents the early olfactory dysfunction in an i.c.v Amyloid-beta1–42 (Aβ1–42) rat model. Hence, we evaluated olfactory function by using a battery of olfactory tests aimed to assess olfactory memory, discrimination and detection in the Aβ rat model treated with APN. In addition, we determined the number of cells expressing the neuronal nuclei (NeuN), as well as the number of microglial cells by using the ionized calcium-binding adapter molecule 1 (Iba-1) marker in the OB and, CA1, CA3, hilus and dentate gyrus (DG) in the HIPP. Finally, we determined Arginase-1 expression in both nuclei through Western blot. Results We observed that the i.c.v injection of Aβ decreased olfactory function, which was prevented by the i.c.v administration of APN. In accordance with the olfactory impairment observed in i.c.v Aβ-treated rats, we observed a decrease in NeuN expressing cells in the glomerular layer of the OB, which was also prevented with the i.c.v APN. Furthermore, we observed an increase of Iba-1 cells in CA1, and DG in the HIPP of the Aβ rats, which was prevented by the APN treatment. Conclusion The present study describes the olfactory impairment of Aβ treated rats and evidences the protective role that APN plays in the brain, by preventing the olfactory impairment induced by Aβ1–42. These results may lead to APN-based pharmacological therapies aimed to ameliorate AD neurotoxic effects.
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- 2021
- Full Text
- View/download PDF
4. Hippocampal Unicellular Recordings and Hippocampal-dependent Innate Behaviors in an Adolescent Mouse Model of Alzheimer’s disease
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Siddhartha Mondragón-Rodríguez, Benito Ordaz, Erika Orta-Salazar, Sofia Díaz-Cintra, Fernando Peña-Ortega, and George Perry
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Biology (General) ,QH301-705.5 - Abstract
Transgenic mice have been used to make valuable contributions to the field of neuroscience and model neurological diseases. The simultaneous functional analysis of hippocampal cell activity combined with hippocampal dependent innate task evaluations provides a reliable experimental approach to detect fine changes during early phases of neurodegeneration. To this aim, we used a merge of patch-clamp with two hippocampal innate behavior tasks. With this experimental approach, whole-cell recordings of CA1 pyramidal cells, combined with hippocampal-dependent innate behaviors, have been crucial for evaluating the early mechanism of neurodegeneration and its consequences. Here, we present our protocol for ex vivo whole-cell recordings of CA1 pyramidal cells and hippocampal dependent innate behaviors in an adolescent (p30) mice.
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- 2020
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- View/download PDF
5. Correction to: Protective effects of intracerebroventricular adiponectin against olfactory impairments in an amyloid β1–42 rat model
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Mara A. Guzmán-Ruiz, Amor Herrera-González, Adriana Jiménez, Alan Candelas-Juárez, Crystal Quiroga-Lozano, Claudia Castillo-Díaz, Erika Orta-Salazar, Diana Organista-Juárez, Sofía Díaz-Cintra, and Rosalinda Guevara-Guzmán
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Neurosciences. Biological psychiatry. Neuropsychiatry ,RC321-571 ,Neurophysiology and neuropsychology ,QP351-495 - Abstract
An amendment to this paper has been published and can be accessed via the original article.
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- 2021
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6. Effects of Voluntary Physical Exercise on the Neurovascular Unit in a Mouse Model of Alzheimer’s Disease
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Soto-Rojas, Jesús Andrade-Guerrero, Erika Orta-Salazar, Citlaltepetl Salinas-Lara, Carlos Sánchez-Garibay, Luis Daniel Rodríguez-Hernández, Isaac Vargas-Rodríguez, Nayeli Barron-Leon, Carlos Ledesma-Alonso, Sofía Diaz-Cintra, and Luis O.
