Diabetes impairs cortical map plasticity and functional recovery following ischemic stroke

Sweetnam-Holmes, Danielle

19 December 2011

One of the most common risk factors for stroke is diabetes. Diabetics are 2 to 4 times more likely to have a stroke and are also significantly more likely to show poor functional recovery. In order to determine why diabetes is associated with poor stroke recovery, we tested the hypotheses that diabetes either exacerbates initial stroke damage, or inhibits neuronal circuit plasticity in surviving brain regions that is crucial for successful recovery. Type 1 diabetes was chemically induced in mice four weeks before receiving a targeted photothrombotic stroke in the right forelimb somatosensory cortex to model a chronic diabetic condition. Following stroke, a subset of diabetic mice were treated with insulin to determine if controlling blood glucose levels could improve stroke recovery. Consistent with previous studies, one behavioural test revealed a progressive improvement in sensory function of the forepaw in non-diabetic mice after stroke. By contrast, diabetic mice treated with and without insulin showed persistent deficits in sensori-motor forepaw function. To determine whether these different patterns of stroke recovery correlated with changes in functional brain activation, forepaw evoked responses in the somatosensory cortex were imaged using voltage sensitive dyes at 1 and 14 weeks after stroke. In both diabetic and non-diabetic mice that did not have a stroke, brief mechanical stimulation of the forepaw evoked a robust and near simultaneous depolarization in the primary (FLS1) and secondary somatosensory (FLS2) cortex. One week after stroke, forepaw-evoked responses had not been remapped in the peri-infarct cortex in both diabetic and non-diabetic mice. Fourteen weeks after stroke, forepaw evoked responses in non-diabetic mice re-emerged in the peri-infarct cortex whereas diabetic mice showed very little activation, reminiscent of the 1 week recovery group. Moreover, controlling hyperglycemia using insulin therapy failed to restore sensory evoked responses in the peri-infarct cortex. In addition to these differences in peri-infarct responsiveness, we discovered that stroke was associated with increased responsiveness in FLS2 of non-diabetic, but not diabetic or insulin treated mice. To determine the importance of FLS2 in stroke recovery, we silenced the FLS2 cortex and found that it re-instated behavioural impairments in stroke recovered mice, significantly more so than naïve mice that still had a functioning FLS1. Collectively, these results indicate that both diabetes and the secondary somatosensory cortex play an important role in determining the extent of functional recovery after ischemic cortical stroke. Furthermore, the fact that insulin therapy after stroke did not normalize functional recovery, suggests that prolonged hyperglycemia (before stroke) may induce pathological changes in the brain’s circulation or nervous system that cannot be easily reversed. / Graduate

Diabetes

insulin

ischemic stroke

Secondary Somatosensory Cortex (S2)

Somatosensory Cortex

Streptozotocin (STZ)

Stroke

Stroke recovery

Primary Somatosensory Cortex (S1)

Neuroplasticity

voltage sensitive dye imaging (VSD)

muscimol

Mouse

A microcirculação da bolsa da bochecha do hamster sob a influência do diabetes mellitus experimental induzido por estreptozotocina: aspectos morfofuncionais / Microcirculation of hamster cheek pouch under the influence of exerimental diabetes mellitus induced by streptozocin morpho-functional aspects

