S100a6 knockdown promotes the differentiation of dental epithelial cells toward the epidermal lineage instead of the odontogenic lineage.

Tooth development is a complex process involving various signaling pathways and genes. Recent findings suggest that ion channels and transporters, including the S100 family of calcium-binding proteins, may be involved in tooth formation. However, our knowledge in this regard is limited. Therefore, this study aimed to investigate the expression of S100 family members and their functions during tooth formation. Tooth germs were extracted from the embryonic and post-natal mice and the expression of S100a6 was examined. Additionally, the effects of S100a6 knockdown and calcium treatment on S100a6 expression and the proliferation of SF2 cells were examined. Microarrays and single-cell RNA-sequencing indicated that S100a6 was highly expressed in ameloblasts. Immunostaining of mouse tooth germs showed that S100a6 was expressed in ameloblasts but not in the undifferentiated dental epithelium. Additionally, S100a6 was localized to the calcification-forming side in enamel-forming ameloblasts. Moreover, siRNA-mediated S100a6 knockdown in ameloblasts reduced intracellular calcium concentration and the expression of ameloblast marker genes, indicating that S100a6 is associated with ameloblast differentiation. Furthermore, S100a6 knockdown inhibited the ERK/PI3K signaling pathway, suppressed ameloblast proliferation, and promoted the differentiation of the dental epithelium toward epidermal lineage. Conclusively, S100a6 knockdown in the dental epithelium suppresses cell proliferation via calcium and intracellular signaling and promotes differentiation of the dental epithelium toward the epidermal lineage.

Cross-Reactivity of Ragweed Pollen Calcium-Binding Proteins and IgE Sensitization in a Ragweed-Allergic Population from Western Romania.

Ragweed pollen allergy is the most common seasonal allergy in western Romania. Prolonged exposure to ragweed pollen may induce sensitization to pan-allergens such as calcium-binding proteins (polcalcins) and progression to more severe symptoms. We aimed to detect IgE sensitization to recombinant Amb a 9 and Amb a 10 in a Romanian population, to assess their potential clinical relevance and cross-reactivity, as well as to investigate the relation with clinical symptoms. rAmb a 9 and rAmb a 10 produced in Escherichia coli were used to detect specific IgE in sera from 87 clinically characterized ragweed-allergic patients in ELISA, for basophil activation experiments and rabbit immunization. Rabbit rAmb a 9- and rAmb a 10-specific sera were used to detect possible cross-reactivity with rArt v 5 and reactivity towards ragweed and mugwort pollen extracts. The results showed an IgE reactivity of 25% to rAmb a 9 and 35% to rAmb a 10. rAmb a 10 induced basophil degranulation in three out of four patients tested. Moreover, polcalcin-negative patients reported significantly more skin symptoms, whereas polcalcin-positive patients tended to report more respiratory symptoms. Furthermore, both rabbit antisera showed low reactivity towards extracts and showed high reactivity to rArt v 5, suggesting strong cross-reactivity. Our study indicated that recombinant ragweed polcalcins might be considered for molecular diagnosis.

Calcium and Non-Penetrating Traumatic Brain Injury: A Proposal for the Implementation of an Early Therapeutic Treatment for Initial Head Insults.

Finding an effective treatment for traumatic brain injury is challenging for multiple reasons. There are innumerable different causes and resulting levels of damage for both penetrating and non-penetrating traumatic brain injury each of which shows diverse pathophysiological progressions. More concerning is that disease progression can take decades before neurological symptoms become obvious. Currently, the primary treatment for non-penetrating mild traumatic brain injury, also called concussion, is bed rest despite the fact the majority of emergency room visits for traumatic brain injury are due to this mild form. Furthermore, one-third of mild traumatic brain injury cases progress to long-term serious symptoms. This argues for the earliest therapeutic intervention for all mild traumatic brain injury cases which is the focus of this review. Calcium levels are greatly increased in damaged brain regions as a result of the initial impact due to tissue damage as well as disrupted ion channels. The dysregulated calcium level feedback is a diversity of ways to further augment calcium neurotoxicity. This suggests that targeting calcium levels and function would be a strong therapeutic approach. An effective calcium-based traumatic brain injury therapy could best be developed through therapeutic programs organized in professional team sports where mild traumatic brain injury events are common, large numbers of subjects are involved and professional personnel are available to oversee treatment and documentation. This review concludes with a proposal with that focus.

