Recovery from focal brain ischemia induced by extradural compression in diabetic and non-diabetic rats /

Moreira, Tiago J. T. Prazeres,

January 2006

Diss. (sammanfattning) Stockholm : Karol. inst., 2006. / Härtill 4 uppsatser.

The Role of Poly(ADP-ribose) polymerase-1 and NF-kappa B in the development of diabetic retinopathy /

Zheng, Ling.

January 2005

Thesis (Ph. D.)--Case Western Reserve University, 2005. / [School of Medicine] Department of Pharmacology. Includes bibliographical references. Available online via OhioLINK's ETD Center.

Avaliação do reparo de defeito ósseo em calvária de ratos diabéticos tratados com Matriz Óssea Desmineralizada / Evaluation of repair of bone defects in skulls of diabetic rats treated with Demineralized Bone Matrix

Bruna Barros Bighetti

10 October 2011

O objetivo deste trabalho foi avaliar as atividades osteoindutoras e osteocondutoras da matriz alogênica óssea desmineralizada (MAOD) frente à diabetes no reparo de defeito de tamanho crítico em calvárias de ratos diabéticos. Para isso, 100 ratos machos Wistar foram divididos em 2 grupos: no grupo diabético (DIAB, n=50) foi injetado 47 mg/Kg de massa corporal de estreptozotocina, enquanto que no grupo controle (CTL, n=50) foi injetado solução fisiológica a 0,9%. A MAOD foi obtida de 50 ratos, cujo fêmur e tíbia foram retirados, desmineralizados com HCl a 0,6M por 24 horas, particulados em 1-2mm³, neutralizados com soro fisiológico e armazenados em álcool. Após a anestesia, foram realizados defeitos ósseos de 8 mm nas calvárias dos animais, sendo os grupos CTL COAG (n=25) e DIAB COAG (n=25) preenchidos com coágulo e os grupos CTL MAOD (n=25) e DIAB MAOD (n=25) preenchidos com MAOD. Após os períodos de 0, 7, 14, 21 e 42 dias, as calvárias foram coletadas. A análise radiográfica mostrou que houve formação de ilhas radiodensas no interior dos defeitos nos grupos CTL e DIAB tratados com MAOD, enquanto que nos grupos tratados com coágulo houve formação de áreas mais radiodensas somente nas bordas do defeito, corroborando com os resultados morfológicos, que mostraram nos grupos tratados com coágulo que o reparo ósseo teve início nas bordas do defeito, enquanto que nos grupos tratados com MAOD, a neoformação óssea ocorreu também nas áreas de reabsorção nas partículas de MAOD. De acordo com os resultados morfométricos, o volume de tecido ósseo aumentou gradativamente em todos os grupos, porém, esse aumento foi maior nos grupos CTL em relação aos seus respectivos tratamentos nos grupos DIAB (CTL COAG > DIAB COAG e CTL MAOD > DIAB MAOD) e maior quando comparados os grupos tratados com MAOD versus os respectivos grupos tratados com COAG (CTL MAOD > CTL COAG e DIAB MAOD > DIAB COAG). Assim, ao término de 42 dias, o volume de tecido ósseo no grupo CTL MAOD foi em média 3,24 vezes maior em relação aos demais grupos, os grupos CTL COAG e DIAB MAOD não apresentaram diferenças significativas e o grupo DIAB MAOD foi 1,81 vezes maior em relação ao DIAB COAG. Com esses resultados, conclui-se que embora o quadro de diabetes tenha influenciado no atraso do reparo, ainda assim, pode-se afirmar que a MAOD contribuiu com a neoformação óssea e com o reparo do defeito na calvária de animais saudáveis e diabéticos, por terem sido preservadas as suas características osteoindutoras e osteocondutoras. / The aim of this work was to evaluate the osteoinductive and osteoconductive activities of demineralized allogeneic bone matrix (DABM) against diabetes in repairing critical size defects in diabetic rats skulls. Therefore, 100 male Wistar rats were shered into two groups: in the diabetic group (DIAB, n=50) was 47 mg/Kg of body weight streptozotocin, while in the control group (CTL, n=50) was injected saline 0.9%. The DABM was obteined using 50 rats which were removed their femur and tibia bones, demineralized in 0.6 N HCl during 24 hours, cut into 1-2mm³ pieces, neutralized in saline and stored in alcohol. After anesthesia, were made 8 mm bone defects on skulls of rats, being the CTL CLOT group (n=25) and DIAB CLOT group (n=25) filled with blood clot and the CTL DABM group (n=25) and DIAB DABM group (n=25) filled with DABM. After 0, 7, 14, 21 and 42 days, the skulls were collected. The radiographic analysis showed radiodense islets inside the defects filled with DABM in CTL and DIAB groups, while groups filled with blood clot showed radiodense areas near the defect border, which is in agreement to the morphologic results, that had showed the begining of bone healing was near the defects border in groups filled with blood clot, while groups filled with DABM showed new bone formation also in resorption DABM areas. According to morphometric results, the volume of bone tissue had increased in all groups, however, this increase was more accentuated in CTL groups when compared to DIAB groups with respected treatments (CTL CLOT > DIAB CLOT and CTL DABM > DIAB DABM) and bigger when groups treated with DABM are compared to respestive groups treated with CLOT (CTL DABM > CTL CLOT e DIAB DABM > DIAB CLOT). Thereby, at the end of 42 days, the CTL DABM bone tissue volume was 3.24 greater than the other groups, the CTL CLOT and DIAB DABM groups didnt show any significant differenceand the DIAB DABM was 1,81 greater than DIAB CLOT. From these results, the conclusion is that although diabetes had delayed the repair, nevertheless, DABM contributed to bone neoformation and to the defect repair in skulls of healthy and diabetic animals, due to the osteoinductive and osteoconductive qualities had been preserved.