Jemima Fuentes Ribeiro da Silva

28 May 2009

O Diabetes Mellitus é uma doença metabólica crônica com múltiplos fatores etiológicos (genético, viral e imunológico) que condiciona deficiência absoluta ou relativa de insulina, causando persistência de níveis elevados de glicose no sangue. Atualmente, o Diabetes Mellitus é considerado um importante problema de saúde devido a sua prevalência e alta morbimortalidade. Sua importância clínica resulta essencialmente de suas graves complicações, especialmente as microvasculares. A hiperglicemia crônica ou intermitente tem sido identificada como o fator indutor de lesão endotelial, sendo este, o agente desencadeante das complicações microvasculares. As células endoteliais, por serem influenciadas pela força hemodinâmica local, respondem com a transdução de sinais (mecanotransdução), as quais podem ser responsáveis pelo início de processos patológicos na parede dos vasos. Desta forma, o objetivo deste estudo foi analisar a microcirculação da bolsa da bochecha do hamster sob a influência do Diabetes Mellitus tipo 1 experimental induzido por estreptozotocina, avaliando seus aspectos morfofuncionais aos 6 e 15 dias de evolução da doença. As características morfológicas de arteríolas e vênulas foram estimadas por medidas do diâmetro do lúmen e da espessura da parede; pela densidade de volume e de área destes vasos na bolsa da bochecha; pela análise imunohistoquímica da expressão de actina, talina, alfa-actina de músculo liso, vimentina, laminina e colágeno IV através da microscopia de luz com a utilização um sistema semiquantitativo baseado em uma escala de intensidade de imunomarcação; e por microscopia eletrônica de transmissão. Também foi avaliado o relaxamento dependente do endotélio, medido pela variação do diâmetro do lúmen antes e após a aplicação de acetilcolina e a permeabilidade de vênulas pós-capilares à histamina, determinada pelo número de pontos de extravasamento plasmático. Nossos resultados mostraram que arteríolas e vênulas não apresentaram diferenças entre os grupos para o espessamento da parede, diâmetro luminal, densidade por área e de volume. A permeabilidade vascular, após 2 minutos da administração de histamina, foi diminuída significativamente nos grupos diabéticos, entretanto este achado não foi observado após 5 minutos da administração, o mesmo ocorrendo com a reatividade vascular. A expressão de actina, talina, laminina e vimentina esteve aumentada em arteríolas do grupo diabético com 6 dias de evolução da doença, sendo esta alteração persistente no grupo diabético de 15 dias de evolução para a laminina e a vimentina. Na microscopia eletrônica, partículas de ouro coloidal conjugadas a talina e a laminina se distribuíram no citoplasma e ao longo da superfície basal das células endoteliais. Na membrana basal, a laminina mostrou-se formando aglomerados. Essas evidências sugerem que aos 6 dias de evolução do diabetes as proteínas relacionadas a adesão com a matriz extracelular sofrem alteração possivelmente em resposta a mudanças na força hemodinâmica local promovida pela nova condição fisiológica induzida pela hiperglicemia. / Diabetes Mellitus is a chronic metabolic disease with multiple etiologic factors (genetic, viral and immunological) that results in absolute or relative insulin deficiency, causing persistent elevated blood glucose levels. Nowadays, Diabetes Mellitus is considered as an important health concern due to its increasing prevalence and high morbimortality. Its clinical importance comes from the complications, especially microvascular. Chronic or transitory hyperglycemia has been identified as endothelial harm inductor factor, being this the first outcome of microvascular complications. Endothelial cells, under local hemodynamic strength, produce signal transduction (mechanotransduction), which can be responsible for the beginning of pathological events in vessels wall. In this regard, the objective of this study was to analyze hamster cheek pouch microcirculation under the influence of type 1 diabetes mellitus induced by streptozotocin, evaluating its morpho-functional aspects at 6 and 15 days of diseases evolution. Morphological characteristics of arterioles and venules were estimated by the measurement of lumen diameter and wall thickness; the volume density and area of these vessels from cheek pouch; immunohistochemistry of the expression of actin, talin, smooth muscle alpha-actin, vimentin, laminin and type IV collagen through light microscopy with the utilization of a semi-quantitative score system based on the intensity of the immunostaining; and transmission electron microscopy. It was also evaluated the endothelium dependent relaxation, measured by the variation of lumen diameter before and after acetylcholine administration and post-capillary venules permeability to histamine, determined by number of points of plasma extravasation. Our results reveal that arterioles and venules do not show differences between the groups concerning wall thickness, luminal diameter, density per area and volume density. Vascular permeability, after 2 minutes of histamine administration, was reduced significantly in diabetic groups. However, this finding was not observed after 5 minutes of administration, the same occurring with vascular reactivity. The expression of actin, talin, laminin and vimentin was higher in arterioles of diabetic group with 6 days of evolution, being this alteration persistent in diabetic group at 15 days of evolution for laminin and vimentin. In electron microscopy, colloidal gold particles conjugated with talin and laminin were distributed at cytoplasm and basal surface of endothelial cells. In basement membrane, the laminin was forming clusters. These evidences suggest that at 6 days of diabetes course the proteins related to extracellular matrix adhesion were altered possibly due to changes in local hemodynamic forces caused by the new physiologic condition induced by hyperglycemia.

Diabetes mellitus experimental

Estreptozotocina

Matriz extracelular

Citoesqueleto

Imunohistoquímica

microcirculação

Diabetes

Immunohistochemistry

Microcirculation

Diabetes

Extracellular matrix

Cytoskeleton

Streptozotocin

Experimental diabetes mellitus

MORFOLOGIA

Papel potencial do ácido rosmarínico sobre biomarcadores de estresse oxidativo e acetilcolinesterase de ratos diabéticos induzidos por estreptozotocina / Potential role of rosmarinic acid on biomarkers of oxidative stress and acetylcholinesterase in streptozotocin-induced diabetic rats