Calcium mediated static and dynamic allostery in S100A12: Implications for target recognition by S100 proteins.

Structure and functions of S100 proteins are regulated by two distinct calcium binding EF hand motifs. In this work, we used solution-state NMR spectroscopy to investigate the cooperativity between the two calcium binding sites and map the allosteric changes at the target binding site. To parse the contribution of the individual calcium binding events, variants of S100A12 were designed to selectively bind calcium to either the EF-I (N63A) or EF-II (E31A) loop, respectively. Detailed analysis of the backbone chemical shifts for wildtype protein and its mutants indicates that calcium binding to the canonical EF-II loop is the principal trigger for the conformational switch between 'closed' apo to the 'open' Ca2+ -bound conformation of the protein. Elimination of binding in S100-specific EF-I loop has limited impact on the calcium binding affinity of the EF-II loop and the concomitant structural rearrangement. In contrast, deletion of binding in the EF-II loop significantly attenuates calcium affinity in the EF-I loop and the structure adopts a 'closed' apo-like conformation. Analysis of experimental amide nitrogen (15 N) relaxation rates (R1 , R2 , and 15 N-{1 H} NOE) and molecular dynamics (MD) simulations demonstrate that the calcium bound state is relatively floppy with pico-nanosecond motions induced in functionally relevant domains responsible for target recognition such as the hinge domain and the C-terminal residues. Experimental relaxation studies combined with MD simulations show that while calcium binding in the EF-I loop alone does not induce significant motions in the polypeptide chain, EF-I regulates fluctuations in the polypeptide in the presence of bound calcium in the EF-II loop. These results offer novel insights into the dynamic regulation of target recognition by calcium binding and unravels the role of cooperativity between the two calcium binding events in S100A12.

Gestational VPA exposure reduces the density of juxtapositions between TH+ axons and calretinin or calbindin expressing cells in the ventrobasal forebrain of neonatal mice.

Gestational exposure to valproic acid (VPA) is a valid rodent model of human autism spectrum disorder (ASD). VPA treatment is known to bring about specific behavioral deficits of sociability, matching similar alterations in human autism. Previous quantitative morphometric studies from our laboratory showed a marked reduction and defasciculation of the mesotelencephalic dopaminergic pathway of VPA treated mice, along with a decrease in tissue dopamine in the nucleus accumbens (NAc), but not in the caudatoputamen (CPu). In the present study, the correlative distribution of tyrosine hydroxylase positive (TH+) putative axon terminals, presynaptic to the target neurons containing calretinin (CR) or calbindin (CB), was assessed using double fluorescent immunocytochemistry and confocal laser microscopy in two dopamine recipient forebrain regions, NAc and olfactory tubercle (OT) of neonatal mice (mothers injected with VPA on ED13.5, pups investigated on PD7). Representative image stacks were volumetrically analyzed for spatial proximity and abundance of presynaptic (TH+) and postsynaptic (CR+, CB+) structures with the help of an Imaris (Bitplane) software. In VPA mice, TH/CR juxtapositions were reduced in the NAc, whereas the TH/CB juxtapositions were impoverished in OT. Volume ratios of CR+ and CB+ elements remained unchanged in NAc, whereas that of CB+ was markedly reduced in OT; here the abundance of TH+ axons was also diminished. CR and CB were found to partially colocalize with TH in the VTA and SN. In VPA exposed mice, the abundance of CR+ (but not CB+) perikarya increased both in VTA and SN, however, this upregulation was not mirrored by an increase of the number of CR+/TH+ double labeled cells. The observed reduction of total CB (but not of CB+ perikarya) in the OT of VPA exposed animals signifies a diminished probability of synaptic contacts with afferent TH+ axons, presumably by reducing the available synaptic surface. Altered dopaminergic input to ventrobasal forebrain targets during late embryonic development will likely perturb the development and consolidation of neural and synaptic architecture, resulting in lasting changes of the neuronal patterning (detected here as reduced synaptic input to dopaminoceptive interneurons) in ventrobasal forebrain regions specifically involved in motivation and reward.

