Estudos de fenômenos de osteogênese em implantes de polímero vegetal / A study of osteogenesis phenomena in plaint polymer implants

Wallace Rocha Saran

14 October 2011

O objetivo deste estudo foi analisar a modulação da expressão de metaloproteinases da matriz-2 e -9, no tecido ósseo neoformado na interface do implante derivado do polímero da mamona (Ricinus communis) com o canal medular da tíbia de coelhos, por meio de análise histológica por microscopia óptica, tomografia computadorizada e imunoistoquímica. Foram selecionados 44 coelhos machos, Oryctolagus cuniculus, da linhagem Nova Zelândia, albinos, divididos em dois grupos, sendo o Grupo 1, composto por 12 animais controle, cujas fresagens do canal medular foram produzidas bilateralmente nas tíbias e não preenchidas e, o Grupo 2, com 30 animais, cujos canais medulares da tíbia, após fresagem, foram preenchidos bilateralmente com os cilindros derivados da poliuretana da mamona. Os animais do Grupo 1 e Grupo 2 foram divididos aleatoriamente em subgrupos experimentais, conforme as datas de eutanásia pré-determinadas em 90, 120, 150 dias após o ato operatório. Um animal não foi submetido ao procedimento de fresagem, sendo utilizado para controle histológico e outro submeteu-se à eutanásia após o implante do polímero, sendo utilizado para controle de imagem do estudo com tomografia computadorizada. Decorridos os períodos experimentais, os animais foram submetidos à eutanásia, as peças removidas e encaminhadas para o exame tomográfico; posteriormente ao processamento histológico, as lâminas foram analisadas em microscópio óptico. As Metaloproteinases da Matriz (MMPs) são um importante grupo de enzimas proteolíticas zinco-dependentes responsáveis pela degradação de matriz extracelular e membranas basais. As enzimas são secretadas em uma forma latente e se tornam ativadas no ambiente pericelular, sendo relacionadas a processos fisiológicos e patológicos. No presente estudo, foram revisados alguns aspectos importantes das MMPs, discutindo-se o papel dessas enzimas em processos fisiológicos como a neoformação e maturação óssea (MMP-2). Dentre os processos patológicos que envolvem a participação das MMPs, destacam-se a reabsorção óssea e processos inflamatórios (MMP-9). A expressão de metaloproteinase da matriz-2 e -9 nos tecidos foi avaliada por meio de imunoistoquímica. Os dados obtidos foram submetidos à análise estatística por meio do teste ANOVA seguido pelo pós-teste de Tukey (α = 0,05). No grupo experimental, aos 90 dias, a interface com o polímero apresentava uma camada espessa de tecido ósseo neoformado rico em osteócitos, o qual apresentou uma maturação com o passar do tempo, aos 120 e 150 dias pós-implantação. No grupo controle, a superfície interna junto ao canal medular apresentava-se revestida por osteoblastos, seguida de faixa de tecido ósseo, com poucas lacunas preenchidas por osteócitos. O amadurecimento do tecido da superfície interna medular acontece na região interior, sendo o osso alamelar, constituído por fibras colágenas menos amadurecidas que o osso lamelar. As imagens tomográficas demonstraram não haver espaço entre a superfície do material e do osso na interface implante/medula óssea, sendo a densidade dos tecidos nesta interface semelhante à densidade das demais porções da medula óssea. O processo de remodelação óssea observado histologicamente foi acompanhado pela modulação positiva de metaloproteinase da matriz-2 durante todo o período de avaliação com baixa expressão de metaloproteinase da matriz-9. / The aim of this study was to evaluate the modulation of matrix metalloproteinase-2 (MMP-2) and -9 (MMP-9) expression in newly formed bone tissue at the interface between implant derived from castor oil (Ricinus communis) polymer and the medullary canal of rabbit tibia, by histological examination under optical microscopy, computed tomography (CT) and immunohistochemical analysis. For such purpose, 44 rabbits (Oryctolagus cuniculus, New Zealand, albinus) were selected and assigned to two groups. In Group 1, composed of 12 animals (control), reamings of the medullary canal were produced bilaterally in the tibiae of the rabbits and were not filled. In Group 2, composed of 30 animals, the tibial medullary canals, after reaming, were filled bilaterally with cylinders derived from castor oil polyurethane. The animals of Groups 1 and 2 were randomly divided in experimental subgroups, according to the periods of predetermined euthanasia, which were 90, 120, 150 days postoperatively. One animal was not subjected to the reaming procedure, and served as a histological control; another animal was killed after placement of the polymer implant, and served as a control for CT imaging. Euthanasia was undertaken at the established experimental periods, and the anatomic specimens were removed and subjected to CT analysis. Then, after histological processing, the slides were examined under optical microscopy. MMPs are an important group of zinc-dependent proteolytic enzymes responsible for the degradation of extracellular matrix and basal membranes. The enzymes are synthesized in a latent form and are activated in the pericellular environment, being involved in physiological and pathological processes. In the present study, some important aspects of MMPs were reviewed, and the role of these enzymes in physiological processes, such as new bone formation and bone maturation (MMP-2), was discussed. Among the pathological processes that have the participation of MMPs, the most relevant are bone resorption and inflammatory processes (MMP-9). MMP-2 and MMP-9 expression in the tissues was evaluated by immunohistochemistry. Data were subjected to statistical analysis by ANOVA and Tukey post-test (α = 0.05). In the group experimental, at 90 days, the interface with the polymer presented a thick layer of newly formed bone tissue rich in osteocytes. This tissue exhibited an ongoing maturation at 120 and 150 days post-implantation. In the control group, the internal surface close to the medullary canal was lined by osteoblasts, followed by a bone tissue zone with few lacunae filled with osteocytes. Maturation of the tissue of the medullary internal surface occurred in the inner region, with the bone being alamellar, that is, constituted of collagen fibers less maturated than the lamellar bone. The CT scans showed no space between the material surface and the bone at the implant/bone marrow interface, and the density of the tissues at this interface was similar to the density measured in the other regions of the bone marrow. The bone remodeling process observed histologically was accompanied by positive modulation of MMP-2 during the entire evaluation period and low MMP-9 expression.