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Alzheimer’s disease ,physical exercise ,neurovascular unit ,pericytes ,basal membrane ,astrocytic end-feet ,cerebral amyloid angiopathy ,cognition - Abstract
Alzheimer’s disease (AD) is the most common neurodegenerative disorder worldwide. Histopathologically, AD presents two pathognomonic hallmarks: (1) neurofibrillary tangles, characterized by intracellular deposits of hyperphosphorylated tau protein, and (2) extracellular amyloid deposits (amyloid plaques) in the brain vasculature (cerebral amyloid angiopathy; CAA). It has been proposed that vascular amyloid deposits could trigger neurovascular unit (NVU) dysfunction in AD. The NVU is composed primarily of astrocytic feet, endothelial cells, pericytes, and basement membrane. Although physical exercise is hypothesized to have beneficial effects against AD, it is unknown whether its positive effects extend to ameliorating CAA and improving the physiology of the NVU. We used the triple transgenic animal model for AD (3xTg-AD) at 13 months old and analyzed through behavioral and histological assays, the effect of voluntary physical exercise on cognitive functions, amyloid angiopathy, and the NVU. Our results show that 3xTg-AD mice develop vascular amyloid deposits which correlate with cognitive deficits and NVU alteration. Interestingly, the physical exercise regimen decreases amyloid angiopathy and correlates with an improvement in cognitive function as well as in the underlying integrity of the NVU components. Physical exercise could represent a key therapeutic approach in cerebral amyloid angiopathy and NVU stability in AD patients.
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- 2023
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7. Hyperphosphorylated Tau Relates to Improved Cognitive Performance and Reduced Hippocampal Excitability in the Young rTg4510 Mouse Model of Tauopathy
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Lorena Xolalpa-Cueva, Carlos Antonio García-Carlos, Rocío Villaseñor-Zepeda, Erika Orta-Salazar, Sofia Díaz-Cintra, Fernando Peña-Ortega, George Perry, and Siddhartha Mondragón-Rodríguez
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General Neuroscience ,Mice, Transgenic ,tau Proteins ,General Medicine ,Hippocampus ,Disease Models, Animal ,Mice ,Psychiatry and Mental health ,Clinical Psychology ,Cognition ,Tauopathies ,Animals ,Humans ,Geriatrics and Gerontology - Abstract
Background: Tau hyperphosphorylation at several sites, including those close to its microtubule domain (MD), is considered a key pathogenic event in the development of tauopathies. Nevertheless, we recently demonstrated that at the very early disease stage, tau phosphorylation (pTau) at MD sites promotes neuroprotection by preventing seizure-like activity. Objective: To further support the notion that very early pTau is not detrimental, the present work evaluated the young rTg4510 mouse model of tauopathy as a case study. Thus, in mice at one month of age (PN30-35), we studied the increase of pTau within the hippocampal area as well as hippocampal and locomotor function. Methods: We used immunohistochemistry, T-maze, nesting test, novel object recognition test, open field arena, and electrophysiology. Results: Our results showed that the very young rTg4510 mouse model has no detectable changes in hippocampal dependent tasks, such as spontaneous alternation and nesting, or in locomotor activity. However, at this very early stage the hippocampal neurons from PN30-35 rTg4510 mice accumulate pTau protein and exhibit changes in hippocampal oscillatory activity. Moreover, we found a significant reduction in the somatic area of pTau positive pyramidal and granule neurons in the young rTg4510 mice. Despite this, improved memory and increased number of dendrites per cell in granule neurons was found. Conclusion: Altogether, this study provides new insights into the early pathogenesis of tauopathies and provides further evidence that pTau remodels hippocampal function and morphology.