Mushtaq, Nadia

22 April 2013

Oxidative stress plays an important role in diabetic pathogenesis. Rosmarinic acid (RA) was used for the first time as an antioxidant agent for inhibition of diabetic nephropathy. Oxidative stress induced by Streptozotocin (STZ) has been shown to damage pancreatic beta cell and produce hyperglycemia in rats, inducing diabetes. In the present study, an attempt was made in investigation, the efficiency of rosmarinic acid in preventing alteration of oxidative parameters in liver, kidney and acetylcholinesterase (AChE) in brain of diabetic rat induced by STZ. The animals were divided into six groups (n=8): control; ethanol; RA 10 mg/kg; diabetic; diabetic/ethanol; diabetic/RA 10 mg/kg.In diabetes, the brain region become affected and showed increased level of lipid peroxidation in hippocampus, cortex and striatum, compared with control. The increased in lipid peroxidation was decreased or maintained to the level of control by RA in hippocampus (28%), cortex (38%) and striatum (47%) of diabetic rats after 21 days treatment at the dose of 10 mg/kg body weight. Furthermore, we found that diabetes caused significant decreased in the activity of antioxidant enzymes i.e. superoxide dismutase (SOD), catalase (CAT), Delta-aminolevulinic acid dehydratase (ALA-D) and non- enzymatic parameter like ascorbic acid, non proteinthiol (NPSH) in liver and kidney. The diabetic group treated with RA (10 mg/kg body weight for 21 days) significantly increased the activity of enzymes SOD, CAT, ALA-D and nonenzymatic ascorbic acid, NPSH in liver and kidney. Furthermore, these results indicate that rosmarinic acid sigificantly mimic the oxidative stress produced during hyperglycemia in STZ-induced diabetic rats. In addition, rosmarinic acid is potential candidate in the prevention of any alteration of pathological condition in diabetes. We suggest that rosmarinic acid could be a suitable candidate for the treatment of diabetes. / O estresse oxidativo desempenha um papel significativo na patogênese do diabetes. O ácido rosmarínico (RA) foi utilizado pela primeira vez como agente antioxidante para a inibição da nefropatia diabética. O diabetes induzido por estreptozotocina (STZ) é capaz de destruir as células beta pancreáticas e produzir hiperglicemia causando estresse oxidativo. No presente estudo, investigou, a eficiência do ácido rosmarínico na prevenção de alteração de parâmetros oxidativos no fígado, rim e acetilcolinesterase (AChE) no cérebro de ratos diabéticos induzidos por STZ. Os animais foram divididos em seis grupos (n = 8): controle; etanol; RA 10 mg / kg; diabéticos; diabéticos /etanol; diabético / RA 10 mg / kg. Ratos diabéticos apresentaram um aumento do nível de peroxidação lipídica no hipocampo, córtex e estriado, em comparação com o controle. O tratamento com ácido rosmarínico (10 mg/kg) durante 21 dias preveniu o aumento da peroxidação lipídica no hipocampo (28%), no córtex (38%) e no estriado (47%) de ratos diabéticos. Além disso, o diabetes causou uma diminuição significativa na atividade das enzimas superóxido dismutase (SOD), catalase (CAT) e delta aminolevulínico-desidratase (ALA-D) e nos níveis dos antioxidantes nãoenzimáticos ácido ascórbico e tióis não-proteicos (NPSH) no fígado e no rim. O tratamento com ácido rosmarínico preveniu o decréscimo na atividade da SOD, CAT e ALA-D e o decréscimo nos níveis de ácido ascórbico e NPSH no fígado e no rim. Assim, os resultados encontrados neste estudo indicam que o ácido rosmarínico diminuiu o estresse oxidativo produzido pela hiperglicemia em ratos diabéticos induzidos por STZ. Dessa forma, é plausível sugerir que o ácido rosmarínico é um potencial candidato na prevenção de alterações no sistema colinérgico bem como de danos oxidativos observados no diabetes.

Estreptozotocina

Diabetes

Peroxidação lipidica

Acetilcolinesterase

Ácido rosmárinico

Fígado

Rim

Ratos

Streptozotocin

Diabetes

Lipid peroxidation

Acetylcholinesterase

Rosmarinic acid

Liver

Kidney

Rats

CNPQ::CIENCIAS BIOLOGICAS::BIOQUIMICA

The effects of the wild african potato (hypoxis hemerocallidea) supplementation on streptozotocin-induced diabetic wistar rats reproductive function