Implantes intramedulares

Metaloproteinase da matriz-2

Metaloproteinase da matriz-9

Poliuretana da mamona

Remodelação óssea

Tomografia computadorizada

Bone remodeling

Computed tomography

Intra-medullary implants

Matriz metalloproteinase-2

Matriz metalloproteinase-9

Inibição da metaloproteinase 2 por dois monômeros amplamente utilizados na formulação de adesivos dentinários / Inhibition of metalloproteinase 2 by two monomers thoroughly used on the dentin bonding formulation.

Carvalho, Rodrigo Varella de

30 January 2009

Made available in DSpace on 2014-08-20T14:30:12Z (GMT). No. of bitstreams: 0 Previous issue date: 2009-01-30 / The aim of this study was to evaluate the effect of different concentrations of 2-hydroxyethyl methacrylate (HEMA) triethyleneglycol dimethacrylate (TEGDMA) on the inhibition of matrix metalloproteinase 2 (MMP-2). Mouse gingival explants were cultured overnight in DMEM and the expression of secreted enzymes was analyzed by gelatin zymography in buffers containing 5 mM CaCl2 (Tris-CaCl2) in 50 mM Tris-HCl buffer with the addition of HEMA and TEGDMA at different concentrations (0.62, 1.25, 2.5 or 5.0% (v/v)). The gelatinolytic proteinase present in the conditioned media was characterized as matrix metalloproteinase by means of specific chemical inhibition with 0.5 mM of EDTA and 0.5 mM of NEM. The matrix metalloproteinases present in the conditioned media were characterized as MMP-2 by immunoprecipitation.The eletrophoretic bands were scanned and the transmittance values were analyzed with ImageJ software. Data was plotted and submitted to linear regression to investigate MMP-2 inhibition as a function of HEMA and TEGDMA concentration. Three major bands were detected in the zymographic assays. Those bands were characterized as MMP-2. Zymogene (72 kDa), intermediate (66 kDa) and active forms of MMP-2 (62 kDa) were inhibited by HEMA and TEGDMA in a dose-dependent way. These findings suggest that HEMA and TEGDMA could inhibit MMP-2 expression even at small concentrations. / O objetivo do presente estudo foi avaliar o efeito de diferentes concentrações de 2-hidroxietil metacrilato (HEMA) e trietilenoglicol dimetacrilato (TEGDMA) na inibição da metaloproteinase da matriz 2 (MMP-2). Tecidos gengivais de ratos foram incubados em DMEM e a expressão das enzimas secretadas foi analisada por zimografia em tampões de incubação contendo 5 mM de CaCl2 (Tris-CaCl2) em 50 mM de Tris-HCl com a adição de diferentes concentrações de HEMA e TEGDMA (0,62; 1,25; 2,5 e 5%) em volume. Para caracterizar as enzimas como MMPs foi realizado ensaio de inibição química específica com 0,5 mM de EDTA (um conhecido inibidor de MMPs) e 0,5 de NEM (um conhecido inibidor de proteinases serinas).Para caracterizar as enzimas como MMP-2 foi realizado o ensaio de imunoprecipitação. As bandas produzidas no gel foram escaneadas e os valores de transmitância foram analizados com o auxílio do programa ImageJ. Os resultados foram submetidos a regressão linear em função da concentração de HEMA e TEGDMA. Três bandas foram identificadas após a zimografia. Essas bandas foram caracterizadas como MMP-2. O zimogênio (72 kDa), a forma intermediária (66 kDa) e a forma ativa da MMP-2 (62 kDa) foram inibidas pelo HEMA e pelo TEGDMA de forma dose-dependente. Nossos resultados sugerem que o HEMA e o TEGDMA podem inibir a expressão da MMP-2 mesmo em pequenas concentrações.

Metalloproteinase 2

Gelatinase A

2-hidroxietil metacrilato

Trietilenoglicol dimetacrilato

Adesivos dentinários

Colágeno

Camada híbrida

Matrix metalloproteinases

Metalloproteinase 2

Gelatinase A

2-hydroxyethil methacrylate

Tryetilenoglycol dimethacrylate

Dentin bonding agents

Collagen

Hybrid layer

CNPQ::CIENCIAS DA SAUDE::ODONTOLOGIA

Matrix metalloproteinase-8 as a diagnostic tool for the inflammatory and malignant diseases

Pradhan-Palikhe, P. (Pratikshya)