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- 2022
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8. Ten Approaches That Improve Immunostaining: A Review of the Latest Advances for the Optimization of Immunofluorescence
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Ricardo Piña, Alma I. Santos-Díaz, Erika Orta-Salazar, Azucena Ruth Aguilar-Vazquez, Carola A. Mantellero, Isabel Acosta-Galeana, Argel Estrada-Mondragon, Mara Prior-Gonzalez, Jadir Isai Martinez-Cruz, and Abraham Rosas-Arellano
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QH301-705.5 ,immunohistofluorescence ,Fluorescent Antibody Technique ,Catalysis ,Antibodies ,Analytical Chemistry ,Inorganic Chemistry ,immunolocalization ,antibody ,Analytisk kemi ,Physical and Theoretical Chemistry ,Biology (General) ,Molecular Biology ,QD1-999 ,Spectroscopy ,Fluorescent Dyes ,immunocytofluorescence ,immunolabeling ,signal-to-noise ratio ,unmask epitopes ,Microscopy, Confocal ,Staining and Labeling ,Organic Chemistry ,General Medicine ,Computer Science Applications ,Chemistry - Abstract
Immunostaining has emerged as one of the most common and valuable techniques that allow the localization of proteins at a quantitative level within cells and tissues using antibodies coupled to enzymes, fluorochromes, or colloidal nanogold particles. The application of fluorochromes during immunolabeling is referred to as immunofluorescence, a method coupled to widefield or confocal microscopy and extensively applied in basic research and clinical diagnosis. Notwithstanding, there are still disadvantages associated with the application of this technique due to technical challenges in the process, such as sample fixation, permeabilization, antibody incubation times, and fluid exchange, etc. These disadvantages call for continuous updates and improvements to the protocols extensively described in the literature. This review contributes to protocol optimization, outlining 10 current methods for improving sample processing in different stages of immunofluorescence, including a section with further recommendations. Additionally, we have extended our own antibody signal enhancer method, which was reported to significantly increase antibody signals and is useful for cervical cancer detection, to improve the signals of fluorochrome-conjugated staining reagents in fibrous tissues. In summary, this review is a valuable tool for experienced researchers and beginners when planning or troubleshooting the immunofluorescence assay. Funding Agencies|Proyecto DIUMCE [25-2021PGI]; Consejo Nacional de Ciencia y Tecnologia, Mexico (CONACYT)Consejo Nacional de Ciencia y Tecnologia (CONACyT) [858866, 950670]; Fondo Leon F. Cintra McGlone; Computo; IFC-UNAM
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- 2021
9. Functional study in the young rTg4510 mouse model of tauopathy
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Siddhartha Mondragón‐Rodríguez, Lorena Cueva‐Xolalpa, Carlos García‐Carlos, Rocío Villaseñor‐Zepeda, Erika Orta‐Salazar, Sofia Díaz‐Cintra, Fernando Peña‐Ortega, and George Perry
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Psychiatry and Mental health ,Cellular and Molecular Neuroscience ,Developmental Neuroscience ,Epidemiology ,Health Policy ,Neurology (clinical) ,Geriatrics and Gerontology - Published
- 2021
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10. Primary motor cortex alterations in Alzheimer disease: a study in the 3xTg-AD model
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Sofía Díaz-Cintra, Erika Orta-Salazar, and Alfredo Feria-Velasco
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Tau protein ,Hippocampus ,Mice, Transgenic ,Mice ,03 medical and health sciences ,0302 clinical medicine ,Alzheimer Disease ,Cortex (anatomy) ,medicine ,Extracellular ,Animals ,Cell damage ,biology ,business.industry ,Motor Cortex ,medicine.disease ,Disease Models, Animal ,medicine.anatomical_structure ,biology.protein ,Female ,Neuron ,Primary motor cortex ,Alzheimer's disease ,business ,Neuroscience ,030217 neurology & neurosurgery - Abstract
Introduction In humans and animal models, Alzheimer disease (AD) is characterised by accumulation of amyloid-β peptide (Aβ) and hyperphosphorylated tau protein, neuronal degeneration, and astrocytic gliosis, especially in vulnerable brain regions (hippocampus and cortex). These alterations are associated with cognitive impairment (loss of memory) and non-cognitive impairment (motor impairment). The purpose of this study was to identify cell changes (neurons and glial cells) and aggregation of Aβ and hyperphosphorylated tau protein in the primary motor cortex (M1) in 3xTg-AD mouse models at an intermediate stage of AD. Methods We used female 3xTg-AD mice aged 11 months and compared them to non-transgenic mice of the same age. In both groups, we assessed motor performance (open field test) and neuronal damage in M1 using specific markers: BAM10 (extracellular Aβ aggregates), tau 499 (hyperphosphorylated tau protein), GFAP (astrocytes), and Kluver-Barrera staining (neurons). Results Female 3xTg-AD mice in intermediate stages of the disease displayed motor and cellular alterations associated with Aβ and hyperphosphorylated tau protein deposition in M1. Conclusions Patients with AD display signs and symptoms of functional impairment from early stages. According to our results, M1 cell damage in intermediate-stage AD affects motor function, which is linked to progression of the disease.