Jordaan, Audrey Emmerentia

January 2015

Thesis (MTech (Biomedical Technology))--Cape Peninsula University of Technology, 2015. / Diabetes mellitus (DM) has been reported to be one of the greatest global public health threats. Statistics of the fertility status of modern society has linked increased DM to a decrease in fertility rates. Hyperglycaemia is characteristic of DM that results in a disturbance of proteins, lipids and carbohydrate metabolism leading to an increase production of reactive oxygen species (ROS). In the case where ROS overwhelms antioxidant mechanisms, the body goes into state of oxidative stress (OS). OS plays a vital role in the progression of DM which leads to dysfunction and damage of various organs including that of the reproductive system. Os has shown to cause damage to the sperm membraneby oxidation of polyunsaturated fatty acids (PUFA’s) as the sperm membrane are rich in PUFA’s. This damage contributes to reduced sperm motility, concentration, morphological abnormalities and the sperms ability to fuse with the ZP of the oocyte. DM has been observed to cause testicular degeneration by interrupting sertoli cell production and maintenance thus resulting in a disturbance of the normal functioning of the reproductive system. Experimental studies have targeted more natural sources for treating DM and its complications of the reproductive system. Plants and natural dietary substances have shown to have high antioxidant contents that combat DM induced oxidative stress. This study explored the effect the Hypoxis hemerocallidea (H. hemerocallidea) supplementation on testicular and epididymal tissue, sperm motility and reproductive hormones in male wistar rats. The experiment were conducted for 6 weeks and the rats (230-260 grams) were randomly divided into 5 groups (n=12 per group). Diabetes was induced in 3 of the 5 groups. The first group was the normal control group (A), second the diabetic control group (B), third was the diabetic group treated with 800mg/kg H. hemerocallidea (group C), fourth the diabetic group treated with 200mg/kg H. hemerocallidea (group D) and fifth the non-diabetic group supplemented with 800mg/kg H. hemerocallidea (group E). Blood glucose showed a significant increase in the diabetic group when compared to the normal control and treated groups. H. hemerocallidea showed improvement in sperm motility and sperm morphology more at 800mg/kg when compared to diabetic group and diabetic group treated with 200mg/kg. Body, testicular and epipidymal weights of diabetic control were significantly lower when compared to the other groups. Testicular and epididymal Malondialdehyde levels were decreased in normal control, diabetic groups treated with different doses of H. hemerocallidea and the non-diabetic group supplemented with H. hemerocallideaon comparing with the diabetic control group. Antioxidants such as Superoxide dismutase, Catalase and total Glutathione activity was observed to be dosage dependent in certin groups but most showed a significant increase when compared to the diabetic control group. The total antioxidant capacity was measured using Oxygen radical absorbance capacity (ORAC) and Ferric ion reducing antioxidant power (FRAP); increase was observed when normal control group and treated groups were compared to the diabetic group. Testosterone and estradiol levels were also increased when the normal control group and treated groups were compared to the diabetic control group. Based on our findings it can be concluded that H. hemerocallidea supplementation can potentially be used to counteract deleterious effects of DM on the male reproductive system.

Oxidative stress

Diabetes mellitus

Male reproduction system

H. hemerocallidea

Streptozotocin

Rats -- Physiology

Diabetes -- Physiological aspects

Reproductive health

Potatoes -- Therapeutic use

Infertility, Male

Antioxidants -- Health aspects

A microcirculação da bolsa da bochecha do hamster sob a influência do diabetes mellitus experimental induzido por estreptozotocina: aspectos morfofuncionais / Microcirculation of hamster cheek pouch under the influence of exerimental diabetes mellitus induced by streptozocin morpho-functional aspects