27 September 2011

Abstract Matrix metalloproteinases (MMPs) are the zinc-dependent endopeptidases which belong to a large family of proteases. MMPs are responsible for degradation and remodeling of extracellular matrix proteins during growth, organogenesis and tissue turnover. Besides their role in physiological processes, MMPs also influence various pathological processes, i.e., inflammatory diseases and cancers, in which MMPs may ultimately lead to unwanted tissue destruction. One of the most widely studied MMPs is MMP-8. MMP-8 was previously thought to be expressed only by neutrophils. Presently, it is evident that MMP-8 can be expressed in a wide range of cells such as macrophages, plasma cells, T-cells, endothelial cells, smooth muscle cells, oral epithelial cells, fibroblasts etc. MMP-8 has been previously studied in inflammation and malignancies. High serum MMP-8 concentration is associated with the presence of atherosclerosis and poor cardiovascular disease prognosis, while higher plasma MMP-8 levels protect against lymph node metastasis. Certain MMP-8 gene variations can alter promoter activity and subsequent gene expression. MMP-8 gene variation influences obstetrical outcomes, and lung and breast cancer prognosis. For our study, we hypothesized that systemic levels of MMP-8 correlate with its genetic variations and appear as novel risk markers for disease. We aimed to address the potential role of MMPs and their regulators with a special focus on MMP-8 in distinct sets of inflammatory and malignant diseases, i.e. arterial diseases, and head and neck squamous cell cancer (HNSCC). We demonstrated that the combination of high serum MMP-8 and low myeloperoxidase (MPO) levels is an important risk marker for arterial disease. Further, we demonstrated that MMP-8 gene variation is protective against arterial diseases. Interestingly, we were able to demonstrate an association between MMP-8 gene variation and serum MMP-8 concentration in a healthy population. On the other hand, we showed that plasma tissue inhibitor of matrix metalloproteinases (TIMP-1) concentration is associated with survival in HNSCC patients and TIMP-1 genotype is associated with plasma TIMP-1 levels in women only. Collectively, our study showed that serum MMP-8 levels can be used as an important risk marker in arterial disease and TIMP-1 levels in HNSCC patients. Based on our results, the hypothesis raised has been widely confirmed. Additionally, our study has warranted the need for further investigation involving a larger number of patients. If our results are replicable, serum MMP-8 and plasma TIMP-1 could be used to develop diagnostic tools as well as treatment regimes in clinics. / Tiivistelmä Matriksin metalloproteinaasit (MMP:t) ovat sinkkiriippuvaisia endopeptidaaseja, jotka