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La etiología de la esquizofrenia no está totalmente dilucidada. Se conocen más de 100 diferentes loci de genes relacionados con esquizofrenia, la mayoría de los cuales codifican moléculas asociados a los sistemas de neurotransmisores o al neurodesarrollo. Las primeras abarcan receptores de los neurotransmisores como dopamina, GABA o glutamato y de otros neurotransmisores con menor relación, como la serotonina y la acetilcolina. También están implicadas diversas enzimas relacionadas con el metabolismo, cotransportadores y algunas proteínas intracelulares involucradas en la degradación o síntesis de dichos neurotransmisores. Entre las moléculas que intervienen en el neurodesarrollo están los factores neurotróficos (BDNF, DISC1, NRG1) y las proteínas del complemento C3 y C4, que median la respuesta inflamatoria y la poda sináptica durante el desarrollo temprano. Los productos de la producción genética involucrados en la etiología de la esquizofrenia aportan a la vulnerabilidad selectiva o al proceso de lesión que se instaura o progresa en el paciente, por tanto, su estudio es de relevancia para la comprensión de los fenómenos clínicos propios de la enfermedad.
The etiology of schizophrenia is not fully elucidated. More than 100 different gene loci related to schizophrenia are known, most of which encode molecules associated with neurotransmitter systems or neurodevelopment. These include receptors for neurotransmitters such as dopamine, GABA, or glutamate, as well as other neurotransmitters with less direct relevance, such as serotonin and acetylcholine. Various enzymes involved in metabolism, cotransporters, and intracellular proteins involved in the degradation or synthesis of said neurotransmitters are also implicated. Among the molecules involved in neurodevelopment are neurotrophic factors (BDNF, DISC1, NRG1) and complement proteins C3 and C4, which mediate the inflammatory response and synaptic pruning during early development. The genetic products involved in the etiology of schizophrenia contribute to selective vulnerability or the process of injury that is established or progresses in the patient. Therefore, their study is relevant to the understanding of the clinical phenomena associated with the disease.
A etiologia da esquizofrenia não está totalmente elucidada. Mais de 100 diferentes loci de genes relacionados à esquizofrenia são conhecidos, a maioria dos quais codifica moléculas associadas a sistemas de neurotransmissores ou neurodesenvolvimento. O primeiro inclui receptores para neurotransmissores como dopamina, GABA ou glutamato e outros neurotransmissores menos relacionados, como serotonina e acetilcolina. Também estão envolvidas várias enzimas relacionadas com o metabolismo, cotransportadores e algumas proteínas intracelulares envolvidas na degradação ou síntese dos referidos neurotransmissores. Entre as moléculas envolvidas no neurodesenvolvimento estão os fatores neurotróficos (BDNF, DISC1, NRG1) e as proteínas do complemento C3 e C4, que medeiam a resposta inflamatória e a poda sináptica durante o desenvolvimento inicial. Os produtos da produção genética envolvidos na etiologia da esquizofrenia contribuem para a vulnerabilidade seletiva ou para o processo de lesão que se instala ou progride no paciente, portanto, seu estudo é relevante para a compreensão dos fenômenos clínicos da esquizofrenia
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Resumen Las enfermedades cardiovasculares (ECV) comprenden un grupo de enfermedades cuyo denominador común es la afectación de vasos sanguíneos, corazón y ritmo cardiaco. El tratamiento de las ECV representa costos muy altos para los sistemas de salud y está enfocado en el control de los factores de riesgo. A pesar de existir una gran variedad de fármacos para el tratamiento de las ECV, estas continúan siendo las principales causas de mortalidad, posiblemente debido a que su origen es multifactorial y por ello se requiere de más de un fármaco. En este contexto, la alicina, un compuesto derivado del ajo, ha mostrado regular la expresión de vías de señalización y factores de riesgo asociados a la progresión de las ECV. Por ello el objetivo del presente trabajo es revisar los mecanismos celulares y moleculares por medio de los cuales la alicina ejerce sus efectos terapéuticos y describir las evidencias científicas del porqué la alicina podría representar un potencial candidato para coadyuvar en el tratamiento de las ECV.
Abstract Cardiovascular diseases (CVD) include a group of diseases whose common denominator is the affection of the blood vessels, heart, and heart rate. The treatment of CVD represents high costs to the health systems and is focused on the control of risk factors. Despite the existence of a great variety of treatments of the CVD, these continue as the main cause of mortality mainly due to the multifactorial origin, and therefore more than one drug is required. In this context, allicin, a compound derived from garlic, has shown regulate the expression of signaling pathways and risk factors associated with the progression of CVD. Therefore, the objective of this work is to review the cellular and molecular mechanisms through which allicin exert its therapeutic effects and to describe the scientific evidences why allicin represents a potential candidate to assist in the treatment of CVD.