Jemima Fuentes Ribeiro da Silva

28 May 2009

O Diabetes Mellitus é uma doença metabólica crônica com múltiplos fatores etiológicos (genético, viral e imunológico) que condiciona deficiência absoluta ou relativa de insulina, causando persistência de níveis elevados de glicose no sangue. Atualmente, o Diabetes Mellitus é considerado um importante problema de saúde devido a sua prevalência e alta morbimortalidade. Sua importância clínica resulta essencialmente de suas graves complicações, especialmente as microvasculares. A hiperglicemia crônica ou intermitente tem sido identificada como o fator indutor de lesão endotelial, sendo este, o agente desencadeante das complicações microvasculares. As células endoteliais, por serem influenciadas pela força hemodinâmica local, respondem com a transdução de sinais (mecanotransdução), as quais podem ser responsáveis pelo início de processos patológicos na parede dos vasos. Desta forma, o objetivo deste estudo foi analisar a microcirculação da bolsa da bochecha do hamster sob a influência do Diabetes Mellitus tipo 1 experimental induzido por estreptozotocina, avaliando seus aspectos morfofuncionais aos 6 e 15 dias de evolução da doença. As características morfológicas de arteríolas e vênulas foram estimadas por medidas do diâmetro do lúmen e da espessura da parede; pela densidade de volume e de área destes vasos na bolsa da bochecha; pela análise imunohistoquímica da expressão de actina, talina, alfa-actina de músculo liso, vimentina, laminina e colágeno IV através da microscopia de luz com a utilização um sistema semiquantitativo baseado em uma escala de intensidade de imunomarcação; e por microscopia eletrônica de transmissão. Também foi avaliado o relaxamento dependente do endotélio, medido pela variação do diâmetro do lúmen antes e após a aplicação de acetilcolina e a permeabilidade de vênulas pós-capilares à histamina, determinada pelo número de pontos de extravasamento plasmático. Nossos resultados mostraram que arteríolas e vênulas não apresentaram diferenças entre os grupos para o espessamento da parede, diâmetro luminal, densidade por área e de volume. A permeabilidade vascular, após 2 minutos da administração de histamina, foi diminuída significativamente nos grupos diabéticos, entretanto este achado não foi observado após 5 minutos da administração, o mesmo ocorrendo com a reatividade vascular. A expressão de actina, talina, laminina e vimentina esteve aumentada em arteríolas do grupo diabético com 6 dias de evolução da doença, sendo esta alteração persistente no grupo diabético de 15 dias de evolução para a laminina e a vimentina. Na microscopia eletrônica, partículas de ouro coloidal conjugadas a talina e a laminina se distribuíram no citoplasma e ao longo da superfície basal das células endoteliais. Na membrana basal, a laminina mostrou-se formando aglomerados. Essas evidências sugerem que aos 6 dias de evolução do diabetes as proteínas relacionadas a adesão com a matriz extracelular sofrem alteração possivelmente em resposta a mudanças na força hemodinâmica local promovida pela nova condição fisiológica induzida pela hiperglicemia. / Diabetes Mellitus is a chronic metabolic disease with multiple etiologic factors (genetic, viral and immunological) that results in absolute or relative insulin deficiency, causing persistent elevated blood glucose levels. Nowadays, Diabetes Mellitus is considered as an important health concern due to its increasing prevalence and high morbimortality. Its clinical importance comes from the complications, especially microvascular. Chronic or transitory hyperglycemia has been identified as endothelial harm inductor factor, being this the first outcome of microvascular complications. Endothelial cells, under local hemodynamic strength, produce signal transduction (mechanotransduction), which can be responsible for the beginning of pathological events in vessels wall. In this regard, the objective of this study was to analyze hamster cheek pouch microcirculation under the influence of type 1 diabetes mellitus induced by streptozotocin, evaluating its morpho-functional aspects at 6 and 15 days of diseases evolution. Morphological characteristics of arterioles and venules were estimated by the measurement of lumen diameter and wall thickness; the volume density and area of these vessels from cheek pouch; immunohistochemistry of the expression of actin, talin, smooth muscle alpha-actin, vimentin, laminin and type IV collagen through light microscopy with the utilization of a semi-quantitative score system based on the intensity of the immunostaining; and transmission electron microscopy. It was also evaluated the endothelium dependent relaxation, measured by the variation of lumen diameter before and after acetylcholine administration and post-capillary venules permeability to histamine, determined by number of points of plasma extravasation. Our results reveal that arterioles and venules do not show differences between the groups concerning wall thickness, luminal diameter, density per area and volume density. Vascular permeability, after 2 minutes of histamine administration, was reduced significantly in diabetic groups. However, this finding was not observed after 5 minutes of administration, the same occurring with vascular reactivity. The expression of actin, talin, laminin and vimentin was higher in arterioles of diabetic group with 6 days of evolution, being this alteration persistent in diabetic group at 15 days of evolution for laminin and vimentin. In electron microscopy, colloidal gold particles conjugated with talin and laminin were distributed at cytoplasm and basal surface of endothelial cells. In basement membrane, the laminin was forming clusters. These evidences suggest that at 6 days of diabetes course the proteins related to extracellular matrix adhesion were altered possibly due to changes in local hemodynamic forces caused by the new physiologic condition induced by hyperglycemia.

Diabetes mellitus experimental

Estreptozotocina

Matriz extracelular

Citoesqueleto

Imunohistoquímica

microcirculação

Diabetes

Immunohistochemistry

Microcirculation

Diabetes

Extracellular matrix

Cytoskeleton

Streptozotocin

Experimental diabetes mellitus

MORFOLOGIA

Efeitos dos ácidos graxos na função de macrófagos de camundongos com diabetes tipo I induzido. / Effects of fatty acids in macrophage function from type I diabetic mice.