In silico identification of human microRNAs pointing centrin genes in Leishmania donovani: Considering the RNAi-mediated gene control.

Leishmaniasis, a parasitic disease caused by different species of the protozoa parasite Leishmania, is a neglected tropical human disease that is endemic in about a hundred countries worldwide. According to the World Health Organization (WHO), the annual incidence of cutaneous leishmaniasis (CL) is estimated to be 0.7-1.2 million cases globally, whereas the annual incidence of visceral leishmaniasis is estimated to be 0.2-0.4 million cases. In many eukaryotic organisms, including human beings and protozoan parasites, centrin genes encode proteins that play essential roles within the centrosome or basal body. Human microRNAs (miRNAs) have been linked to several infectious and non-infectious diseases associated with pathogen-host interactions, and they play the emphatic roles as gene expression regulators. In this study, we used the MirTarget bioinformatics tool, which is a machine learning-based approach implemented in miRDB, to predict the target of human miRNAs in Leishmania donovani centrin genes. For cross-validation, we utilized additional prediction algorithms, namely, RNA22 and RNAhybrid, targeting all five centrin isotypes. The centrin-3 (LDBPK_342160) and putative centrin-5 (NC_018236.1) genes in L. donovani were targeted by eight and twelve human miRNAs, respectively, among 2,635 known miRNAs (miRBase). hsa-miR-5193 consistently targeted both genes. Using TargetScan, TarBase, miRecords, and miRTarBase, we identified miRNA targets and off-targets in human homologs of centrin, inflammation, and immune-responsive genes. Significant targets were screened based on GO terminologies and KEGG pathway-enrichment analysis (Log10 p-value >0.0001). In silico tools that predict the biological roles of human miRNAs as primary gene regulators in pathogen-host interactions help unravel the regulatory patterns of these miRNAs, particularly in the early stages of inflammatory responses. It is also noted that these miRNAs played an important role in the late phase of adaptive immune response, inclusively their impacts on the immune system's response to L. donovani.

The Structural-Functional Crosstalk of the Calsequestrin System: Insights and Pathological Implications.

Calsequestrin (CASQ) is a key intra-sarcoplasmic reticulum Ca2+-handling protein that plays a pivotal role in the contraction of cardiac and skeletal muscles. Its Ca2+-dependent polymerization dynamics shape the translation of electric excitation signals to the Ca2+-induced contraction of the actin-myosin architecture. Mutations in CASQ are linked to life-threatening pathological conditions, including tubular aggregate myopathy, malignant hyperthermia, and Catecholaminergic Polymorphic Ventricular Tachycardia (CPVT). The variability in the penetrance of these phenotypes and the lack of a clear understanding of the disease mechanisms associated with CASQ mutations pose a major challenge to the development of effective therapeutic strategies. In vitro studies have mainly focused on the polymerization and Ca2+-buffering properties of CASQ but have provided little insight into the complex interplay of structural and functional changes that underlie disease. In this review, the biochemical and structural natures of CASQ are explored in-depth, while emphasizing their direct and indirect consequences for muscle Ca2+ physiology. We propose a novel functional classification of CASQ pathological missense mutations based on the structural stability of the monomer, dimer, or linear polymer conformation. We also highlight emerging similarities between polymeric CASQ and polyelectrolyte systems, emphasizing the potential for the use of this paradigm to guide further research.

S100 proteins and their implication in the thalamus: an integrative review / Las proteínas S100 y su implicación en el tálamo: una revisión integradora

SUMMARY: S100 proteins belong group of calcium-binding proteins and are present in physiological intracellular and extracellular regulatory activities, such as cell differentiation, and act in inflammatory and neoplastic pathological processes. Recently, its expressions in the nervous system have been extensively studied, seeking to elucidate its action at the level of the thalamus: A structure of the central nervous system that is part of important circuits, such as somatosensory, behavioral, memory and cognitive, as well as being responsible for the transmission and regulation of information to the cerebral cortex. This article is an integrative review of scientific literature, which analyzed 12 studies present in Pubmed. The analysis showed that the relationship of S100 proteins and the thalamus has been described in neoplastic processes, mental disorders, hypoxia, trauma, stress, infection, Parkinson's disease and epilepsy. In summary, it is possible to conclude that this protein family is relevant as a marker in processes of thalamic injury, requiring further studies to better understand its clinical, preclinical meanings and its prognostic value.