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Abstract Rhizosphere microorganisms and endophytes can help their hosts absorb nutrients and regulate the levels of plant hormones. Moreover, they can modulate the expressions of host genes, assist hosts in eliminating reactive oxygen species (ROS) and secreting volatile organic compounds. Therefore, rhizosphere microorganisms and endophytes are considered as determinant factors driving processes involved in the growth of host plants. However, the physiological and ecological functions, as well as the molecular mechanism underlying the behavior of rhizosphere microorganisms and endophytes in their role in the adaptive capacity of host plants in the karstic high-calcium environment have not been systematically studied. This review summarizes the physiological and molecular mechanisms of rhizosphere microorganisms and endophytes which help host plants to adapt to various kinds of adverse environments. The adaptive capacities of plants growing in adverse environments, partly, or totally, depends on microorganisms co-existing with the host plants.
Resumo Os microorganismos e endófitos da rizosfera podem ajudar seus hospedeiros a absorver nutrientes e regular os níveis de hormônios vegetais. Além disso, eles podem modular as expressões dos genes hospedeiros, auxiliar os hospedeiros na eliminação de espécies reativas de oxigênio (ROS) e secretar compostos orgânicos voláteis. Portanto, microorganismos e endófitos da rizosfera são considerados determinantes dos processos envolvidos no crescimento de plantas hospedeiras. No entanto, as funções fisiológicas e ecológicas, bem como o mecanismo molecular subjacente ao comportamento dos microrganismos e endofíticos da rizosfera no seu papel na capacidade adaptativa das plantas hospedeiras no ambiente cárstico de alto teor de cálcio, não foram sistematicamente estudados. Esta revisão resume os mecanismos fisiológicos e moleculares de microrganismos e endófitos da rizosfera que ajudam as plantas hospedeiras a se adaptarem a vários tipos de ambientes adversos. As capacidades adaptativas das plantas que crescem em ambientes adversos, em parte ou totalmente, dependem de microrganismos coexistentes com as plantas hospedeiras.
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Simbiose , Cálcio , Plantas , Rizosfera , EndófitosRESUMO
RESUMEN Introducción: Varias proteinopatías del sistema nervioso están asociadas a la ocurrencia de alteraciones en componentes del eje hipotálamo-hipófisis-gonadal. Objetivo: Reflejar la relevancia de componentes del eje hipotálamo-hipófisis-gonadal en la fisiopatología de proteinopatías del sistema nervioso. Material y Métodos: Se realizó una revisión bibliográfica durante los meses de enero de 2018 a diciembre de 2018. Fueron consultadas bases de datos de referencia, con el uso de descriptores y operadores booleanos. La estrategia de búsqueda avanzada para la selección de los artículos fue empleada, teniendo en cuenta la calidad metodológica o validez de los estudios. Desarrollo: Fueron identificaron alteraciones del funcionamiento normal del eje hipotálamo-hipófisis-gonadal en varias proteinopatías del sistema nervioso. Las alteraciones más frecuentemente reportadas fueron el incremento en los niveles de gonadotropinas, principalmente de la hormona luteinizante, en la enfermedad de Alzheimer, y la disminución de los niveles de testosterona en las enfermedades de Alzheimer, Parkinson, Huntington y Esclerosis Lateral Amiotrófica, con el consiguiente agravamiento del fenotipo clínico. Se obtuvieron evidencias de naturaleza preliminar, que fundamentan la posible ocurrencia de disfunción hipotalámica en pacientes con ataxias espinocerebelosas. Conclusiones: Aun cuando existen evidencias que demuestran la existencia de un vínculo entre la fisiopatología de proteinopatías del sistema nervioso y alteraciones en componentes del eje hipotálamo-hipófisis-gonadal, se requerirán estudios más extensos e integrales para confirmar estas asociaciones y para caracterizar los mecanismos moleculares implicados.