Mariana Rodrigues Davanso Braga

31 July 2017

O diabetes mellitus tipo I (DMI) é uma doença crônica autoimune caracterizada por hiperglicemia devido à destruição das células beta pancreáticas produtoras de insulina. Ao final de 30 dias da indução do diabetes por estreptozotocina, os macrófagos peritoneais residentes dos animais diabéticos apresentaram aumento de RNAm de citocinas e quimiocinas inflamatórias, secreção de óxido nítrico, expressão de NLRP3, iNOS e PARP1 e da atividade da via glicolítica. Perfil pró-inflamatório também foi observado em macrófagos peritoneais de animais NOD (non-obese diabetic). Camundongos diabéticos deficientes em NLRP3 (NLRP3 KO) apresentaram diminuição na expressão de iNOS, PARP1 e na produção de NO em relação aos macrófagos dos animais diabéticos selvagens. O estado diabético tipo I influenciou o perfil dos macrófagos peritoneais residentes, causando aumento na produção de NO, via NLRP3-PARP1-iNOS, expressão de citocinas pró-inflamatórias, receptores de quimiocinas e da atividade glicolítica. O tratamento com DHA (ômega-3) ex-vivo reverteu este perfil e atenuou o quadro pró-inflamatório por diminuição da produção de NO e da expressão de citocinas pró-inflamatórias. / Type I diabetes mellitus (DMI) is a chronic autoimmune disease characterized by hyperglycemia due to the destruction of insulin-producing pancreatic beta cells. At the end of 30 days after type I diabetes induced by streptozotocin, macrophages from diabetic animals had increased expressions of inflammatory cytokines and chemokines, secretion of nitric oxide, expression of NLRP3, iNOS and PARP1, and glycolytic activity compared to the cells from control animals. Proinflammatory features was also observed in peritoneal macrophages of NOD (non-obese diabetic) animals. Macrophages from NLRP3 deficient diabetic mice (NLRP3 KO) had decreased expression of iNOS, PARP1 and of NO production when compared to cells from wild type animals. The type I diabetic state led to a proinflammatory feature in resident peritoneal macrophages by increasing NO production, via the NLRP3-PARP1-iNOS pathway, expressions of proinflammatory cytokines, chemokine receptors and glycolytic activity. In contrast, ex-vivo treatment with DHA (omega-3) reversed this profile and attenuated the proinflammatory state by reducing NO production and expression of proinflammatory cytokines.

Ácidos graxos

DHA

Diabetes mellitus tipo I

Estreptozotocina

Inflamação

Macrófago

Ômega-3

DHA

Fatty acids

Inflammation

Macrophage

Omega-3

Streptozotocin

Type I diabetes mellitus

Perfil diário e os mecanismos de produção de melatonina pela glândula pineal de ratos diabéticos por estreptozotocina. / Pineal melatonin production in Streptozotocin-diabetic rats: mechanisms and microdialysis daily profile.

Fernanda Gaspar do Amaral

27 October 2009

A pineal participa da sincronização do organismo pela síntese de melatonina. Diabetes é um distúrbio metabólico caracterizado por hiperglicemia. Diante da controvérsia sobre a síntese de melatonina em animais diabéticos, esse trabalho objetivou avaliar as alterações da glândula pineal mediante o diabetes induzido por STZ (60mg/kg, i.p.). Ratos wistar (250-280g, 12h/12h claro/escuro) foram utilizados em todos os procedimentos que envolveram técnicas de FACS, microdiálise, HPLC, radiometria da atividade enzimática e qPCR. Os resultados mostraram que o diabetes causa diminuição (50%) e perda do perfil mono/bifásico da síntese pineal de melatonina, que não é causada por necrose ou apoptose dos pinealócitos e reflete um desarranjo no metabolismo pineal, evidenciado pela diminuição na atividade da AANAT (55%). Observou-se também um desbalanço rítmico de fatores determinantes como a expressão do receptor ß1 e a atividade e expressão das enzimas TPH1 e HIOMT. A menor concentração de melatonina circulante pode ser um fator contribuinte para o desenvolvimento da doença. / The gland is involved in the organism synchronization via its hormone melatonin. Diabetes involves hyperglicemia and insulin synthesis/signaling impairment. The aim of this work was to evaluate the pineal melatonin synthesis in STZ-diabetic rats (60mg/kg, i.p.). Male wistar rats (250-280g, 12h/12h light/dark) were used as the animal model and FACS, microdialysis, HPLC, enzyme activity assay and qPCR were the techniques used to evaluate the pineal phisiology. The results show a decrease in pineal melatonin (50%) and a circadian profile impairment that were not due to necrosis or apoptosis. This finding reflects an important impairment in the pineal metabolism that was related to a decrease in AANAT activity (55%). An alteration in the rhthmicity of important factors, such as the ß1-adrenergic receptor expression and the TPH1 and HIOMT activity and expression, was also observed. This decrease in circulating melatonin may be of fundamental importance to the establishment and maintenance of diabetes.