Las proteínas S100 pertenecen al grupo de proteínas fijadoras de calcio y están presentes en actividades reguladoras fisiológicas intracelulares y extracelulares, como la diferenciación celular, y actúan en procesos patológicos inflamatorios y neoplásicos. Recientemente, sus expresiones en el sistema nervioso han sido ampliamente estudiadas, buscando dilucidar su acción a nivel del tálamo: una estructura del sistema nervioso central que forma parte de importantes circuitos, como el somatosensorial, conductual, de memoria y cognitivo, así como además de ser responsable de la transmisión y regulación de la información a la corteza cerebral. Este artículo es una revisión integradora de la literatura científica, que analizó 12 estudios presentes en Pubmed. El análisis mostró que la relación de las proteínas S100 y el tálamo ha sido descrita en procesos neoplásicos, trastornos mentales, hipoxia, trauma, estrés, infección, enfermedad de Parkinson y epilepsia. En resumen, es posible concluir que esta familia de proteínas es relevante como marcador en procesos de lesión talámica, requiriendo más estudios para comprender mejor su significado clínico, preclínico y su valor pronóstico.

La inmunorreactividad a calbindina en células de purkinje del cerebelo de ratones no es afectada por la infección con virus de la rabia / Immunoreactivity to calbindin in purkinje cells in the cerebellum of mice is not affected by rabies virus infection

Introducción: La calbindina (CB) es una proteína reguladora del calcio intracelular y la célula de Purkinje del cerebelo es la neurona con más alta concentración de CB. Se ha demostrado pérdida de inmunorreactividad a CB en diferentes áreas del sistema nervioso en ratones inoculados con virus de la rabia, pero faltaba estudiar este fenómeno en el cerebelo. Objetivo: Determinar el efecto de la inoculación con virus de la rabia sobre la expresión de CB en células de Purkinje del cerebelo de ratones. Metodología: Se inocularon ratones con el virus por vía intramuscular. Se sacrificaron los animales cuando alcanzaron la fase avanzada de la enfermedad y se fijaron mediante perfusión intracardiaca con paraformaldehído al 4%. Se les extrajo el cerebelo y se hicieron cortes sagitales de 50 micrómetros de espesor en un vibrátomo. Estos se procesaron mediante inmunohistoquímica para revelar la presencia de CB o de antígenos del virus de la rabia. El mismo procedimiento se realizó con animales no infectados (controles). Resultados: Las células de Purkinje fueron masivamente infectadas con el virus de la rabia. En las imágenes panorámicas observadas en el microscopio se comprobó que sólo estas células fueron inmunorreactivas a CB. No se hallaron diferencias significativas en la inmunorreactividad a CB, evaluada por densitometría óptica, entre los animales infectados y los controles. Conclusión: La expresión de CB en las células de Purkinje del cerebelo parece no afectarse por la infección con rabia, a diferencia de lo que se ha demostrado en otras áreas del sistema nervioso del ratón.

Introduction: Calbindin (CB) is a regulatory protein of intracellular calcium, and the cerebellar Purkinje cell is the neuron with the highest concentration of CB. Loss of CB immunoreactivity has been demonstrated in different areas of the nervous system in rabies virus-infected mice, but the study of this phenomena in the cerebellum lacked. Objective: To determine the effect of inoculation with rabies virus on the expression of CB in Purkinje cells of the cerebellum of mice. Methodology: Mice were intramuscularly inoculated with rabies virus. Animals were sacrificed when they reached an advanced stage of the disease and then they were fixed by intracardiac perfusion with 4% paraformaldehyde. Cerebellums were extracted and sagittal sections 50 microns thick were obtained in a vibratome. These were processed by immunohistochemistry to reveal the presence of CB protein or rabies virus antigens. The same procedure was performed with uninfected animals (controls). Results: Purkinje cells were massively infected with rabies virus. In the microscopic panoramic images observed was found that only these cells are immunoreactive to CB. No significant difference in CB immunoreactivity evaluated by optical densitometry was found between infected animals and controls. Conclusion: The expression of CB in Purkinje cells of the cerebellum appears not to be affected by infection with rabies unlike what has been shown in other areas of the mouse nervous system.