kuuluvat laajaan proteiineja pilkkovaan proteolyyttiseen entsyymi perheeseen. MMP:ien tehtävä on pilkkoa ja uudelleen muokata soluväliaineen proteiineja kasvun, elinten kehityksen ja kudosten uusiutumisen aikana, mutta MMP:t toimivat aktiivisesti myös patologisissa prosesseissa, kuten tulehdustiloissa ja syövissä. Syövissä MMP:en vaikutus voi johtaa ei-toivottuun kudostuhoon. Yksi laajimmin tutkituista MMP-ryhmän entsyymeistä on MMP-8, jonka alunpitäen ajateltiin ilmenevän vain neutrofiileissä. Nykytietämyksen mukaan MMP-8:aa ilmentyy myös mm. makrofaageissa, plasmasoluissa, T-soluissa, endoteelisoluissa, sileälihassoluissa, suun limakalvon epiteelisoluissa ja fibroplasteissa. MMP-8:aa on aikaisemmin tutkittu erityisesti tulehdustiloissa ja pahanlaatuisissa kasvaimissa. Korkean MMP-8 seerumipitoisuuden on havaittu liittyvän valtimokovettumatautiin ja huonoon ennusteeseen sydän- ja verisuonisairauksissa, kun taas kohonnut MMP-8:n pitoisuus plasmassa suojaa imusolmuke-etäpesäkkeiltä. Tiedetään, että tietyt muutokset MMP-8:n geenissä voivat muuttaa sen promoottoriaktiviteettia ja täten säädellä geenin ilmentymistä. MMP-8:n geenimuutokset vaikuttanevat raskaudenkulkuun sekä keuhko- ja rintasyövän ennusteeseen. Tutkimushypoteesimme mukaan MMP-8:n seerumipitoisuudet riippuvat vaihtelusta MMP-8:aa koodaavassa geenissä ja niitä voidaan pitää uusina riskinarvioinnin merkkiaineina tautitiloissa. Tavoitteenamme oli osoittaa yleisesti MMP:ien ja erityisesti MMP-8:n sekä näiden proteinaasien säätelytekijöiden merkitys tietyissä tulehdustiloissa ja maligniteeteissa, kuten sepelvaltimotaudissa ja pään ja kaulan alueen syövissä. Havaitsimme, että korkea MMP-8 seerumipitoisuus ja alhainen myeloperoksidaasitaso yhdistyvät vahvasti valtimotautiriskiin. Lisäksi osoitimme, että tietty MMP-8:n geenimuunnos on suojaava tekijä valtimotaudille ja että MMP-8:n seerumikonsentraatio on siitä riippuvainen terveillä tutkituilla. Tämän lisäksi todensimme, että MMP:n kudosestäjän (tissue inhibitor of matrix metalloproteinases, TIMP-1) plasmapitoisuus liittyy pään ja kaulan alueen levyepiteelisyöpää sairastavien potilaiden eloonjääntiin ja että TIMP-1:n genotyyppi liittyy sen plasmapitoisuuteen ainoastaan naisilla. Tulostemme mukaan seerumin MMP-8-pitoisuutta voidaan pitää hyvänä riskinarviointivälineenä verisuonitaudeissa sekä TIMP-1-pitoisuutta vastaavasti pään ja kaulan alueen levyepiteelisyövissä. Saadut tulokset tukevat olettamustamme, jonka mukaan MMP-8 on tärkeä tautimarkkeri. Tämä on lisännyt kiinnostusta selvittää MMP:ien merkitystä laajemmin muissa tulehdustiloissa ja syövissä. Jos tulokset saadaan toistetuksi laajemmassa tutkimusaineistossa, seerumin MMP-8:sta voidaan kehittää kliinisten ja analyyttisten laboratorioiden käyttöön sopiva diagnostinen menetelmä.