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- 2019
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11. Alteraciones en la corteza motora primaria en la enfermedad de Alzheimer: estudio en el modelo 3xTg-AD
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Sofía Díaz-Cintra, Erika Orta-Salazar, and Alfredo Feria-Velasco
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0301 basic medicine ,03 medical and health sciences ,030104 developmental biology ,0302 clinical medicine ,Neurology (clinical) ,030217 neurology & neurosurgery ,lcsh:Neurology. Diseases of the nervous system ,lcsh:RC346-429 - Abstract
Resumen: Introducción: En el cerebro del humano y en el de modelos animales, la enfermedad de Alzheimer (EA) se caracteriza por la acumulación del péptido β-amiloide (βA), de la proteína tau hiperfosforilada, degeneración neuronal y gliosis astrocítica que son prominentes en regiones cerebrales vulnerables (hipocampo y corteza). Estas alteraciones se relacionan con el deterioro cognitivo (pérdida de la memoria) y no cognitivo en la función motora. El objetivo de este trabajo fue identificar en el modelo (3xTg-AD) los cambios celulares (neuronas y astroglía) y la agregación de βA y tau hiperfosforilada en la corteza motora primaria (M1) en una etapa intermedia de la EA y su relación con el desempeño motor. Métodos: Se utilizaron hembras 3xTg-AD de 11 meses de edad, comparadas con no transgénicas (No-Tg) de la misma edad. En ambos grupos, se evaluaron el desempeño motor (campo abierto) y el daño celular con marcadores específicos: BAM10 (agregados βA extracelulares), tau 499 (hiperfosforilada), GFAP (astrocitos) y Klüver-Barrera (neuronas) en la M1. Resultados: Las hembras 3xTg-AD en etapa intermedia de la patología mostraron alteraciones motoras y celulares asociadas al depósito de βA y tau hiperfosforilada en la M1. Conclusiones: Desde etapas tempranas de la EA se observan signos y síntomas de deterioro funcional. Sin embargo, en este estudio reportamos que en la etapa intermedia de la patología se encuentran establecidas las características de daño en la M1 asociadas al desempeño motor. Eventos que se relacionan con el avance de las características clínicas de la patología. Abstract: Introduction: In humans and animal models, Alzheimer disease (AD) is characterised by accumulation of amyloid-β peptide (Aβ) and hyperphosphorylated tau protein, neuronal degeneration, and astrocytic gliosis, especially in vulnerable brain regions (hippocampus and cortex). These alterations are associated with cognitive impairment (loss of memory) and non-cognitive impairment (motor impairment). The purpose of this study was to identify cell changes (neurons and glial cells) and aggregation of Aβ and hyperphosphorylated tau protein in the primary motor cortex (M1) in 3xTg-AD mouse models at an intermediate stage of AD. Methods: We used female 3xTg-AD mice aged 11 months and compared them to non-transgenic mice of the same age. In both groups, we assessed motor performance (open field test) and neuronal damage in M1 using specific markers: BAM10 (extracellular Aβ aggregates), tau 499 (hyperphosphorylated tau protein), GFAP (astrocytes), and Klüver-Barrera staining (neurons). Results: Female 3xTg-AD mice in intermediate stages of the disease displayed motor and cellular alterations associated with Aβ and hyperphosphorylated tau protein deposition in M1. Conclusions: Patients with AD display signs and symptoms of functional impairment from early stages. According to our results, M1 cell damage in intermediate-stage AD affects motor function, which is linked to progression of the disease. Palabras clave: Enfermedad de Alzheimer, Ratón triple transgénico, Corteza motora primaria, Neurona, Glía, Keywords: Alzheimer disease, Triple transgenic mouse model, Primary motor cortex, Neuron, Glia