Human prefrontal layer II interneurons in areas 46, 10 and 24 / Interneuronas de la lámina II en las áreas prefrontales 46, 10 y 24 del humano

Background: Prefrontal cortex (PFC) represents the highest level of integration and control of psychic and behavioral states. Several dysfunctions such as autism, hyperactivity disorders, depression, and schizophrenia have been related with alterations in the prefrontal cortex (PFC). Among the cortical layers of the PFC, layer II shows a particular vertical pattern of organization, the highest cell density and the biggest non-pyramidal/pyramidal neuronal ratio. We currently characterized the layer II cytoarchitecture in human areas 10, 24, and 46. Objective: We focused particularly on the inhibitory neurons taking into account that these cells are involved in sustained firing (SF) after stimuli disappearance. Methods: Postmortem samples from five subjects who died by causes different to central nervous system diseases were studied. Immunohistochemistry for the neuronal markers, NeuN, parvalbumin (PV), calbindin (CB), and calretinin (CR) were used. NeuN targeted the total neuronal population while the rest of the markers specifically the interneurons. Results: Cell density and soma size were statically different between areas 10, 46, 24 when using NeuN. Layer II of area 46 showed the highest cell density. Regarding interneurons, PV+-cells of area 46 showed the highest density and size, in accordance to the proposal of a dual origin of the cerebral cortex. Interhemispheric asymmetries were not identified between homologue areas. Conclusion: First, our findings suggest that layer II of area 46 exhibits the most powerful inhibitory system compared to the other prefrontal areas analyzed. This feature is not only characteristic of the PFC but also supports a particular role of layer II of area 46 in SF. Additionally, known functional asymmetries between hemispheres might not be supported by morphological asymmetries.

Antecedentes: La corteza prefrontal (CPF) representa el nivel más alto de integración y control de funciones psíquicas y comportamentales. Varias patologías como autismo, desórdenes de hiperactividad, depresión y esquizofrenia se han relacionado con alteraciones de la CPF. La lámina II de las áreas que constituyen la CPF posee un patrón de organización vertical, una alta densidad celular y la mayor proporción de neuronas no-piramidal/piramidal. Sin embargo, la distribución del componente inhibitorio en estas regiones no se ha descrito. Objetivo: En el presente estudio nos propusimos caracterizar la lámina II de las áreas 10, 24 y 46 del humano, particularmente su componente inhibitorio teniendo en mente su participación en procesos de actividad sostenida relevantes cuando desaparece el estímulo. Métodos: Se utilizaron muestras de cinco sujetos que fallecieron por causas diferentes a enfermedades del sistema nervioso. Se tomaron secciones de las áreas 10, 24 y 46 de Brodmann y se procesaron con los anticuerpos contra NeuN para determinar la población neuronal total y contra Parvalbumina (PV), Calbindina (CB) y Calretinina (CR) para analizar la población de interneuronas. Resultados: Los resultados no mostraron diferencias interhemisféricas entre las áreas. Sin embargo, las tres áreas seleccionadas son significativamente diferentes entre sí en todos los parámetros analizados. El área 46 posee la mayor densidad y tamaño de interneuronas positivas para PV. Conclusiones: La ausencia de asimetrías morfológicas no permite explicar las asimetrías funcionales. La lámina II del área 46 posee el sistema inhibitorio más poderoso. Teniendo en cuenta la arquitectura modular de las capas supragranulares, este sistema inhibitorio subyace a la actividad sostenida, eje fundamental de la memoria operativa.