Crânio

Diabetes Mellitus experimental

Matriz óssea

Bone matrix

Experimental Diabetes Mellitus

Skull

Avaliação das citocinas TNF-α, RANKL e OPG e do número de osteoclastos no reparo de defeito ósseo em calvária de ratos diabéticos tratados com matriz óssea desmineralizada / Evaluation of cytokines TNF-α, RANKL and OPG and the number of osteoclasts on repair of bone defects in skulls of diabetic rats treated with demineralized bone matrix

Bruna Barros Bighetti

08 July 2016

Neste trabalho, foi avaliado a participação dos osteoclastos bem como a ação das citocinas RANKL, OPG e TNF-α durante a formação e remodelação óssea em defeitos ósseos de tamanho crítico em ratos normoglicêmicos e diabéticos tratados ou não com a MAOD. Para isso, foram utilizados 250 ratos machos Wistar. Trinta ratos foram utilizados para coleta dos fêmures e tíbias, os quais foram processados para obtenção da MAOD. Os demais 220 ratos foram divididos em Grupo Não Diabétido (CTL, n=110) e Grupo Diabético (DIAB, n= 110) induzido pela aplicação de uma dose única de 47 mg/Kg de massa corporal de estreptozotocina. Um defeito transósseo de 8 mm de diâmetro foi realizado nos ossos parietais dos ratos, sendo que, nos subgrupos CTL MAOD e DIAB MAOD, os defeitos foram preenchidos com MAOD e nos grupos CTL COAG e DIAB COAG apenas com coágulo sanguíneo. Após 0, 7, 14, 21 e 42 dias, as calotas cranianas foram coletadas para determinação da densidade de volume, número de osteoclastos/mm2 na área do defeito, quantificação por imunoistoquimica e expressão do RNAm para as proteínas RANKL, OPG e TNF-α. Os resultados para volume do tecido ósseo neoformado foi maior nos grupos CTL COAG e CTL MAOD, bem como no grupo DIAB MAOD quando comparado com DIAB COAG (CTL MAOD > CTL COAG e DIAB MAOD > DIAB COAG). O número de osteoclastos nos grupos CTL aumentaram significantemente (3,69 osteoclasto/mm2), enquanto que nos grupos MAOD aumentaram gradualmente até os 42 dias (2,8 osteoclasto/mm2). Os resultados para imunomarcação mostraram que a MAOD promove 1,28 vezes maior expressão de OPG, bem como de TNF-α tanto no grupo CTL (1,59 vezes) como no DIAB (1,76 vezes). Os resultados para expressão do RNAm para OPG mostrou que a média dos valores do grupo COAG comparado com a do grupo MAOD foi 1,91 vezes maior no grupo COAG. Já os valores para expressão de RANKL permaneceram constantes no grupo DIAB MAOD, com aumento significativo de 2,57 vezes aos 42 dias, sendo 4,3 vezes maior, quando comparado com a média dos outros grupos no mesmo período. Conclui-se que nos animais normoglicemicos, o tratamento com a MAOD aumenta a expressão de OPG, RANKL e TNF-α, assim como a atividade osteoclástica, promovendo reabsorção da MAOD e formação de tecido ósseo, enquanto que nos animais diabéticos, a atividade osteoclástica foi reduzida, sem alteração nos níveis de OPG e RANKL, reduzindo a reabsorção da MAOD e consequentemente da formação óssea. / Participation of osteoclasts was evaluated in reabsorption process of demineralized allogenic bone matrix (DABM) as well as the activity of cytokines RANKL, OPG and TNF- α during formation and bone remodeling in critial size defect of normoglycemic and diabetic rats treated or not with DABM. Therefore, 250 male Wistar rats were used. Thirty rats had femurs and tibias collected and processed to obtain DABM. 220 rats were divided into control group (CTL, n=110) and diabetic group (DIAB, n= 110) injected by a single dose of 47 mg/Kg of body weight streptozotocin. Were made 8mm bone defect on skulls of rats, in subgroups CTL DABM and