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- 2019
12. Protective effects of intracerebroventricular adiponectin against olfactory impairments in an amyloid β1–42 rat model
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Sofía Díaz-Cintra, Amor Herrera-González, Erika Orta-Salazar, Mara A. Guzmán-Ruiz, Diana Organista-Juárez, Crystal Quiroga-Lozano, Claudia Castillo-Díaz, Alan Candelas-Juárez, Adriana Jiménez, and Rosalinda Guevara-Guzmán
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Olfactory system ,medicine.medical_specialty ,Amyloid beta ,Hippocampus ,Olfactory dysfunction ,lcsh:RC321-571 ,03 medical and health sciences ,Cellular and Molecular Neuroscience ,0302 clinical medicine ,Olfactory bulb ,Internal medicine ,medicine ,Olfactory memory ,lcsh:Neurosciences. Biological psychiatry. Neuropsychiatry ,030304 developmental biology ,0303 health sciences ,biology ,business.industry ,General Neuroscience ,Dentate gyrus ,lcsh:QP351-495 ,Neurotoxicity ,medicine.disease ,lcsh:Neurophysiology and neuropsychology ,Endocrinology ,biology.protein ,Adiponectin ,Alzheimer disease model ,NeuN ,Amyloid-beta ,business ,030217 neurology & neurosurgery ,hormones, hormone substitutes, and hormone antagonists ,Research Article - Abstract
Background Alzheimer’s disease (AD) is characterized by cognitive impairment that eventually develops into dementia. Amyloid-beta (Aβ) accumulation is a widely described hallmark in AD, and has been reported to cause olfactory dysfunction, a condition considered an early marker of the disease associated with injuries in the olfactory bulb (OB), the hippocampus (HIPP) and other odor-related cortexes. Adiponectin (APN) is an adipokine with neuroprotective effects. Studies have demonstrated that APN administration decreases Aβ neurotoxicity and Tau hyperphosphorylation in the HIPP, reducing cognitive impairment. However, there are no studies regarding the neuroprotective effects of APN in the olfactory dysfunction observed in the Aβ rat model. The aim of the present study is to determine whether the intracerebroventricular (i.c.v) administration of APN prevents the early olfactory dysfunction in an i.c.v Amyloid-beta1–42 (Aβ1–42) rat model. Hence, we evaluated olfactory function by using a battery of olfactory tests aimed to assess olfactory memory, discrimination and detection in the Aβ rat model treated with APN. In addition, we determined the number of cells expressing the neuronal nuclei (NeuN), as well as the number of microglial cells by using the ionized calcium-binding adapter molecule 1 (Iba-1) marker in the OB and, CA1, CA3, hilus and dentate gyrus (DG) in the HIPP. Finally, we determined Arginase-1 expression in both nuclei through Western blot. Results We observed that the i.c.v injection of Aβ decreased olfactory function, which was prevented by the i.c.v administration of APN. In accordance with the olfactory impairment observed in i.c.v Aβ-treated rats, we observed a decrease in NeuN expressing cells in the glomerular layer of the OB, which was also prevented with the i.c.v APN. Furthermore, we observed an increase of Iba-1 cells in CA1, and DG in the HIPP of the Aβ rats, which was prevented by the APN treatment. Conclusion The present study describes the olfactory impairment of Aβ treated rats and evidences the protective role that APN plays in the brain, by preventing the olfactory impairment induced by Aβ1–42. These results may lead to APN-based pharmacological therapies aimed to ameliorate AD neurotoxic effects.