ABSTRACT Introduction: Several proteinopathies of the nervous system are associated with disturbances in components of the hypothalamic-pituitary-gonadal axis. Objective: To assess the relevance of components of the hypothalamic-pituitary-gonadal axis in the pathophysiology of proteinopathies of the nervous system. Material and Methods: A literature review was carried out from January to December 2018. Several databases were searched by using descriptors and Boolean operators. Advanced search strategy was used for the selection of articles, taking into account the methodological quality and validity of the studies. Results: Disturbances of the normal function of the hypothalamic-pituitary-gonadal axis were identified in proteinopathies of the nervous system. The most frequently reported disturbances were the increase in gonadotropin levels, mainly in luteinizing hormone in Alzheimer´s disease, and the decrease in testosterone levels in Alzheimer´s, Parkinson´s and Huntington´s diseases, and Amyotrophic Lateral Sclerosis, with the resulting worsening of the clinical phenotype. Preliminary evidence was obtained, which was pointing to a possible hypothalamic dysfunction in Spinocerebellar ataxia patients. Conclusions: Even when evidences were gathered supporting a link between the pathophysiology of proteinopathies of the nervous system and disturbances in components of the hypothalamic-pituitary-gonadal axis, deeper and more comprehensive studies will be needed to confirm these associations and to characterize the underlying molecular mechanisms.
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ABSTRACT CONTEXT AND OBJECTIVE: Some studies have suggested a wide range of possible mechanisms through which probiotics may play a role in diabetes prevention and treatment. However, the underlying mechanisms are not fully understood. We conducted this study to review the potential mechanisms suggested for the effect of probiotics in diabetes. DESIGN AND SETTING: Narrative review conducted at the Food Security Research Center of Isfahan. METHODS: A search in the electronic databases MEDLINE (PubMed), Cochrane Library, Web of Science and Google scholar was performed up to October 2016. RESULTS: The initial search yielded 1214 reports. After removing duplicates, 704 titles and abstracts were screened. Finally, out of 83 full-text articles that were reviewed for eligibility, 30 articles were included in the final analysis. The anti-diabetic mechanisms for probiotics reported encompass intraluminal and direct effects on the intestinal mucosa and microbiota (n = 13), anti-inflammatory and immunomodulatory effects (n = 10), antioxidative effects (n = 5), effects on endoplasmic reticulum (ER) stress and expression of genes involved in glucose homeostasis and insulin resistance (n = 6), with some studies pointing to more than one mechanism. CONCLUSION: The results may throw some light on the capacity of probiotics as a novel approach towards controlling diabetes. However, further human studies are warranted to elucidate and confirm the potential role of probiotics in diabetes prevention and treatment. Also, it needs to be ascertained whether the effectiveness of probiotics in diabetes prevention and treatment is dependent on the strain of the microorganisms.
RESUMO CONTEXTO E OBJETIVO: Alguns estudos têm sugerido ampla gama de possíveis mecanismos, pelos quais os probióticos podem desempenhar um papel na prevenção e tratamento do diabetes. No entanto, os mecanismos subjacentes não são totalmente compreendidos. Realizamos este estudo para revisar os possíveis mecanismos sugeridos para o efeito dos probióticos na diabetes. TIPO DE ESTUDO E LOCAL: Revisão narrativa conduzida no Food Security Research Centro de Isfahan. MÉTODOS: Busca sistemática nas bases de dados eletrônicas MEDLINE (PubMed), Cochrane Library, Web of Science e Google scholar até outubro de 2016. RESULTADOS: A busca inicial resultou em 1.214 artigos. Após a remoção de duplicatas, foram pesquisados 704 títulos e resumos. Finalmente, de 83 artigos completos revisados para elegibilidade, 30 foram incluídos na análise final. Os mecanismos antidiabéticos relatados dos probióticos abrangem efeitos intraluminais e diretos na mucosa e microbiota intestinal (n = 13), efeitos anti-inflamatórios e imunomoduladores (n = 10), efeitos antioxidativos (n = 5), efeitos sobre o estresse de retículo endoplasmático (RE) e expressão de genes envolvidos na homeostase da glicose e resistência à insulina (n = 6), com alguns estudos apontando para mais de um mecanismo. CONCLUSÃO: Os resultados podem lançar alguma luz sobre os probióticos como uma nova abordagem no controle do diabetes, no entanto, mais estudos em humanos são justificados para elucidar e confirmar o papel potencial dos probióticos na prevenção e tratamento do diabetes. Além disso, deverá ser determinado se a eficácia dos probióticos na prevenção e tratamento do diabetes é dependente da cepa dos microrganismos.