DIAB DABM, defects were filled with DABM and subgroups CTL CLOT and DIAB CLOT were filled with blood clot. After 0, 7, 14, 21 and 42 days, the skulls were collected to determine the volume density, number of osteoclasts/mm2 into defects area, quantification by immunohistochemistry and RNAm expression of RANKL, OPG and TNF-α cytokines. The results of volume density of newly formed bone was higher in CTL CLOT and CTL DABM, as well as in DIAB DABM compared to DIAB CLOT (CTL DABM > CTL CLOT and DIAB DABM > DIAB CLOT). The number of osteoclasts in CTL groups increased to 3,69 osteoclasts/mm2, while in subgroups treated with DABM gradually increased up until 42 days (2,8 osteoclasts/mm2). Immunohistochemistry showed that DABM promotes an increase of 1.28-fold of OPG expression, as well as TNF-a expression in CTL group (1.59-fold) and DIAB group (1.76-fold). The results of RNAm expression of OPG showed that the average values of the CLOT subgroup compared to the average values of DABM subgroup was 1.91- fold higher in CLOT subgroup. The values of RANKL RNAm expression increase 2.57-fold at 42 days, being 4.3-fold higher than the average os the other groups in the same period. In conclusion, in the normoglicemic animals (CTL group), the treatment with DABM increase the expression of OPG, RANKL and TNF-α as the activity of osteoclasts, leading to DABM resorption and bone tissue formation, while in diabetic animals, the osteoclast activity was reduced, without changes in the leves of OPG and RANKL, decreasing DABM resorption and bone formation.

Citocinas

Diabetes Mellitus Experimental

Matriz óssea

Osteoclastos

Bone matrix

Cytokines

Experimental Diabetes Mellitus

Osteoclasts

Examination of cardiovascular function in conscious hypertensive diabetic rats

Schenk, Johannes

January 1991

This investigation was concerned with measuring aspects of cardiac function in conscious control, diabetic, hypertensive control, and hypertensive diabetic rats. Preliminary studies were conducted to determine catheter suitability and acute responses to atropine and angiotensin II in conscious animals. The catheter-manometer was tested using a square wave impact and was shown to accurately reproduce a left ventricular pressure pulse. Intravenous atropine caused both heart rate and left ventricular +dP/dt to rise. Intravenously administered angiotensin II caused systolic blood pressure to increase dramatically. In this case heart rate fell and +dP/dt was elevated. Hypertension was induced with deoxycorticosterone acetate (DOCA) and saline drinking water. Rats were first made diabetic with streptozotocin (60 mg/kg; i.v.). One week following this, subcutaneous DOCA (25 mg/kg) was administered twice weekly and all animals received saline drinking water. Following 2 and 5 weeks of DOCA treatment rats were catheterized and resting cardiovascular function was measured. DOCA treatment caused increased systolic and diastolic blood pressures to occur in control and diabetic rats at 2 and 5 weeks. Bradycardia was also observed in DOCA-diabetic and DOCA-control rats at 2 and 5 weeks of treatment. Two and 5 week hypertensive diabetic and control rats exhibited elevated -dP/dt and +dP/dt. The rate of contraction was shown to be proportional to the magnitude of systolic blood pressure in all treatment groups. It is concluded that diabetic rats and control rats did not differ in their response to hypertension after 5 weeks of DOCA treatment. / Medicine, Faculty of / Anesthesiology, Pharmacology and Therapeutics, Department of / Graduate

