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There is a growing consensus that the balance between the persistence of infection and the host immune response is crucial for chronification of Chagas heart disease. Extrapolation for chagasic megacolon is hampered because research in humans and animal models that reproduce intestinal pathology is lacking. The parasite-host relationship and its consequence to the disease are not well-known. Our model describes the temporal changes in the mice intestine wall throughout the infection, parasitism, and the development of megacolon. It also presents the consequence of the infection of primary myenteric neurons in culture with Trypanosoma cruzi (T. cruzi). Oxidative neuronal damage, involving reactive nitrogen species induced by parasite infection and cytokine production, results in the denervation of the myenteric ganglia in the acute phase. The long-term inflammation induced by the parasite's DNA causes intramuscular axonal damage, smooth muscle hypertrophy, and inconsistent innervation, affecting contractility. Acute phase neuronal loss may be irreversible. However, the dynamics of the damages revealed herein indicate that neuroprotection interventions in acute and chronic phases may help to eradicate the parasite and control the inflammatory-induced increase of the intestinal wall thickness and axonal loss. Our model is a powerful approach to integrate the acute and chronic events triggered by T. cruzi, leading to megacolon.
Assuntos
Doença de Chagas , Trypanosoma cruzi , Animais , Intestinos , Plexo Mientérico , NeurôniosRESUMO
Enterochromaffin (EC) cells synthesize 95% of the body 5-HT and release 5-HT in response to mechanical or chemical stimulation. EC cell 5-HT has physiological effects on gut motility, secretion and visceral sensation. Abnormal regulation of 5-HT occurs in gastrointestinal disorders and Inflammatory Bowel Diseases (IBD) where 5-HT may represent a key player in the pathogenesis of intestinal inflammation. The focus of this review is on mechanism(s) involved in EC cell "mechanosensation" and critical gaps in our knowledge for future research. Much of our knowledge and concepts are from a human BON cell model of EC, although more recent work has included other cell lines, native EC cells from mouse and human and intact mucosa. EC cells are "mechanosensors" that respond to physical forces generated during peristaltic activity by translating the mechanical stimulus (MS) into an intracellular biochemical response leading to 5-HT and ATP release. The emerging picture of mechanosensation includes Piezo 2 channels, caveolin-rich microdomains, and tight regulation of 5-HT release by purines. The "purinergic hypothesis" is that MS releases purines to act in an autocrine/paracrine manner to activate excitatory (P2Y1, P2Y4, P2Y6, and A2A/A2B) or inhibitory (P2Y12, A1, and A3) receptors to regulate 5-HT release. MS activates a P2Y1/Gαq/PLC/IP3-IP3R/SERCA Ca2+signaling pathway, an A2A/A2B-Gs/AC/cAMP-PKA signaling pathway, an ATP-gated P2X3 channel, and an inhibitory P2Y12-Gi/o/AC-cAMP pathway. In human IBD, P2X3 is down regulated and A2B is up regulated in EC cells, but the pathophysiological consequences of abnormal mechanosensory or purinergic 5-HT signaling remain unknown. EC cell mechanosensation remains poorly understood.