arterial disease

atherosclerosis

head and neck squamous cell cancer

matrix metalloproteinase-8

myeloperoxidase

single nucleotide polymorphism

MMP:n kudosestäjä

matriksin metalloproteinaasi-8

myeloperoksidaasi

polymorfismi

pään ja kaulan alueen syöpä

valtimokovettumatauti

valtimotauti

The Sweet Side of the Extracellular Matrix -

Rother, Sandra

01 November 2017

Bone fractures and pathologic conditions like chronic wounds significantly reduce the quality of life for the patients, which is especially dramatic in an elderly population with considerable multi-morbidity and lead to substantial socio-economic costs. To improve the wound healing capacity of these patients, new strategies for the design of novel multi-functional biomaterials are required: they should be able to decrease extensive pathologic tissue degradation and specifically control angiogenesis in damaged vascularized tissues like bone and skin. Glycosaminoglycans (GAGs) like hyaluronan (HA) and chondroitin sulfate (CS) as important extracellular matrix (ECM) components are involved in several biological processes such as matrix remodeling and growth factor signaling, either by directly influencing the cellular response or by interacting with mediator proteins. This could be useful in functionalizing biomaterials, but native sulfated GAGs (sGAGs) show a high batch-to-batch variability and are limited in their availability. Chemically modified HA and CS derivatives with much more defined characteristics regarding their carbohydrate backbone, sulfate group distribution and sulfation degree are favorable to study the structure-function relationship of GAGs in their interaction with mediator proteins and/or cells and this might be used to precisely modulate activity profiles to stimulate wound healing. By combining collagen type I as the main structural protein of the bone and skin ECM with these GAG derivatives, 2.5-dimensional (2.5D) and 3D artificial ECM (aECM) coatings and hydrogels were developed. These biomaterials as well as the respective GAG derivatives alone were compared to native GAGs and used to analyze how the sulfation degree, pattern and carbohydrate backbone of GAGs influence: i) the activity of tissue inhibitor of metalloproteinase-3 (TIMP-3) and vascular endothelial growth factor-A (VEGF-A) as main regulators of ECM remodeling and angiogenesis, ii) the composition and characteristics of the developed 2.5D and 3D aECMs, iii) the enzymatic degradation of collagen-based aECMs and HA/collagen-based hydrogels, iv) the proliferation and functional morphology of endothelial cells. Surface plasmon resonance (SPR) and enzyme linked immunosorbent assay (ELISA) binding studies revealed that sulfated HA (sHA) derivatives interact with TIMP-3 and VEGF-A in a sulfation-dependent manner. sHA showed an enhanced interplay with these proteins compared to native GAGs like heparin (HEP) or CS, suggesting a further impact of the carbohydrate backbone and sulfation pattern. sGAGs alone were weak modulators of the matrix metalloproteinase-1 and -2 (MMP-1 and -2) activity and did not interfere with the inhibitory potential of TIMP-3 against these proteinases during enzyme kinetic analyses. However, the formation of TIMP 3/GAG complexes reduced the binding of TIMP-3 to cluster II and IV of its endocytic receptor low-density lipoprotein receptor-related protein-1 (LRP-1, mediates the up-take and degradation of TIMP-3 from the extracellular environment) in a sulfation- and GAG type-dependent manner. It is of note that the determined complex stabilities of TIMP-3 with cluster II and IV were almost identical indicating for the first time that both clusters contribute to the TIMP-3 binding. Competitive SPR experiments demonstrated that GAG polysaccharides interfere stronger with the TIMP 3/LRP-1 interplay than GAG oligosaccharides. The importance of the position of sulfation is highlighted by the finding that a sHA tetrasaccharide exclusively sulfated at the C6 position of the N-acetylglucosamine residues significantly blocked the receptor binding, while CS and HEP hexasaccharides had no detectable effects. Thus, sHA derivatives as part of biomaterials could be used to sequester and accumulate TIMP 3 in aECMs in a defined manner where sHA-bound TIMP-3 could decrease the matrix breakdown by potentially restoring the MMP/TIMP balance. GAG binding