Diabetes -- Animal models

Diabetes -- Complications

Diabetes Mellitus, Experimental

Diabetes Complications

Effect of free fatty acids and dichloroacetic acid on the diabetic isolated working rat heart

Nicholl, Tessa Anne

January 1990

It is well established that a cardiomyopathy independent of atherosclerosis develops in both humans and animals with diabetes mellitus. The etiology of diabetic cardiomyopathy is very complex involving many different processes, one of which may be the increased fatty acid utilization, and/or the concomitant decrease in glucose utilization, by the diabetic heart. We compared control and 6-week streptozotocin(STZ)-induced diabetic isolated working rat hearts and were able to demonstrate cardiac dysfunction in the diabetic as assessed by depressed heart rate (HR), heart rate peak systolic pressure product (HR X PSP), left ventricular developed pressure (LVDP), rate of pressure rise (+dP/dt) and rate of pressure decline (-dP/dt). Paralleling depressed cardiac function in the diabetic were hyperglycemia, hyperlipidemia and decreased body weight gain as compared to age-matched controls. The addition of free fatty acids, in the form of 1.2 mM palmitate, to the isolated working heart perfusate had no effect on either control or diabetic heart function, with the exception of a depressive effect on +dP/dt of diabetic hearts and -dP/dt of control hearts. But, diabetic hearts perfused with palmitate-containing perfusate plus the glucose oxidation stimulator dichloroacetate (DCA) showed a marked improvement in function. Heart rate, HR X PSP, LVDP and +/-dP/dt were all restored to control heart values in diabetic hearts perfused in the presence of DCA. Creatine phosphate and adenosine 5'-triphosphate (ATP) levels were similar under all perfusion conditions, therefore eliminating energy stores as the limiting factor in heart function. Results indicate that DCA-induced stimulation of glucose oxidation acutely reversed diabetic cardiac function depression. Therefore, depression of glucose oxidation in the diabetic heart may be contributing to diabetic cardiomyopathy. / Pharmaceutical Sciences, Faculty of / Graduate

Diabetes -- Animal models

Fatty acids

Diabetes Mellitus, Experimental

Fatty Acids, Nonesterified

Dichloroacetate

Oxygen free radical scavenging systems in clinical and experimental (chemical and spontaneous) diabetes mellitus

Wohaieb, Saleh A.