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Humanos , Animais , Ratos , Probióticos/uso terapêutico , Diabetes Mellitus/prevenção & controle , Probióticos/classificação , Diabetes Mellitus/genética , Diabetes Mellitus/tratamento farmacológicoRESUMO
Abstract Rhizosphere microorganisms and endophytes can help their hosts absorb nutrients and regulate the levels of plant hormones. Moreover, they can modulate the expressions of host genes, assist hosts in eliminating reactive oxygen species (ROS) and secreting volatile organic compounds. Therefore, rhizosphere microorganisms and endophytes are considered as determinant factors driving processes involved in the growth of host plants. However, the physiological and ecological functions, as well as the molecular mechanism underlying the behavior of rhizosphere microorganisms and endophytes in their role in the adaptive capacity of host plants in the karstic high-calcium environment have not been systematically studied. This review summarizes the physiological and molecular mechanisms of rhizosphere microorganisms and endophytes which help host plants to adapt to various kinds of adverse environments. The adaptive capacities of plants growing in adverse environments, partly, or totally, depends on microorganisms co-existing with the host plants.
Resumo Os microorganismos e endófitos da rizosfera podem ajudar seus hospedeiros a absorver nutrientes e regular os níveis de hormônios vegetais. Além disso, eles podem modular as expressões dos genes hospedeiros, auxiliar os hospedeiros na eliminação de espécies reativas de oxigênio (ROS) e secretar compostos orgânicos voláteis. Portanto, microorganismos e endófitos da rizosfera são considerados determinantes dos processos envolvidos no crescimento de plantas hospedeiras. No entanto, as funções fisiológicas e ecológicas, bem como o mecanismo molecular subjacente ao comportamento dos microrganismos e endofíticos da rizosfera no seu papel na capacidade adaptativa das plantas hospedeiras no ambiente cárstico de alto teor de cálcio, não foram sistematicamente estudados. Esta revisão resume os mecanismos fisiológicos e moleculares de microrganismos e endófitos da rizosfera que ajudam as plantas hospedeiras a se adaptarem a vários tipos de ambientes adversos. As capacidades adaptativas das plantas que crescem em ambientes adversos, em parte ou totalmente, dependem de microrganismos coexistentes com as plantas hospedeiras.
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ABSTRACT CONTEXT AND OBJECTIVE: Dementia is a syndrome characterized by functional and cognitive decline. Alzheimer's disease (AD) is one of the most common causes of dementia and has high prevalence among the elderly. It is known that there is no drug capable of interfering with the course of the disease. Research on treatments for AD has been marked by the appearance of new drugs and their abandonment. This study aimed to describe drugs that have been studied with regard to treating AD and which are capable of influencing the course of the disease. DESIGN AND SETTING: Narrative review on original articles published worldwide. METHODS: A systematized search was conducted in the PubMed/MEDLINE, Cochrane Library/Cochrane and SciELO/Bireme databases. The descriptors "Molecular Mechanisms of Pharmacological Action" and "Drug Therapy" were each combined with the descriptor "Alzheimer disease". All of these can be found in MeSH and DeCS. These descriptors were used alone or in combination, and a filter specifying publication between January 2009 and October 2015 in English, Spanish or Portuguese was set. RESULTS: 6,888 articles were found, of which 37 were included in this review; 70.3% of the articles selected were of good quality with low or unclear risk of bias. 86 drugs were considered promising for AD treatment and these were classified into 20 pharmacological categories. CONCLUSION: There are no drugs capable of influencing the course of AD such that treatments are safe and effective. However, immunomodulators stood out as promising, given their effectiveness and quality in the articles analyzed.
RESUMO CONTEXTO E OBJETIVO: A demência é uma síndrome caracterizada por declínio funcional e cognitivo, sendo a doença de Alzheimer (DA) uma das causas mais comuns e de alta prevalência em idosos. Sabe-se que não há medicamento capaz de interferir no curso da doença e as pesquisas para o tratamento da DA têm sido marcadas pelo surgimento e abandono de novas drogas. O objetivo deste estudo foi descrever as drogas capazes de influenciar o curso da DA que têm sido estudadas para o tratamento da doença. TIPO DE ESTUDO E LOCAL: Revisão narrativa de artigos originais publicados mundialmente. MÉTODOS: Foi realizada uma busca sistematizada nas bases de dados PubMed/MEDLINE, Cochrane Library/Cochrane e SciELO/Bireme. Cada um dos seguintes descritores "Mecanismos Moleculares de Ação Farmacológica" e "Quimioterapia" foram combinados com o descritor "Doença de Alzheimer", todos encontrados no MeSH e DeCS. Os descritores foram usados sozinhos ou em combinação, fixando como filtros as publicações de 2009 a 2015, em língua inglesa, espanhola e portuguesa. RESULTADOS: Foram encontrados 6.888 artigos, dos quais 37 foram incluídos nesta revisão; 70,3% dos artigos selecionados tiveram boa qualidade com baixo ou indefinido risco de viés. Foram elencadas 86 drogas promissoras ao tratamento da AD. Elas foram classificadas em 20 categorias farmacológicas. CONCLUSÃO: Não há fármacos capazes de interferir no curso da DA com efetividade e segurança no tratamento. Contudo, os imunomoduladores foram considerados promissores devido ao fato de apresentarem efetividade e qualidade nos artigos analisados.