AANAT

Diabetes Mellitus

Estreptozotocina

Glândula Pineal

Mecanismos de controle celular

Melatonina (Produção)

Microdiálise

Ratos

AANAT

Cellular control mechanisms

Diabetes Mellitus

Melatonin (Production)

Microdialysis

Pineal

Rats

Streptozotocin

Stress-inducible Mig6 promotes pancreatic beta cell destruction in the pathogenesis of diabetes

Chen, Yi-Chun

08 December 2014

Indiana University-Purdue University Indianapolis (IUPUI) / Pancreatic insulin-secreting beta cell failure is central to the development of diabetes. Therapeutic applications targeted at understanding and manipulating beta cell destruction mechanisms should enhance the preservation of functional beta cell mass and prevent diabetes. To this end, we have demonstrated that diabetogenic assaults (e.g., endoplasmic reticulum stress, glucolipotoxicity, and pro-inflammatory cytokines) attenuate the activation of beta cell pro-survival signaling pathways via a stress-inducible molecule called Mitogen-inducible gene 6 (Mig6). We discovered that the overabundance of Mig6 exacerbates stress-induced beta cell apoptosis and inhibits insulin secretion. Conversely, the deficiency of Mig6 partially protected beta cells from DNA damage-induced cell death. Further, we established that Mig6 haploinsufficient mice retained islet integrity and function and exhibited greater beta cell mass recovery following treatment with multiple low doses of the beta cell toxin streptozotocin. These data suggest that Mig6 may be a therapeutic target for beta cell preservation in diabetes.

Diabetes

Pancreatic beta cells

EGFR

Mig6

Pancreatic beta cells -- Preservation

Pancreatic beta cells

Diabetes -- Development

Streptozotocin

Apoptosis

Mitogens

Diabetes

Diabetes -- Research

Transgenic mice -- Research

Porovnání transgenního a streptozotocinového modelu Alzheimerovy choroby: validace systému IntelliCage pro behaviorální fenotypizaci / Comparison of transgenic and streptozotocin models of Alzheimer in rats: validation of IntelliCage system for behavioral phenotypization

Svobodová, Eva

January 2021

Animal models of Alzheimer's disease display cognitive insufficiencies which mimic human symptoms and occur at a given age or post-treatment time. Animals are typically tested using canonical behavioral tests, lasting minutes and taking place mostly in the non-active period of the daily cycle. Animals are exposed to certain amounts of manipulation-induced stress. Our work represents a validation study for the rat behavioral system IntelliCage. The tested individuals live freely in a group and their behavior is monitored continuously. It is however possible to set up individual tests for each animal or a group of animals. The rats are not subject to human manipulation and hence the results are not affected by manipulation-induced stress. We tested early cognitive impairment in the transgenic rat model TgF344-AD at 6 - 8 months of age. Further, we tested two most common protocols of the streptozotocin model, i.e. single dose of intracerebroventricular 3 mg/kg streptozotocin and double dose 48 hrs apart. Results were compared with the canonical Morris Water Maze (MWM) test. In the MWM test, transgenic animals did not differ from controls in any of the studied parameters. The streptozotocin model displayed a deficit only in the double dose group. However in the IntelliCage, transgenic animals displayed...

Le rôle du récepteur B1 des kinines dans l'insulite et dans les complications du diabète de type 1 dans un modèle de choc spectique