January 1987

The extent to which endogenous free radical-scavenging defense mechanisms are involved in experimental and human diabetes was investigated in various tissues of animals with chemically-induced or spontaneous diabetes (BB Wistar rats) and in erythrocytes of patients with either Type I or Type II diabetes. Diabetes was induced in female Wistar rats using alloxan (ALX) or streptozotocin (STZ), each administered in a dose of 50 mg/kg body wt., intravenously. The present study also included a group -of animals in which body wt. loss was induced by food-deprivation for 72 h. The effects of pharmacological interventions (insulin or allopurinol (ALP)), on these processes were also investigated in chemically-induced diabetes., The activities of catalase (CAT), CuZn-superoxide dismutase (CuZn-SOD), glutathione peroxidase (GSH-PX) and glutathione reductase (GSSG-RD) as well as levels of reduced glutathione (GSH) were examined in heart, pancreas, liver and kidney as well as in erythrocytes. Erythrocytes were also examined for their susceptibility to in vitro oxidative stress induced by hydrogen peroxide (H₂0₂). Criteria studied in this regard were GSH-depletion and malondi-aldehyde (MDA) production (an index of lipid peroxidation). The results obtained showed that tissue antioxidant systems are altered in experimental diabetes and that the magnitude of the alterations increased with the degree of body weight loss. Furthermore, the duration of hypoinsulinemia might contribute to the nature of alterations in antioxidant mechanisms. The complex patterns of the alterations observed varied from one tissue to another and may be the result of compensatory increases, usually involving enzymes whose activity in the particular tissue may be limiting, and direct inhibitory effects of endogenous oxidants on the enzymatic components of tissue antioxidant systems. The ability of insulin (9-12 U/kg body wt., subcutaneously) to reverse the many similar alterations of tissue antioxidant enzymes in diabetes induced by either STZ or ALX suggests that these changes are more likely attributable to hypoinsulinemia rather than to direct effects of either diabetogenic drug. The above-mentioned effects indicate that insulin can markedly influence tissue antioxidant status. However, the reason for the persistence of decreased CuZn-SOD activity in both liver and kidney of ALX-diabetic rats after 12 wk of treatment with insulin is not clear at present, and requires further investigation to determine whether this reflects the presence of a residual deficit in tissue antioxidant processes in liver and kidney despite insulin treatment, or whether it is the result of a direct effect exerted by ALX. Acute ALP administration (50 mg/kg body wt., intraperitoneally) was associated with reductions in ketonuria and early mortality among ALX-diabetic rats, and long-term ALP treatment (1.9 mg/day in drinking water) resulted in a normalization of renal CuZn-SOD activity in these animals. Comparable (although not identical) changes in tissue antioxidant status are present in insulin-dependent spontaneously diabetic BB (ISDBB) rats and in animals made diabetic by STZ or ALX administration. Our data also demonstate that the alterations in tissue GSH levels characterizing ALX-diabetes more closely paralleled changes seen in the ISDBB rat than did those in the diabetic state induced by STZ. If the alterations in antioxidant status in uncontrolled chemically-induced diabetes are attributable to a lack of insulin, the observed changes in ISDBB rats are suggestive of sub-optimal insulin therapy in these animals. The results obtained from BB rats demonstrate two types of alterations in antioxidant status: strain-related differences (increased CAT activity in pancreas and decreased GSH levels in pancreas and liver of both ISDBB and their non-diabetic littermates (NDLM)) and diabetes-related changes (mani- fested by an increase in cardiac GSH content and increases in activities of cardiac CAT and GSSG-RD, pancreatic CuZn-SOD and GSSG-RD, and renal GSH-PX). Whether or not these "strain-related" alterations in antioxidant status increase the susceptibility of these animals to developing diabetes remains unknown. Certain alterations were observed in red cells from diabetic patients and from animals with experimental diabetes suggesting that these alterations are more likely to be diabetes-related than species-dependent. Red cells in chemically-induced and clinical diabetes showed an increased resistance to peroxide-induced depletion of GSH, an effect attributed to hyperglycemia, which results in an increased supply of NADPH through the hexose monophosphate shunt for regeneration of GSH from GSSG via the GSSG-RD system. However, the susceptibility of red cells from diabetic patients and animals to lipid peroxidative damage was increased as reflected in augmented MDA production. In addition, insulin treatment did not normalize MDA production in red cells subjected to oxidative challenge and vigorous insulin treatment in both ALX- and STZ-diabetic rats resulted in a markedly decreased MDA production in response to H₂0₂. Moreover, GSSG-RD activity of red cells was increased in both uncontrolled and insulin-treated diabetic animals as well as in diabetic patients. However, some differences in erythrocyte antioxidant enzymes were also observed in erythrocytes from diabetic subjects and animals. For example, diabetic patients showed an increased activity of CuZn-SOD, while erythrocytes from diabetic animals showed no alterations in the activity of this enzyme. Erythrocyte membrane NADH-dehydrogenase activity was increased only in diabetic patients with Type I diabetes, but not in Type II diabetes or in diabetic animals. Erythrocytes from ALX- and STZ-diabetic animals showed an increase in the activity of GSH-PX and those from NDLM BB rats showed a decrease in CAT activity, alterations that were not observed in human diabetes. Finally, as far as antioxidant defense mechanisms are concerned, our results suggest that diabetes is associated with some common alterations in these mechanisms regardless of the model (chemically-induced versus the spontaneous type of diabetes) or the species used (animal versus human diabetes). Some of these alterations seem to be influenced by the degree of diabetic control, while others are apparently independent of it. Future studies will focus on the extent to which alterations in red cells of human diabetics can be used to predict the development of long-term sequelae of the disease. / Medicine, Faculty of / Anesthesiology, Pharmacology and Therapeutics, Department of / Graduate

Free Radicals

Diabetes Mellitus, Experimental

Diabetes Mellitus

Diabetes

Effects of insulin treatment on the morphology of peripheral nerve in alloxan-induced diabetic rats and their controls

Farber, Shereen D.

January 1985

This document only includes an excerpt of the corresponding thesis or dissertation. To request a digital scan of the full text, please contact the Ruth Lilly Medical Library's Interlibrary Loan Department (rlmlill@iu.edu).