Efecto de la degradación post mórtem sobre la detección inmunohistoquímica de antígenos en el cerebro de ratón / Effect of postmortem degradation on the immunohistochemical detection of antigens in the mouse brain

Introducción. Si bien lo ideal es llevar a cabo la preservación de los tejidos en el menor tiempo posible luego de la muerte de un animal objeto de un estudio neurohistoquímico, con frecuencia es inevitable trabajar con tejido nervioso obtenido varias horas post mórtem. Objetivo, Estudiar el efecto de la degradación post mórtem sobre la inmunorreacción de di-ferentes antígenos en el cerebro de ratón. Métodos. Se inocularon ratones con virus de la rabia y se extrajeron los cerebros luego de fijar los animales con paraformaldehído me-diante perfusión. En otro grupo de animales la extracción de los encéfalos se hizo para fi-jarlos por inmersión con el mismo fijador y en diferentes horas post mórtem. En un vibráto-mo se obtuvieron cortes coronales de los ce-rebros, y estos se procesaron para inmunode-tección de rabia y de otros cuatro antígenos. Resultados. Cuatro de los antígenos evalua-dos, calbindina, parvoalbúmina, glutamato y ácido gamma-aminobutírico (GABA), presen-taron pérdida de inmunorreacción cuando el tejido cerebral se había tratado previamente mediante fijación por inmersión. Este efecto fue más acentuado cuando aumentó el tiempo post mórtem antes de la fijación. Por el con-trario, la inmunorreacción al virus de la rabia se incrementó cuando transcurrieron más de seis horas post mórtem antes de la fijación. Conclusiones. La fijación por perfusión es ideal para estudios de inmunohistoquími-ca de diferentes antígenos. La degradación tisular post mórtem generalmente provoca disminución de la inmunorreacción. No obs-tante, los antígenos del virus de la rabia in-crementan su inmunorreacción a medida que transcurre el tiempo post mórtem antes de la fijación.

Introduction: It is advisable to carry out the preservation of tissues in the shortest time after the death of an animal subject of neu-rochemical study but it is often unavoidable to work with nervous tissue obtained several hours postmortem. Objective: To study the effect of postmor-tem degradation on immunoreactivity of di-fferent antigens in the mouse brain. Methods: Mice were inoculated with rabies virus and the brains were removed after the animals were fixed by perfusion with parafor-maldehyde. In another group of animals the brain extraction was performed and they were fixed by immersion in the same fixative solu-tion at different hours postmortem. Coronal sections of the brains were obtained in a vibra-tome and they were processed for immunode-tection of rabies, and other four antigens. Results: Four of the antigens studied, cal-bindin, parvalbumin, glutamate and GABA, showed loss of immunoreactivity when brain tissue was pretreated by immersion fixa-tion. This effect was more noticeable when postmortem time increase before the fixing. Conversely immunoreactivity to rabies virus was increased over six hours postmortem before fixation. Conclusions: Fixation by perfusion is ideal for immunohistochemical studies of diffe-rent antigens. Postmortem tissue degrada-tion usually causes decreased immunoreac-tivity. However, rabies virus antigens show increased immunoreactivity when elapses more postmortem time before fixation.

Evaluation of early abnormalities of the sensory retina in a hypercholesterolemia experimental model: an immunohistochemical study / Avaliação das anormalidades precoces da retina sensorial em modelo experimental de hipercolesterolemia: estudo imunohistoquímico

PURPOSE: The aim of this study is to demonstrate the early changes of the sensory retina induced by hypercholesterolemia in an experimental model. METHODS: New Zealand rabbits were divided into two groups: CG (Control Group) was fed a normal diet for 6 weeks. G1 was initially fed a 1 percent cholesterol diet for two weeks and from the 14th day on a 0.5 percent cholesterol diet until the 42nd day. The eyes underwent an immunohistochemical analysis with monoclonal antibodies anti-calretinin and anti-glial fibrillary acidic protein (GFAP). RESULTS: G1 cells and cell elements presented significant immunoreactivity to anti-calretinin. No immunoreactivity to anti-glial fibrillary acidic protein was observed in both groups. CONCLUSION: This study has shown that a hypercholesterolemic diet may induce early changes in the sensory retina in rabbits. The anti-calretinin monoclonal antibody was able to reveal calcium accumulation inside the nerve cells.