Tidjane, Nejla

04 1900

Les kinines sont des peptides vasoactifs et des neuromédiateurs centraux impliqués dans le contrôle cardiovasculaire, la douleur et l’inflammation. Leurs actions sont relayées par deux types de récepteurs couplés aux protéines G : le récepteur B2 (RB2), constitutif, et le récepteur B1 (RB1), inductible en présence de lésions tissulaires, de cytokines pro-inflammatoires, d’endotoxines bactériennes et dans certaines pathologies tel que le diabète. Le diabète sucré augmente à l’échelle mondiale et son étiologie est complexe; il aggrave les infections sévères et augmente la mortalité par hyperbactériémie résistante à un contrôle thérapeutique et une prise en charge en soins intensifs. Les décès surviennent dans la grande majorité des cas à la suite de l'apparition d'une coagulation intra- vasculaire disséminée (CIVD). Ce projet a pour but d’étudier le rôle du RB1 dans la CIVD dans un modèle de diabète de type 1 induit par la streptozotocine (STZ) (Article 1) et dans l’insulite (Article 2). La CIVD est produite par l’injection de lipopolysaccharide (LPS, 2 mg/kg, i.p.), 4 jours après le traitement à la STZ (65 mg/kg, i.p.). Dans le premier article, nous avons montré une augmentation significative de l'œdème et de la perméabilité vasculaire par le bleu d’Évans dans le rein, le poumon, le coeur et le foie chez les rats traités au LPS et/ou à la STZ, une situation qui favorise une hémoconcentration et le développement d'un état d'hypercoagulabilité. Nous avons aussi montré la présence d'indices de thrombus et de lésions tissulaires dans l'étude histologique ainsi qu’une augmentation de l'expression du RB1 dans le coeur, le rein et les plaquettes sanguines. Un traitement avec l’antagoniste du RB1, le SSR240612, a corrigé l’apparition de ces anomalies et a rendu normale la glycémie chez les rats STZ et l’hyperthermie induite par le LPS. De même, le SSR240612 a nettement amélioré la survie des animaux. Les bénéfices du SSR240612 ont été reproduits par l’inhibition de la iNOS avec le 1400W et de la COX-2 avec l’acide niflumique, suggérant que les médiateurs de ces enzymes pro-inflammatoires agissent en aval du RB1.Dans le deuxième article, le rat STZ est traité du jour 4 au jour 7 avec le SSR240612 (10 mg/kg/jr per os). Cet antagoniste du RB1 bloque l’infiltration du pancréas par les macrophages et les lymphocytes TCD4+ qui sont porteurs du RB1. L’antagoniste prévient aussi l’augmentation de l’expression de la iNOS, du TNF-α, du RB1 et du TRPV1 dans le pancréas des rats diabétiques. Le traitement avec l’antagoniste du RB1 a limité la perte des cellules β des îlots de Langerhans et a corrigé l’hypoinsulinémie et l’hyperglycémie. Ces deux études mettent en lumière un rôle important du RB1 dans la létalité associée au choc septique, à la thrombose et à l’insulite. Par conséquent, le RB1 représente une cible thérapeutique prometteuse dans le traitement du diabète et de ses complications. / Kinins are vasoactive peptides and central neuromediators involved in cardiovascular control, pain and inflammation. Their effects are mediated by two G protein-coupled receptors: the constitutive B2 receptor (B2R) and the inducible B1 receptor (B1R) that is upregulated during tissue injury, in the presence of proinflammatory cytokines, bacterial endotoxins and diabetes. Diabetes has reached epidemic level and its etiology is complex. Diabetes mellitus worsens severe infections and increases mortality caused by hyperbacteremia resistant to therapeutic control and management in intensive care units. Mortality is largely secondary to the occurrence of disseminated intravascular coagulation (DIC). This project examines the role of B1R in DIC in a model of type 1 diabetes induced by streptozotocin (STZ) (Article 1) and insulitis (Article 2). DIC was induced by injection of lipopolysaccharide (LPS, 2 mg/kg i.p.) four days after treatment with STZ (65 mg/kg, i.p.). In the first article, we have shown a significant increase in edema and vascular permeability (Evans blue) in kidney, lung, heart and liver in rats treated with LPS and/or STZ, increasing the haemoconcentration and the development of hypercoagulability state. Also, we showed the presence of thrombus formation and tissue damage by histological studies, and increased expression of B1R in the heart, kidney and platelets. Treatment with the B1R antagonist, SSR240612, alleviated all those abnormalities, in addition to reducing hyperglycemia in STZ rats, LPS-induced hyperthermia and improving survival. The beneficial effects of SSR240612 were reproduced by the inhibition of iNOS with 1400W and of COX-2 with niflumic acid, suggesting that the mediators of these proinflammatory enzymes act downstream to B1R. In the second article, STZ rats were treated with SSR240612 (10 mg/kg/d, per os) from day 4 to day 7. This B1R antagonist blocked the infiltration of the pancreas by macrophages andTCD4+ lymphocytes which express B1R. The antagonist also prevented the increased expression of iNOS, TNF-α, B1R and TRPV1 in the pancreas of STZ-diabetic rats. The treatment with the B1R antagonist limited the loss of Langerhans β cells, which improved plasma insulin and normalized hyperglycemia. These studies highlight a primary role for B1R in lethality associated with septic shock, thrombosis and insulitis. Therefore, kinin B1R is a promising therapeutic target in the treatment of diabetes and its complications.

diabète

Lipopolysaccharide

Choc septique

TRPV1

lymphocyte TCD4+

TRPV1

Assaut immun

Récepteur B1 des kinines

Streptozotocine

Hyperglycémie

Diabetes

Immune assault

Kinin B1 receptor

Streptozotocin

hyperglycemia

Macrophage