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Humanos , Doença de Alzheimer/tratamento farmacológico , Inibidores da Colinesterase/uso terapêutico , Peptídeos beta-Amiloides/efeitos dos fármacos , Anti-Inflamatórios/uso terapêutico , Antioxidantes/uso terapêuticoRESUMO
La exposición a estímulos novedosos es un protocolo simple de emplear que involucra múltiples sistemas y procesos de memoria tales como codificación, consolidación y recuperación de la información. Esto hace plausible de emplearlo como un tratamiento útil para estudiar los mecanismos comportamentales, fisiológicos y moleculares implicados en esta función cognitiva. Se presentan estudios en modelos animales que dan cuenta de cómo la exploración de un ambiente novedoso puede ser útil para mejorar o deteriorar la memoria, en diferentes períodos ontogenéticos. Además, se presentan investigaciones que demuestran la participación de los diversos sistemas de neurotransmisión en este fenómeno así como los mecanismos moleculares implicados en este tipo de tratamiento. De este modo este tipo de tratamiento, no invasivo y sencillo de aplicar, adquiere relevancia para la ciencia aplicada como una posible alternativa para el desarrollo de estrategias de intervención en la temática.
Exposure to novel stimuli is a simple procedure to use that involved several systems and memory processes, such as acquisition, consolidation and recall of the information. Which make it a possible treatment to study the behavioral, physiological and molecular mechanism involved in this cognitive function. Novelty detection plays an important role in adaptation to the environmental changes and in the avoidance of possible dangerous. A novel stimulus elicits a response that will produce habituation when it becomes familiar. When animals are first exposed to a novel environment they explore it actively and in parallel they compare it to previous experiences, stored in its memory to evaluate the degree of novelty. On one side, it includes the response to novelty, activation, and stress-related factors and on the other hand, a response that decreases as the environment becomes familiar, which requires different processes related to learning, recall and recognition. Also, multiple studies showed that animals prefer to explore novel objects, compared with those with whom they had previous experience. Moreover, it has been shown that the ability to respond to novel stimuli is related to self-administration of various drugs, the discovery of spontaneous tumors, and even life expectancy since it was found that neophobic animals die younger than their counterpart's neophilic. In this work we presented studies that indicated how the exploration of a novel environment could be a useful tool to enhanced or deteriorated memory in different ontogenetic stages. The modulation of memory depends on the different characteristic of the treatment presentation. It was reported that the novelty presented prior to an acquisition of some training task can generate an improvement in memory performance. Although, it was founded that the novelty exploration produce an amnesic effect if it was presented after learning, showing the opposite effect. This have been shown in different paradigms such us consummatory successive negative contrast (cSNC) paradigm and inhibition avoidance, in different phases of the training. It was also important to note that this phenomenon involves different time window parameters, for example it is required that the novelty were presented at least one hour before the learning. Furthermore we mentioned data that shows that exposure to novelty during infancy induces a lasting effect of improved cognition and long-term memory that persists even in adulthood. The study of the effect of novelty in the postnatal period and its subsequent influence on other periods opens the possibility of the creative developing of strategies to improve learning and memory processes throughout the subject's life. Besides, we presented research that exhibited the implication of several neurotransmitter systems in this phenomenon and the molecular mechanisms involved in this treatment. Practically all the principal neurotransmitter systems, such as cholinergic, glutamatergic, adrenergic, among others, are involved. A lot of studies indicate that cholinergic neurotransmission plays a critical role in the processes of attention, learning and memory. The same functions correspond to the adrenergic system. The gabaergic system is also involved in the perception of novel stimuli. Glutamate receptors play an important role in the memory processes mainly. In addition, a vast number of studies also reported that the molecular brain activation is very extensive in all the process of explore a novel environment, realizing the complexity of this mechanism. Thus, this type of treatment, non-invasive and easy to apply, becomes relevant for applied science as a possible alternative for the development of many intervention strategies in the topic. Also the study of this phenomenon in post -natal period, allows thinking about possible strategies applicable in the development of this cognitive function.