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Background: Colitis murine models have become essential tools to investigate the molecular and cellular mechanisms that lead to inflammatory bowel disease (IBD), such as ulcerative colitis (UC). DSS-induced colitis model faithfully reproduces many of the clinical presentation and immunological disturbances observed in UC. Notwithstanding mice can show differential susceptibilities and responsiveness to dextran sodium sulfate (DSS), and varying DSS concentration and molecular weights appear to be associated with the severity of inflammation. The aim of this study was to analyze the features of mice induced colitis using different DSS concentrations and molecular weights. Materials, Methods and Results: C57BL/6 mice received 2% of high molecular weight DSS (36 000 - 50 000) in drinking water (HDSS2%) or 5% of the same molecular weight (HDSS5%); other group received 5% of low molecular weight DSS (10 000) (LDSS5%). During the 7 days of DSS administration, animals were observed for weight loss, stool consistency and presence of blood feces to determine the disease activity index (DAI). On day 8, colons were removed, measured and weighed for indirect assessment of inflammation. The tissue samples were processed for histological analysis and blood samples were collected for hematological analysis. Our results demonstrated that HDSS5% group began to show significant clinical signs sta
Background: Colitis murine models have become essential tools to investigate the molecular and cellular mechanisms that lead to inflammatory bowel disease (IBD), such as ulcerative colitis (UC). DSS-induced colitis model faithfully reproduces many of the clinical presentation and immunological disturbances observed in UC. Notwithstanding mice can show differential susceptibilities and responsiveness to dextran sodium sulfate (DSS), and varying DSS concentration and molecular weights appear to be associated with the severity of inflammation. The aim of this study was to analyze the features of mice induced colitis using different DSS concentrations and molecular weights. Materials, Methods and Results: C57BL/6 mice received 2% of high molecular weight DSS (36 000 - 50 000) in drinking water (HDSS2%) or 5% of the same molecular weight (HDSS5%); other group received 5% of low molecular weight DSS (10 000) (LDSS5%). During the 7 days of DSS administration, animals were observed for weight loss, stool consistency and presence of blood feces to determine the disease activity index (DAI). On day 8, colons were removed, measured and weighed for indirect assessment of inflammation. The tissue samples were processed for histological analysis and blood samples were collected for hematological analysis. Our results demonstrated that HDSS5% group began to show significant clinical signs sta
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Background: Colitis murine models have become essential tools to investigate the molecular and cellular mechanisms that lead to inflammatory bowel disease (IBD), such as ulcerative colitis (UC). DSS-induced colitis model faithfully reproduces many of the clinical presentation and immunological disturbances observed in UC. Notwithstanding mice can show differential susceptibilities and responsiveness to dextran sodium sulfate (DSS), and varying DSS concentration and molecular weights appear to be associated with the severity of inflammation. The aim of this study was to analyze the features of mice induced colitis using different DSS concentrations and molecular weights. Materials, Methods and Results: C57BL/6 mice received 2% of high molecular weight DSS (36 000 - 50 000) in drinking water (HDSS2%) or 5% of the same molecular weight (HDSS5%); other group received 5% of low molecular weight DSS (10 000) (LDSS5%). During the 7 days of DSS administration, animals were observed for weight loss, stool consistency and presence of blood feces to determine the disease activity index (DAI). On day 8, colons were removed, measured and weighed for indirect assessment of inflammation. The tissue samples were processed for histological analysis and blood samples were collected for hematological analysis. Our results demonstrated that HDSS5% group began to show significant clinical signs sta
Background: Colitis murine models have become essential tools to investigate the molecular and cellular mechanisms that lead to inflammatory bowel disease (IBD), such as ulcerative colitis (UC). DSS-induced colitis model faithfully reproduces many of the clinical presentation and immunological disturbances observed in UC. Notwithstanding mice can show differential susceptibilities and responsiveness to dextran sodium sulfate (DSS), and varying DSS concentration and molecular weights appear to be associated with the severity of inflammation. The aim of this study was to analyze the features of mice induced colitis using different DSS concentrations and molecular weights. Materials, Methods and Results: C57BL/6 mice received 2% of high molecular weight DSS (36 000 - 50 000) in drinking water (HDSS2%) or 5% of the same molecular weight (HDSS5%); other group received 5% of low molecular weight DSS (10 000) (LDSS5%). During the 7 days of DSS administration, animals were observed for weight loss, stool consistency and presence of blood feces to determine the disease activity index (DAI). On day 8, colons were removed, measured and weighed for indirect assessment of inflammation. The tissue samples were processed for histological analysis and blood samples were collected for hematological analysis. Our results demonstrated that HDSS5% group began to show significant clinical signs sta
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The objective of this research was to evaluate the physical, physiological and sanitary quality of corn seeds of 17 maize varieties (landraces) before and after storage in PET bottles. The seeds were submitted to the following tests: physical purity, retention on sieves, weight of 1000 seeds, germination, seed moisture content, emergence in flowerbed, infested seed exam and seed health (deep-freezing method). Germination and emergence velocity index were determined. Maize landraces seeds of different varieties presented a great percentage of physical purity and germination, which were over the minimum standards values required for commercialization of corn seeds (98 and 85%, respectively), even after storage. Seed moisture content remained below 13% before and after storage, standing out the potential of Nothern Minas Gerais for production and conservation of high-quality seeds. Three varieties presented infestation higher than the maximum values accepted for corn seeds commercialization (3%), indicating the need of better pests control during storage. Samples of three varieties have not reached satisfy standard values of retention on the same sieve (94%), indicating the need of better standardization on size classification of some seed lots.