OBJETIVO: O objetivo deste estudo é demonstrar experimentalmente as alterações precoces da retina sensorial induzidas pela hipercolesterolemia. MÉTODOS: Coelhos New Zealand foram organizados em dois grupos: GC (grupo controle), composto por 6 coelhos (6 olhos), recebeu dieta normal por 6 semanas; G1, composto por 12 coelhos (12 olhos), tratado previamente com ração colesterol a 1 por cento (Sigma-Aldrich) por 2 semanas e a partir do 14º dia com ração colesterol a 0,5 por cento (Sigma-Aldrich). Os olhos foram submetidos à análise imunohistoquímica com os anticorpos monoclonais anticalretinina e anti-glial fibrillary acidic protein (GFAP). RESULTADOS: G1 apresentou maior número de células e elementos celulares imunoreativos a anticalretinina que o GC, com relevância estatística. GFAP foi negativo em ambos os grupos. CONCLUSÃO: Este estudo demonstrou que a dieta hipercolesterolêmica pode induzir alterações precoces na retina sensorial em coelhos. O anticorpo monoclonal anticalretinina foi capaz de revelar o acúmulo de cálcio dentro das células neuronais retiniana.

Evaluación inmunohistoquímica de la expresión de calbindina en el cerebro de ratones en diferentes tiempos después de la inoculación con el virus de la rabia / Immunohistochemical evaluation of calbindin expression in mouse brain at different times after rabies virus inoculation

Introducción: La calbindina (CB) es una proteína reguladora del metabolismo del calcio intracelular. Previamente se demostró que la infección con virus fijo de la rabia induce pérdida de la expresión de CB, en el cerebro de ratones en estado terminal de la enfermedad, a los 7-8 días de post-inoculación (p.i.) intramuscular. Objetivo: Determinar si la pérdida de expresión de CB se presenta también en etapas tempranas de la infección y si es una consecuencia inmediata a la aparición de antígenos virales en el cerebro. Materiales y métodos: Se inocularon ratones con virus fijo de la rabia, por vía intramuscular, en su extremidad posterior izquierda. Diariamente se tomaron entre 4 y 6 animales infectados y sus respectivos controles, se fijaron por perfusión intracardíaca con paraformaldehído, se extrajeron sus cerebros y se obtuvieron cortes coronales en un vibratomo. Estos se sometieron a reacciones inmunohistoquímicas para evaluar la presencia de antígenos virales y la expresión de CB. Esta última fue cuantificada mediante densitometría óptica en un microscopio con anßlisis de imßgenes. Resultados: La inmunorreactividad a la rabia fue positiva en el cerebro a partir del día 3 p.i.; se observó primero en neuronas piramidales de la corteza frontal. La inmunotinción para CB no sufrió ninguna alteración cualitativa ni cuantitativa en la corteza cerebral y el estriado hasta el día 6 p.i. Conclusiones: Estos resultados coinciden con los de otros estudios sobre la rabia en los que se han encontrado alteraciones moleculares, metabólicas o fisiopatológicas en el sistema nervioso sólo en la fase terminal de la enfermedad.

Introduction: The calcium-binding protein calbindin (CB) plays a critical role in intracellular calcium metabolism. In a previous study we demonstrated that the infection with fixed rabies virus caused loss of CB expression in mouse brain during terminal state of the disease, 7-8 days after intramuscular inoculation. Objectives: To determine loss of CB expression also appears in early stages of the infection and if it is a consequence immediate to the appearance of viral antigens in the brain. Materials and methods: Mice were inoculated with fixed rabies virus, by intramuscular route, in the left hind limbs. Daily, to sixth day, 4-6 animals and their respective controls were killed and fixed by intracardiac perfusion with paraformaldehyde and their brains were extracted to obtain coronal sections using a vibratome. Free-floating sections were treated by immunohistochemical procedures to evaluate the presence of rabies viral antigens and the expression of CB. The last one was quantified by optical densitometry in a microscope with a system of image analysis. Results: Rabies immunoreactivity was observed in the brain three days after virus inoculation, beginning in pyramidal neurons of the frontal cortex whereas the immunostaining for CB did not undergo any qualitative nor quantitative changes neither in the cerebral cortex or striatum during the six days post-inoculation. Conclusions: These results agree with other studies in which it has been settled down that the rabies molecular or metabolic effects on the nervous system are well-known only in the final stage of the disease.