- Published
- 2021
13. Hippocampal Unicellular Recordings and Hippocampal-dependent Innate Behaviors in an Adolescent Mouse Model of Alzheimer’s disease
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George Perry, Siddhartha Mondragón-Rodríguez, Fernando Peña-Ortega, Benito Ordaz, Sofía Díaz-Cintra, and Erika Orta-Salazar
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Genetically modified mouse ,Mechanism (biology) ,Strategy and Management ,Mechanical Engineering ,Neurodegeneration ,Metals and Alloys ,Hippocampus ,Disease ,Hippocampal formation ,Biology ,medicine.disease ,Industrial and Manufacturing Engineering ,Methods Article ,medicine ,Patch clamp ,Neuroscience ,Functional analysis (psychology) - Abstract
Transgenic mice have been used to make valuable contributions to the field of neuroscience and model neurological diseases. The simultaneous functional analysis of hippocampal cell activity combined with hippocampal dependent innate task evaluations provides a reliable experimental approach to detect fine changes during early phases of neurodegeneration. To this aim, we used a merge of patch-clamp with two hippocampal innate behavior tasks. With this experimental approach, whole-cell recordings of CA1 pyramidal cells, combined with hippocampal-dependent innate behaviors, have been crucial for evaluating the early mechanism of neurodegeneration and its consequences. Here, we present our protocol for ex vivo whole-cell recordings of CA1 pyramidal cells and hippocampal dependent innate behaviors in an adolescent (p30) mice.
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- 2020
- Full Text
- View/download PDF
14. Phosphorylation of Tau protein correlates with changes in hippocampal theta oscillations and reduces hippocampal excitability in Alzheimer's model
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Siddhartha Mondragón-Rodríguez, Sofía Díaz-Cintra, Martín Macías, Sylvain Williams, Fernando Peña-Ortega, Azucena Aguilar-Vázquez, Benito Ordaz, George Perry, Erika Orta-Salazar, Perla González-Pereyra, and Anahí Salas-Gallardo
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Male ,0301 basic medicine ,Tau protein ,Action Potentials ,Hyperphosphorylation ,Mice, Transgenic ,tau Proteins ,Hippocampal formation ,Hippocampus ,Biochemistry ,Pathogenesis ,Mice ,03 medical and health sciences ,0302 clinical medicine ,Neurobiology ,Alzheimer Disease ,medicine ,Animals ,Phosphorylation ,Theta Rhythm ,Molecular Biology ,Cells, Cultured ,biology ,Chemistry ,Pyramidal Cells ,Potassium channel blocker ,Cell Biology ,medicine.disease ,Disease Models, Animal ,030104 developmental biology ,nervous system ,biology.protein ,Tauopathy ,Alzheimer's disease ,Neuroscience ,030217 neurology & neurosurgery ,medicine.drug - Abstract
Tau hyperphosphorylation at several sites, including those close to the microtubule domain region (MDr), is considered a key pathological event in the development of Alzheimer's disease (AD). Recent studies indicate that at the very early stage of this disease, increased phosphorylation in Tau's MDr domain correlates with reduced levels of neuronal excitability. Mechanistically, we show that pyramidal neurons and some parvalbumin-positive interneurons in 1-month-old triple-transgenic AD mice accumulate hyperphosphorylated Tau protein and that this accumulation correlates with changes in theta oscillations in hippocampal neurons. Pyramidal neurons from young triple-transgenic AD mice exhibited less spike accommodation and power increase in subthreshold membrane oscillations. Furthermore, triple-transgenic AD mice challenged with the potassium channel blocker 4-aminopyridine had reduced theta amplitude compared with 4-aminopyridine–treated control mice and, unlike these controls, displayed no seizure-like activity after this challenge. Collectively, our results provide new insights into AD pathogenesis and suggest that increases in Tau phosphorylation at the initial stages of the disease represent neuronal responses that compensate for brain circuit overexcitation.