Os objetivos deste trabalho foram avaliar a qualidade física, fisiológica e sanitária de sementes de 17 variedades de milho crioulo antes e após armazenagem em garrafas PET e comparar os resultados aos padrões já estabelecidos para comercialização de cultivares comerciais de milho. Foram realizados os testes de pureza física, retenção de peneiras, massa de 1000 sementes, grau de umidade, germinação, emergência em canteiro, índices de velocidade de germinação e emergência das sementes, além de exame de sementes infestadas. Pelos resultados obtidos, é possível concluir que as sementes de milho crioulo das diferentes variedades apresentam alta porcentagem de pureza física e germinação mesmo após o armazenamento, com valores acima dos padrões mínimos exigidos para comercialização de sementes de milho (98 e 85%, respectivamente). O grau de umidade das sementes das diferentes variedades de milho crioulo antes e após o armazenamento permaneceu abaixo de 13%, destacando-se a aptidão da região norte de Minas Gerais para a produção e conservação de sementes de qualidade. Três variedades apresentaram porcentagem de infestação superior ao padrão máximo recomendado (3%), sendo, portanto, necessário aprimorar o controle de pragas de grãos armazenados. São necessárias melhorias para uniformização de classificação das sementes por peneiras, já que as amostras de três variedades não alcançaram o padrão mínimo de 94% em uma mesma peneira, exigido pela legislação.
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One of the most important problems involving treatments with antibiotics against Aeromonas hydrophila isolated from fishes is that antibiotic resistance develops readily. The antimicrobial activity of chemotherapeutants in isolates from pacu Piaractus mesopotamicus (Holmberg, 1887) and tilapia Oreochromis niloticus (Linnaeus, 1758) was tested by the Kirby-Bauer disk method, over Mueller-Hinton surface agar previously inoculated with 100 µL of bacterial suspensions. After regular incubation, isolates from tilapia and pacu were uniformly resistant to amoxicillin, ampicillin, lincomycin, novobiocin, oxacillin, penicillin, and trimetoprim+sulfametoxazole. The A. hydrophila type strain presented resistance to the same antimicrobial substances and also against rifampicin; the bacterial isolate from pacu were the only strain resistant to tetracyclin. Isolates from both pacu and tilapia had intermediate reaction with erytromycin. The use of drugs in commercial fish farms in Brazil can favor the development of resistant bacterial strains in native fish species as already observed for exotic species, commercially produced for longer time.
Um dos maiores problemas envolvendo o tratamento com antibióticos contra Aeromonas hydrophila isolada de peixes confinados é a rápida resistência ao antibiótico desenvolvida pela bactéria. A atividade antimicrobiana de quimioterapêuticos em isolados a partir de pacu Piaractus mesopotamicus (Holmberg, 1887) e tilápia Oreochromis niloticus (Linnaeus, 1758) foi verificada pelo método de difusão de antibiótico em discos de Kirby-Bauer, sobre uma superfície de Agar Mueller-Hinton previamente inoculada com 100 µL de suspensão bacteriana. Após o período de incubação, os isolados de tilápia e pacu foram uniformemente resistentes a amoxicilina, ampicilina, lincomicina, novobiocina, oxacilina, penicilina e trimetoprim+sulfametoxazol. A cepa tipo para A. hydrophila apresentou resistência às mesmas substâncias antimicrobianas e também contra a rifampicina; o isolado bacteriano de pacu foi a única linhagem resistente a tetraciclina. Isolados de pacu e tilápia apresentaram resistência intermediária frente a eritromicina. O uso de medicamentos em pisciculturas comerciais no Brasil pode favorecer o desenvolvimento de linhagens bacterianas resistentes em espécies de peixes nativos, como já observado em espécies exóticas comercialmente produzidas há mais tempo.