Diabetic neuropathies

Nerves, Peripheral

Diabetes

Peripheral Nerves

Insulin

Diabetes Mellitus, Experimental

Estudo temporal dos colágenos (I, III, IV e V) e produtos de glicação avançada na sinóvia em modelo experimental de diabetes em ratos / Study of temporal collagens (I, III, IV and V) and advanced glycation end products synovium in experimental model of diabetes in rats

Andrade, Priscila Cristina

20 June 2018

Introdução: Diabetes Mellitus é caracterizada por hiperglicemia crônica, e este aumento excessivo de glicose circulante pode gerar danos vasculares e microvasculares pela deposição de produtos de gliclação avançada (AGE), principalmente em estruturas com alta vascularização, como é o caso da sinóvia. Por todas estas razões, o presente estudo estabeleceu, de maneira temporal, o processo de acomentimento sinovial, através do grau de remodelamento e as proteínas envolvidas neste processo, tido como o gatilho na lesão da articulação do joelho. Foram utilizados ratos wistar (n=60), divididos em três grupos, conforme tempo de indução ( 7, 30 e 60 dias), cada grupo era composto de 10 animais diabéticos, induzido por estreptozotocina (35mg/kg de peso) e 10 animais controle, recebendo infusão do mesmo volume de solução salina, após o tempo estipulado os animais foram sacrificados e a sinóvia coletada para as análises propostas. Análise morfológica através de colorações de hematoxilina-eosina para análise do perfil celular do tecido sinovial e Picrosírius para avaliação da histoarquitetura das fibras colágenas. A quantificação das fibras colágenas foi realizada pela coloração do Picrosírius em microscópio de luz polarizada e a caracterização e distribuição de seus tipos por imunofluorescência, para quantificação total da proteina de colágeno foi realizado a medição da 4-hidroxiprolina (HPO). Os produtos de glicação avançada foram analisados e quantificados por imufluorescência. A detecção e quantificação da imunoexpressão de marcadores bioquímicos como ET-1, TGF-B e IL17 foi realizado por método estereológico de contagem de pontos em reticulo, e como método de confirmação dos achados imunohistoquimicos foi realizado análise de expressão gênica dos Colágenos I,III, e V alfa- 1, alfa-2), por Reação de Transcrição Reversa com amplificação por PCR em Tempo Real (qRT-PCR). Resultados: Foi observado modificação da estrutura sinovial de forma temporal, acometendo inicialmente os vasos subsinoviais e tecidos adjacentes a ele, isso foi observado em tanto em análise morfológica como confirmado em quantificação por Picro em luz polarizada, as modificações se mostraram significantes nos grupos de 30 e 60 dias, quando comparado ao respectivo grupo controle, houve aumento do colágeno total, através do Picrosirius, como por dosagem de HOP. Os resultados foram confirmados por imunofluorescência com o aumento progressivo do COLI e diminuição de COLIII e COLV, o RAGE e AGE também tiveram sua expressão aumentada conforme a evolução no tempo de indução dos animais. Em análise da expressão de outras proteínas foi possível observar a detecção da ET-1 e da IL-17 nos animais diabéticos em comparação ao controle, houve também expressão significativa do TGF-B quando comparado ao respectivo controle. Na análise da expressão gênica foi possível observar aumento do COLV inicialmente, principalmente da cadeia alfa 2, do COLIII e COLI, confirmando achados histomorfométricos. Conclusão: O tecido sinovial demonstra remodelamento precoce ao redor dos vasos, essa mediação envolve o COL1 e os produtos de glicação avançada. Esta alteração no tecido sinovial pode ser responsável por desencadear o acometimento articular no diabetes mellitus / Introduction: Diabetes Mellitus is characterized by chronic hyperglycemia, and this excessive increase of circulating glucose can cause vascular and microvascular damage by the deposition of advanced glycation products (AGE), especially in structures with high vascularization, as is the case of synovium. For all these reasons, the present study established, in a temporal way, the process of synovial concomitance, through the degree of remodeling and the proteins involved in this process, considered as the trigger in the lesion of the knee joint. Wistar rats (n = 60), divided into three groups, according to induction time (7, 30 and 60 days), each group consisted of 10 diabetic animals, induced by streptozotocin (35 mg / kg body weight) and 10 animals control, receiving infusion of the same volume of saline solution, after the stipulated time the animals were sacrificed and the synovium collected for the proposed analyzes. Morphological analysis using hematoxylineosin staining for analysis of the cellular profile of the synovial tissue and Picrosírius for evaluation of the histoarchitecture of the collagen fibers. The quantification of the collagen fibers was performed by the Picrosírius staining in a polarized light microscope and the characterization and distribution of its types by immunofluorescence, the measurement of 4-hydroxyproline (HPO) was performed for the total quantification of the collagen protein. Advanced glycation products were analyzed and quantified by impuluorescence. The detection and quantification of the immunoexpression of biochemical markers such as ET- 1, TGF-B and IL17 was performed by stereological method of reticule dot counting, and as a method of confirming the immunohistochemical findings, the analysis of the collagen I, III , and V alpha-1, alpha-2), by Reverse Transcription Reaction with Real-Time PCR Amplification (qRT-PCR). Results: Modification of the synovial structure was observed temporally, initially affecting subsynovial vessels and tissues adjacent to it, this was observed in both morphological analysis and confirmed in quantification by Picro in polarized light, the modifications were significant in the groups of 30 and 60 days, when compared to the respective control group, there was increase of the total collagen, through Picrosirius, as per HOP dosage. The results were confirmed by immunofluorescence with progressive increase of COLI and decrease of COLIII and COLV, RAGE and AGE also had their expression increased as the evolution in the induction time of the animals. In the analysis of the expression of other proteins it was possible to observe the detection of ET-1 and IL-17 in diabetic animals in comparison to the control, there was also significant expression of TGF-B when compared to the respective control. In the analysis of the gene expression it was possible to observe an increase of the COLV initially, mainly of the alpha 2 chain, of the COLIII and COLI, confirming histomorphometric findings. Conclusion: Synovial tissue demonstrates early remodeling around vessels, this mediation involves COL1 and advanced glycation products. This change in synovial tissue may be responsible for triggering joint involvement in diabetes mellitus