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- 2018
- Full Text
- View/download PDF
15. Correction to: Protective effects of intracerebroventricular adiponectin against olfactory impairments in an amyloid β1–42 rat model
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Claudia Castillo-Díaz, Sofía Díaz-Cintra, Amor Herrera-González, Adriana Jiménez, Rosalinda Guevara-Guzmán, Crystal Quiroga-Lozano, Diana Organista-Juárez, Mara A. Guzmán-Ruiz, Alan Candelas-Juárez, and Erika Orta-Salazar
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Male ,Neurophysiology and neuropsychology ,medicine.medical_specialty ,Rat model ,Amyloid β1 42 ,Neurosciences. Biological psychiatry. Neuropsychiatry ,Cellular and Molecular Neuroscience ,Olfaction Disorders ,Text mining ,Alzheimer Disease ,Internal medicine ,medicine ,Animals ,Rats, Wistar ,Injections, Intraventricular ,Amyloid beta-Peptides ,Adiponectin ,business.industry ,Chemistry ,General Neuroscience ,QP351-495 ,Correction ,Brain ,Rats ,Disease Models, Animal ,Endocrinology ,Neuroprotective Agents ,business ,RC321-571 - Abstract
Alzheimer's disease (AD) is characterized by cognitive impairment that eventually develops into dementia. Amyloid-beta (Aβ) accumulation is a widely described hallmark in AD, and has been reported to cause olfactory dysfunction, a condition considered an early marker of the disease associated with injuries in the olfactory bulb (OB), the hippocampus (HIPP) and other odor-related cortexes. Adiponectin (APN) is an adipokine with neuroprotective effects. Studies have demonstrated that APN administration decreases Aβ neurotoxicity and Tau hyperphosphorylation in the HIPP, reducing cognitive impairment. However, there are no studies regarding the neuroprotective effects of APN in the olfactory dysfunction observed in the Aβ rat model. The aim of the present study is to determine whether the intracerebroventricular (i.c.v) administration of APN prevents the early olfactory dysfunction in an i.c.v Amyloid-betaWe observed that the i.c.v injection of Aβ decreased olfactory function, which was prevented by the i.c.v administration of APN. In accordance with the olfactory impairment observed in i.c.v Aβ-treated rats, we observed a decrease in NeuN expressing cells in the glomerular layer of the OB, which was also prevented with the i.c.v APN. Furthermore, we observed an increase of Iba-1 cells in CA1, and DG in the HIPP of the Aβ rats, which was prevented by the APN treatment.The present study describes the olfactory impairment of Aβ treated rats and evidences the protective role that APN plays in the brain, by preventing the olfactory impairment induced by Aβ
- Published
- 2021
16. Morris water maze overtraining increases the density of thorny excrescences in the basal dendrites of CA3 pyramidal neurons
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Gina L. Quirarte, Víctor Ramírez-Amaya, Eurídice Gómez-Padilla, Erika Orta-Salazar, Uriel León-Jacinto, Roberto A. Prado-Alcalá, Sofía Díaz-Cintra, and Paola C. Bello-Medina
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Male ,Dendritic spine ,Memory, Long-Term ,Dendritic Spines ,CA3 ,purl.org/becyt/ford/1.7 [https] ,Hippocampus ,Morris water navigation task ,Water maze ,Biology ,purl.org/becyt/ford/1 [https] ,Rats, Sprague-Dawley ,03 medical and health sciences ,Behavioral Neuroscience ,OVERTRAINING ,0302 clinical medicine ,Morris Water Maze Test ,medicine ,Animals ,Axon ,030304 developmental biology ,Spatial Memory ,0303 health sciences ,THORNY EXCRESCENCES ,Overtraining ,Dentate gyrus ,Pyramidal Cells ,medicine.disease ,CA3 Region, Hippocampal ,DENDRITIC SPINES ,Rats ,MORRIS WATER MAZE ,medicine.anatomical_structure ,nervous system ,Practice, Psychological ,HIPPOCAMPUS ,CA3 Stratum Lucidum ,Neuroscience ,030217 neurology & neurosurgery - Abstract