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Ontogenesis of both central and peripheral nervous systems depends on basic, molecular and cellular mechanisms of the normal neuronal migration. Any deviation leads to neural malformations. All neural cells and structures derive from the neural ectoderm, which under the influence of the notochord and the molecules Noggin and Chordin, is transformed consecutively into neural plate, neural groove, neural tube and primary vesicles. Of the latter, the most rostral, the prosencephalon, two vesicles are bilaterally generated, the telencephalon and in the middle, the unpaired diencephalons. The telencepahlic vesicles generate the cerebral hemispheres and the lateral ventricles; the latter constitutes the main source of progenitor neuroepithelial cells (NEC) in the subventricular zone. The NEC massively migrates to constitute the cerebral cortex and other hemispheric structures in the telencephalon and diencephalon. The NEC expresses a broad repertory of markers: BLBP, GLAST, vimentin, tenascin, S100-3 and, in primates GFAP; in a sequential order the NEC form the first cortical layer formed by the marginal zone and the subplate. The marginal zone harbors the Cajal-Retzius reelin positive neurons and reelin negative neurons. Reelin, besides signaling stop to migrating neurons, also participates in ordering the cortical layers; it is known that in mutant mice lacking reelin cortical layers are disrupted. Genetic studies indicate that ApoER2, Vldr (both reelin receptors) and Dab1, reelin signaling adaptor protein, enter into a common pathway leading Dab1 to phosphorylation in migrating neurons. Cortical pyramidal neurons generate at germinal zone; interneurons generate both in Vz and SVZ in medial ganglionic eminence and caudal GE. Two types of neuronal migration coexist, radial and tangential. In radial migration, the neurons move perpendicular to marginal zone and radial glia serves as a scaffold to migrating cells; in the tangential way, neurons migrate in parallel to brain surface guided by semaphorins, neuropilins, cell adhesion molecules, neuregulins, chemokines and the slit and robo families of attractant and repellent molecules. The migratory cycle of neurons involves leading process dynamics and somal translocation, which involves the movement of perinuclear material, organelles and nucleus. Leading process stability depends on the microtubular array that links the leading edge of the cell with the soma. The centrosome is a microtubule center to control microtubule polymerization. In radially migrating neurons, the centrosome establishes a link between centrioles and nuclear membrane. The effective neuronal migration is only completed by translocation of the cell soma, which occurs with cytoplasmic dilatation, and then the centrosome and Golgi apparatus approach it, finally nucleus advances to the cytoplasmic dilatation. Movement of centrosome and nucleus depends on integrity of a microtubule network. Most of the microtubules surrounding the nucleus are tyrosinated, making them dynamic; microtubules at the anterior pole of the nucleus, near the centrosome, are acetylated. Once neurons reach their final destination, they need to cancel the migratory program and differentiate. The mechanisms are unknown; possibly early patterns of activity in the target region could influence. Ca2+ influx is a proposed mechanism for halting migration.
La ontogenia de los Sistemas Nervioso Central y Nervioso Periférico depende de procesos como la proliferación, diferenciación y migración neuronal, entre otros. Cualquier desviación resulta en malformaciones. Las estructuras y células nerviosas derivan del ectodermo, la notocorda induce la formación de la placa neural mediante la secreción de las moléculas Noggin y Chordin; posteriormente la placa neural se convierte en surco y tubo neurales. Una vez que el tubo neural está formado, las células neuroepiteliales (CNE), futuras neuronas y glía, en la zona subventricular migran masivamente para constituir la corteza cerebral y otras estructuras. Las CNE, al ser células gliales, expresan múltples marcadores: BLBP, GLAST, vimentin, tenascin, S1 00p y en primates GFAP Las CNE forman la primera capa cortical, también llamada preplato. Las siguientes divisiones celulares darán origen a la zona marginal y al subplato. Las subsecuentes neuronas que arriban al subplato desplazan a las anteriores de modo que en las capas superficiales se encuentran las últimas neuronas que llegaron. La capa marginal o capa I contiene células de Cajal-Retzius inmunorreactivas a reelin y neuronas reelin-negativas situadas más profundamente. La proteína reelin, además de servir como señal de alto a las neuronas migratorias, también interviene en el orden de la laminación cortical, la cual es desordenada en los ratones que carecen de reelin. No se conoce en su totalidad el mecanismo molecular mediante el cual reelin regula los procesos antes mencionados. Hasta el momento se conoce que ApoER2, Vldlr (ambos receptors de reelin) y Dab1, proteína adaptadora en la señalización por reelin, participan en una vía común que lleva a la fosforilación de Dab1 en las neuronas en migración. Las neuronas piramidales corticales se generan en el telencéfalo dorsal, mientras que las interneuronas se generan en la zona y subzona ventriculares del telencéfalo ventral, en las bien definidas subdivisiones de la eminencia gangliónica (EG): lateral, medial y caudal. La migración neuronal puede ser radial o tangencial; la migración radial emplea