Advanced glycation end products

Articulation disorders

Células endoteliais

Colágeno

Collagen

Diabetes mellitus experimental

Diabetes mellitus experimental

Endothelial cells

Líquido sinovial

Membrana sinovial

Produtos finais de glicação avançada

Synovial fluid

Synovial membrane

Transtornos da articulação

Estudo temporal dos colágenos (I, III, IV e V) e produtos de glicação avançada na sinóvia em modelo experimental de diabetes em ratos / Study of temporal collagens (I, III, IV and V) and advanced glycation end products synovium in experimental model of diabetes in rats

Priscila Cristina Andrade

20 June 2018

Introdução: Diabetes Mellitus é caracterizada por hiperglicemia crônica, e este aumento excessivo de glicose circulante pode gerar danos vasculares e microvasculares pela deposição de produtos de gliclação avançada (AGE), principalmente em estruturas com alta vascularização, como é o caso da sinóvia. Por todas estas razões, o presente estudo estabeleceu, de maneira temporal, o processo de acomentimento sinovial, através do grau de remodelamento e as proteínas envolvidas neste processo, tido como o gatilho na lesão da articulação do joelho. Foram utilizados ratos wistar (n=60), divididos em três grupos, conforme tempo de indução ( 7, 30 e 60 dias), cada grupo era composto de 10 animais diabéticos, induzido por estreptozotocina (35mg/kg de peso) e 10 animais controle, recebendo infusão do mesmo volume de solução salina, após o tempo estipulado os animais foram sacrificados e a sinóvia coletada para as análises propostas. Análise morfológica através de colorações de hematoxilina-eosina para análise do perfil celular do tecido sinovial e Picrosírius para avaliação da histoarquitetura das fibras colágenas. A quantificação das fibras colágenas foi realizada pela coloração do Picrosírius em microscópio de luz polarizada e a caracterização e distribuição de seus tipos por imunofluorescência, para quantificação total da proteina de colágeno foi realizado a medição da 4-hidroxiprolina (HPO). Os produtos de glicação avançada foram analisados e quantificados por imufluorescência. A detecção e quantificação da imunoexpressão de marcadores bioquímicos como ET-1, TGF-B e IL17 foi realizado por método estereológico de contagem de pontos em reticulo, e como método de confirmação dos achados imunohistoquimicos foi realizado análise de expressão gênica dos Colágenos I,III, e V alfa- 1, alfa-2), por Reação de Transcrição Reversa com amplificação por PCR em Tempo Real (qRT-PCR). Resultados: Foi observado modificação da estrutura sinovial de forma temporal, acometendo inicialmente os vasos subsinoviais e tecidos adjacentes a ele, isso foi observado em tanto em análise morfológica como confirmado em quantificação por Picro em luz polarizada, as modificações se mostraram significantes nos grupos de 30 e 60 dias, quando comparado ao respectivo grupo controle, houve aumento do colágeno total, através do Picrosirius, como por dosagem de HOP. Os resultados foram confirmados por imunofluorescência com o aumento progressivo do COLI e diminuição de COLIII e COLV, o RAGE e AGE também tiveram sua expressão aumentada conforme a evolução no tempo de indução dos animais. Em análise da expressão de outras proteínas foi possível observar a detecção da ET-1 e da IL-17 nos animais diabéticos em comparação ao controle, houve também expressão significativa do TGF-B quando comparado ao respectivo controle. Na análise da expressão gênica foi possível observar aumento do COLV inicialmente, principalmente da cadeia alfa 2, do COLIII e COLI, confirmando achados histomorfométricos. Conclusão: O tecido sinovial demonstra remodelamento precoce ao redor dos vasos, essa mediação envolve