The hippocampus plays a fundamental role in spatial learning and memory. Dentate gyrus (DG) granular neurons project mainly to proximal apical dendrites of neurons in the CA3 stratum lucidum and also, to some extent, to the basal dendrites of CA3 pyramidal cells in the stratum oriens. The terminal specializations of DG neurons are the mossy fibers (MF), and these huge axon terminals show expansion in the CA3 stratum oriens after the animals undergo overtraining in the Morris Water Maze task (MWM). However, to our knowledge there are no reports regarding the possible changes in density of post-synaptic targets of these terminals in the basal dendrites of CA3 neurons after overtraining in the MWM. The purpose of this work was to study the density of thorny excrescences (TE) and other dendritic spine types (stubby, thin, and mushroom) in the CA3 stratum oriens in animals overtrained in the MWM for three consecutive days and in animals trained for only one day. Seven days after MWM training, the animals were sacrificed, and their brains removed and processed for rapid Golgi staining to visualize the different types of dendritic protrusions. Our results revealed that the relative quantity of stubby, thin, and mushroom dendritic spines did not change, regardless of amount of training. However, a significant increase in the density of TE was detected in the overtrained animals. These results strongly suggest that spatial water maze overtraining induces an increased density of MF–TE connections, which might be functionally relevant for long-term spatial memory formation. Fil: Gómez Padilla, Eurídice. Universidad Autonoma de Queretaro.; México Fil: Bello Medina, Paola C.. Universidad Nacional Autónoma de México; México Fil: León Jacinto, Uriel. Universidad Nacional Autónoma de México; México Fil: Orta Salazar, Erika. Universidad Nacional Autónoma de México; México Fil: Quirarte, Gina L.. Universidad Nacional Autónoma de México; México Fil: Ramirez Amaya, Victor. Consejo Nacional de Investigaciones Científicas y Técnicas. Centro Científico Tecnológico Conicet - Córdoba. Instituto de Investigación Médica Mercedes y Martín Ferreyra. Universidad Nacional de Córdoba. Instituto de Investigación Médica Mercedes y Martín Ferreyra; Argentina. Universidad Autonoma de Queretaro.; México Fil: Prado Alcalá, Roberto A.. Universidad Nacional Autónoma de México; México Fil: Díaz Cintra, Sofía. Universidad Nacional Autónoma de México; México
- Published
- 2019
17. Corrigendum to 'Morris water maze overtraining increases the density of thorny excrescences in the basal dendrites of CA3 pyramidal neurons' [Behav. Brain Res. 379 (2020) 112373]
- Author
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Gina L. Quirarte, Erika Orta-Salazar, Víctor Ramírez-Amaya, Paola C. Bello-Medina, Uriel León-Jacinto, Roberto A. Prado-Alcalá, Sofía Díaz-Cintra, and Eurídice Padilla-Gómez
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Behavioral Neuroscience ,Basal (phylogenetics) ,Overtraining ,medicine ,Morris water navigation task ,Biology ,medicine.disease ,Neuroscience - Published
- 2020
- Full Text
- View/download PDF
18. Alzheimer's Disease: From Animal Models to the Human Syndrome
- Author
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Sofía Díaz-Cintra, Isaac Vargas‐Rodríguez, Susana A. Castro-Chavira, Erika Orta-Salazar, and Alfredo I. Feria‐Velasco
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business.industry ,Immunology ,Medicine ,Disease ,business - Published
- 2016
- Full Text
- View/download PDF
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