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Many advances have been made in the understanding of intestinal electrolyte transport from the molecular to the whole-tissue level. This chapter discusses the molecular mechanisms of intestinal epithelial ion transport processes, as well as the intra- and extracellular factors involved in their regulation, as a framework for the understanding of virus-induced gastroenteritis. Based on the present knowledge of the effects of rotavirus (RV) infection on the physiology of the intestine at different levels of organization, a working model for the pathogenesis of RV diarrhea is presented in the chapter. The understanding of the pathogenic processes of viral diarrheas may serve as the basis for a rational approach in the design of novel therapeutic strategies and the search for new antiviral drugs.
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SUMMARY A greenhouse experiment was conducted to evaluate the effects of the native MVA fungi, Glomus clarum and Glomus etunicatum on phosphorus uptake and dry matter (DM) production of Lotus corniculatus under natural and modified soil conditions as well as the compability among the introduced and native fMVA species. The soil was a Hapiudalf. The treatments formed a 5x2x2 factorial with tive fMVA (Glomus clarum and Glomus etunicatum), mixture of native fungi plus either one of the two Glomus species and without inoculation; and pH 4.8 and 6.0 and two phosphorus levels, 30 and 90mg/kg of soil with three replications in completely randomized design. Greatest DM production and P accumulation were observed on the treatments with the highest P levels and liming to pH 6.0. Glomus clarum was effectjve and efficient in suppiying P to the plants when grown in soils with low P leveis (5.5ppm Mehlich extractor) and low soil pH (4.5) increasing ) DM production and P accumulation. However, under intermediate P leveis (15ppm Mehlich extractor and pH 4.5), the introduced fungi did not differ fron the control and native fMVA in regard to DM production, however P accumulation was greatest in the treatments that received Glomus clarum under intermediate pH (5.5). At medium P availability the introduced fungi were superior to the control and native fMVA in regard to DM. Higher percent root colonization rates corresponded to greatest DM yields, P accumulation and spore numbers after the crop giving evidence that fMVA introduction is viable when the native species are not efficient to a crop or become unefficient when the natural soil fertility is modified by fertilization or liming.
RESUMO Com o objetivo de avaliar o efeito de fMVA nativos, Glomus clarum e Glomus etunicatum, na absorção de fósforo (P) e produção de massa seca (MS) pelo cornichão (Lotus comiculatus L.) em condições naturais e modificadas pela calagem e verificar a compatibilidade entre as espécies introduzidas e os fMVA nativos ocorrentes no solo, conduziu-se um experimento em casa de vegetação, em solo Podzólico Vermelho Amarelo (Hapludalf). Os tratamentos constituiram-se de fatorial 5x2x2, ou seja, cinco níveis de combinação com fMVA (Glomus clarinn, Glomus etunicatum, fungos nativos, mistura de fungos nativos mais as duas espécies de Glomus e sem inoculação com fMVA); com pH 4,8 e 6,0 e duas doses de fósforo 30 e 90mg de P2O5/kg de solo, com três repetições, no delineamento inteiramente casualizado. Os maiores rendimentos de MS e acumulação de P foram obtidos nos tratamentos que receberam a dose mais alta de P e calagem para pH 6,0. O fMVA Glomus clarum foi efetivo e eficiente em suprir P às plantas de cornichão quando cultivado em solo com baixa disponibilidade de P (5,5ppm ex-trator Mehlich) e em condições de pH baixo (pH 4.5), aumentando a produção de MS a acumulação de P, mas quando em condição intermediária de P (15ppm extrator Mehlich) e pH baixo (pH 4,5) os fungos introduzidos não diferiram da testemunha e fMVA nativos para a produção de MS, mas a acumulação de P foi maior nos tratamentos que receberam Glomus clarum. Em condições de pH moderadamente baixo (pH 5,5) e disponibilidade intermediária de P os fungos introduzidos foram superiores à testemunha e fMVA nativos para a produção de MS. Os tratamentos com os maiores níveis de taxa de colonização micorrízica corresponderam aos de maiores rendimentos de MS, acumulação de P e ao maior número de esporos encontrados após o cultivo, evidenciando que a introdução de fMVA pode ser viável quando as espécies nativas não são eficientes para a cultura ou tornam-se ineficientes quando a fertilidade natural do solo é modificada por adubações e/ou calagem.