o COL1 e os produtos de glicação avançada. Esta alteração no tecido sinovial pode ser responsável por desencadear o acometimento articular no diabetes mellitus / Introduction: Diabetes Mellitus is characterized by chronic hyperglycemia, and this excessive increase of circulating glucose can cause vascular and microvascular damage by the deposition of advanced glycation products (AGE), especially in structures with high vascularization, as is the case of synovium. For all these reasons, the present study established, in a temporal way, the process of synovial concomitance, through the degree of remodeling and the proteins involved in this process, considered as the trigger in the lesion of the knee joint. Wistar rats (n = 60), divided into three groups, according to induction time (7, 30 and 60 days), each group consisted of 10 diabetic animals, induced by streptozotocin (35 mg / kg body weight) and 10 animals control, receiving infusion of the same volume of saline solution, after the stipulated time the animals were sacrificed and the synovium collected for the proposed analyzes. Morphological analysis using hematoxylineosin staining for analysis of the cellular profile of the synovial tissue and Picrosírius for evaluation of the histoarchitecture of the collagen fibers. The quantification of the collagen fibers was performed by the Picrosírius staining in a polarized light microscope and the characterization and distribution of its types by immunofluorescence, the measurement of 4-hydroxyproline (HPO) was performed for the total quantification of the collagen protein. Advanced glycation products were analyzed and quantified by impuluorescence. The detection and quantification of the immunoexpression of biochemical markers such as ET- 1, TGF-B and IL17 was performed by stereological method of reticule dot counting, and as a method of confirming the immunohistochemical findings, the analysis of the collagen I, III , and V alpha-1, alpha-2), by Reverse Transcription Reaction with Real-Time PCR Amplification (qRT-PCR). Results: Modification of the synovial structure was observed temporally, initially affecting subsynovial vessels and tissues adjacent to it, this was observed in both morphological analysis and confirmed in quantification by Picro in polarized light, the modifications were significant in the groups of 30 and 60 days, when compared to the respective control group, there was increase of the total collagen, through Picrosirius, as per HOP dosage. The results were confirmed by immunofluorescence with progressive increase of COLI and decrease of COLIII and COLV, RAGE and AGE also had their expression increased as the evolution in the induction time of the animals. In the analysis of the expression of other proteins it was possible to observe the detection of ET-1 and IL-17 in diabetic animals in comparison to the control, there was also significant expression of TGF-B when compared to the respective control. In the analysis of the gene expression it was possible to observe an increase of the COLV initially, mainly of the alpha 2 chain, of the COLIII and COLI, confirming histomorphometric findings. Conclusion: Synovial tissue demonstrates early remodeling around vessels, this mediation involves COL1 and advanced glycation products. This change in synovial tissue may be responsible for triggering joint involvement in diabetes mellitus

Células endoteliais

Colágeno

Diabetes mellitus experimental

Líquido sinovial

Membrana sinovial

Produtos finais de glicação avançada

Transtornos da articulação

Advanced glycation end products

Articulation disorders

Collagen

Diabetes mellitus experimental

Endothelial cells

Synovial fluid

Synovial membrane