a la glía radial mientras que en la tangencial las neuronas migran paralelamente a la superficie cortical. En los dos tipos hay formación de neuritas, translocación somática y núcleocinesis. Varios factores participan en la migración tangencial: semaforinas, neuropilinas, moléculas de adhesion celular, neuregulinas, quimiocinas y moléculas atrayentes y repelentes de las familias slit y robo. El ciclo migratorio de las neuronas incluye la translocación del soma con movilización de material perinuclear, organelos y del núcleo. Así mismo, dicho ciclo aparece con morfología bien definida en una variedad de neuronas lo que refleja adaptación a ambientes específicos. De tal modo que las claves guías influyen en la frecuencia y orientación de la emergencia dendrítica, que a su vez permite a las neuronas migrantes cambiar de dirección sin reorientar las dendritas preexistentes. La estabilidad del mecanismo depende de la organización microtubular que asocia el borde celular con el soma; ya que el sistema de microtúbulos apoya dicho mecanismo y también permite el flujo de vesículas. En las células animales el centrosoma es el centro que organiza el citoesqueleto, la polimerización, el arreglo de los microtúbulos perinucleares y establece el contacto de los centriolos con la membrana nuclear. En la migración radial el movimiento hacia delante de los centriolos deforma el conjunto perinuclear de microtúbulos. Se debe a la elasticidad de ese conjunto microtubular y sus proteínas motoras asociadas al desplazamiento del núcleo. La nucleocinesis o movimiento del núcleo determina la dirección del movimiento nuclear, la migración neuronal efectiva sólo se completa por la translocación subsecuente del soma, lo cual ocurre por la dilatación del citoplasma y el movimiento del centrosoma y del aparato de Golgi hacía el mecanismo; finalmente el núcleo avanza e invade la dilatación del citoplasma. El movimiento del centrosoma y del núcleo depende de la integridad de la red microtubular y de las modificaciones posttranscripción. La mayoría de los micotúbulos perinucleares están tirosinados, lo cual los hace extremadamente dinámicos; en cambio, los microtúbulos del polo anterior del núcleo, vecinos del centrosoma, están acetilados y por ende más estables. Se ha dicho que los microtúbulos perinucleares se hallan conectados con el centrosoma que en sí es el centro que los organiza. Además, se han descrito otras proteínas asociadas con la polaridad celular que desempeñan un papel esencial en la coordinación del movimiento del centrosoma y del núcleo en cada ciclo migratorio. Finalmente, una vez que las neuronas alcanzan su posición definitiva, requieren cancelar el programa migratorio y continuar su diferenciación hasta alcanzar las características morfológicas y funcionales que les corresponden.
RESUMO
La metástasis es la rápida proliferación de células de cáncer, tumor secundario, en un sitio específico, que, en general, conduce a la muerte. Este proceso ocurre en sitios anatómicos que proveen el ambiente necesario de vascularización, oxígeno y alimento que le permiten camuflar su acción para desencadenar el rápido crecimiento del cáncer. El cáncer de próstata y de mama utiliza, por ejemplo, la médula ósea para su proliferación. Por lo tanto, el hueso da soporte para que las células de cáncer se adapten al ambiente, imiten el comportamiento genético y molecular de las células óseas. En este trabajo se simula el proceso de metástasis del cáncer con activación de la medula ósea. Para ello se plantea un modelo matemático que involucra la activación molecular, por parte de las células del tejido óseo, necesaria para la proliferación del cáncer. En este orden de ideas se simula dos posibles formas de crecimiento del tumor secundario según el tipo de metástasis: la osteoclerosis y la osteolisis
Metastasis is the fast proliferation of cancer cells, secondary tumor in a specific site, that in general lead to death. This process occur in anatomical sites providing the necessary environment of vascularization, oxygen and food allowing to camouflage its action for triggering the fast growing of cancer. Prostrate and breast cancer use by example, the bone marrow for its proliferation. Thus, the bone gives support for the adjustment cells to environment; mimic the genetic and molecular behavior of bone cells. In present paper the cancer metastasis process is simulated with bone marrow activation. Authors propose a mathematical model involving the molecular activation by the bone tissue cells, needed for cancer proliferation. In this order of ideas two ways of secondary tumor growth is simulated according the type of metastasis: The osteosclerosis and osteolysis
RESUMO
La enfermedad de Alzheimer es neurodegenerativa, progresiva, reconocida como un problema creciente en el orden médico, epidemiológico, sociológico y económico. Afecta aproximadamente al 10 por ciento de la población mayor de 65 años y al 40 por ciento en grupos de 80 años o más. En la presente revisión se abordan aspectos relacionados con su epidemiología, factores de riesgo, mecanismos celulares y moleculares. Estos últimos revelan que la formación de betaamilode y otros derivados de la proteína precursora de amiloide son los principales responsables de los cambios en el cerebro de pacientes con Alzheimer. Se incluyeron además la disfunción mitocondrial y de neurotransmisores, el estrés oxidativo, la inflamación, los trastornos neuroinmunes y tróficos. El conocimiento de estas alteraciones permite dilucidar nuevos blancos terapéuticos.
Alzheimer disease is a neurodegenerative and progressive disease recognized as an increasing problem from the medical, epidemiological, sociological and economic point of view. It approximately affects 10 percent of the population over 65 years old and 40 percent in groups aged 80 and over. Aspects connected with its epidemiology, risk factors, cellular and molecular mechanisms are dealt with in this review. The latter reveal that the formation of amyloid beta and other derivatives of the amyloid precursor protein are the main responsible for the changes in the brain of the patients with Alzheimer. The mitochondrial and neurotransmitter dysfunction, the oxidative stress, inflammation, and the neuroimmune and trophic disorders were also included. The knowledge of these alterations allow to elucidate new therapeutic targets.
Assuntos
Doença de Alzheimer/epidemiologia , Doença de Alzheimer/fisiopatologia , Fatores de RiscoRESUMO
O principal determinante da nefropatia diabética é a hiperglicemia, mas hipertensão e fatores genéticos também estão envolvidos. O glomérulo é o foco de lesão, onde proliferação celular mesangial e produção excessiva de matriz extracelular decorrem do aumento da glicose intracelular, por excesso de glicose extracelular e hiperexpressão de GLUT1. Seguem-se aumento do fluxo pela via dos polióis, estresse oxidativo intracelular, produção intracelular aumentada de produtos avançados da glicação não enzimática (AGEs), ativação da via da PKC, aumento da atividade da via das hexosaminas e ativação de TGF-beta1. Altas concentrações de glicose também aumentam angiotensina II (AII) nas células mesangiais por aumento intracelular da atividade da renina (ações intrácrinas, mediando efeitos proliferativos e inflamatórios diretamente). Portanto, glicose e AII exercem efeitos proliferativos celulares e de matriz extracelular nas células mesangiais, utilizando vias de transdução de sinais semelhantes, que levam a aumento de TGF-beta1. Nesse estudo são revisadas as vias que sinalizam os efeitos da glicose e AII nas células mesangiais em causar os eventos-chaves relacionados à gênese da glomerulopatia diabética. As alterações das vias de sinalização implicadas na glomerulopatia, aqui revisadas, suportam dados de estudos observacionais/ensaios clínicos, onde controle metabólico e anti-hipertensivo, especificamente com inibidores do sistema renina-angiotensina, têm-se mostrado importantes - e aditivos - na prevenção do início e progressão da nefropatia. Novas estratégias terapêuticas dirigidas aos eventos intracelulares descritos deverão futuramente promover benefício adicional.
The determinant of the diabetic nephropathy is hyperglycemia, but hypertension and other genetic factors are also involved. Glomerulus is the focus of the injury, where mesangial cell proliferation and extracellular matrix occur because of the increase of the intra- and extracellular glucose concentration and overexpression of GLUT1. Sequentially, there are increases in the flow by the poliol pathway, oxidative stress, increased intracellular production of advanced glycation end products (AGEs), activation of the PKC pathway, increase of the activity of the hexosamine pathway, and activation of TGF-beta1. High glucose concentrations also increase angiotensin II (AII) levels. Therefore, glucose and AII exert similar effects in inducing extracellular matrix formation in the mesangial cells, using similar transductional signal, which increases TGF-beta1 levels. In this review we focus in the effect of glucose and AII in the mesangial cells in causing the events related to the genesis of diabetic nephropathy. The alterations in the signal pathways discussed in this review give support to the observational studies and clinical assays, where metabolic and antihypertensive controls obtained with angiotensin-converting inhibitors have shown important and additive effect in the prevention of the beginning and progression of diabetic nephropathy. New therapeutic strategies directed to the described intracellular events may give future additional benefits.