might extend the beneficial presence of TIMP-3 into wounds characterized by excessive pathologic tissue degradation (e.g. chronic wounds, osteoarthritis). Mediator protein interaction studies with sHA coated surfaces showed the simultaneous binding of TIMP-3 and VEGF-A, even though the sHA/VEGF-A interplay was preferred. Moreover, kinetic analysis revealed almost comparable affinities of both proteins for VEGF receptor-2 (VEGFR-2), explaining their competition that mainly regulates the activation of endothelial cells. Additional SPR measurements demonstrated that the binding of sGAGs to TIMP-3 or VEGF-A decreases the binding of the respective mediator protein to VEGFR-2. Likewise, a sulfation-dependent reduction of the binding signal was observed after pre-incubation of a mixture of TIMP-3 and VEGF-A with sGAG poly- and oligosaccharides. The biological consequences of GAGs interfering with VEGF-A/VEGFR-2 and TIMP-3/VEGFR 2 were assessed in vitro using porcine aortic endothelial cells stably transfected with VEGFR 2 (PAE/KDR cells). The presence of sHA both decreased VEGF-A activity and the activity of TIMP-3 to inhibit the VEGF-A-induced VEGFR-2 phosphorylation. The same decreased activities could be observed for the migration of endothelial cells. However, if sHA, TIMP-3 and VEGF-A were present simultaneously, sHA partially restored the TIMP-3-mediated blocking of VEGF-A activity. These findings provide novel insights into the regulatory potential of sHA during endothelial cell activation as an important aspect of angiogenesis, which could be translated into the design of biomaterials to treat abnormal angiogenesis. These sHA-containing materials might control the angiogenic response by modulating the activity of TIMP 3 and VEGF-A. The in vitro fibrillogenesis of collagen type I in the presence of sHA derivatives led to 2.5D collagen-based aECM coatings with stable collagen contents and GAG contents that resemble the organic part of the bone ECM. A burst release of GAGs was observed during the first hour of incubation in buffer with the GAG content remaining almost constant afterwards, implying that the number of GAG-binding sites of collagen restricts the amounts of associated GAGs. Moreover, two differently sulfated HA derivatives could for the first time be incorporated into one multi-GAG aECM as verified via agarose gel electrophoresis and fluorescence measurements. This illustrates the multiple options to modify the aECM composition and thereby potentially their functionality. Atomic force microscopy showed that the presence of sHA derivatives during fibrillogenesis significantly reduced the resulting fibril diameter in a concentration- and sulfation-dependent manner, indicating an interference of the GAGs with the self-assembly of collagen monomers. In line with enzyme kinetic results, none of the GAGs as part of aECMs altered the enzymatic collagen degradation via a bacterial collagenase. Thus aECMs were proven to be biodegradable independent from their composition, which is favorable concerning a potential biomedical usage of the aECMs e.g. as implant coatings. HA/collagen-based hydrogels containing fibrillar collagen embedded into a network of crosslinked HA and sGAGs were developed as 3D aECMs. Scanning electron microscopy demonstrated a porous structure of the gels after lyophilization, which could favor the cultivation of cells. The presence of collagen markedly enhanced the stability of the gels against the enzymatic degradation via hyaluronidase, something beneficial to clinical use as this is often limited by the generally fast breakdown of HA. Binding and release experiments with lysozyme, as positively charged model protein for e.g. pro-inflammatory cytokines, and VEGF A revealed that the sulfation of GAGs increased the protein binding capacity for pure GAG coatings and retarded the protein release from hydrogels compared to hydrogels without sGAGs. Moreover, the additional acrylation of sHA was shown to strongly reduce the interaction with both proteins when the primary hydroxyl groups were targets of acrylation. This stresses the influence of the substitution pattern on the protein binding properties of the GAG derivatives. However, hydrogel characteristics like the elastic modulus remained unaffected. The different interaction profiles of lysozyme and VEGF-A with GAGs demonstrated a protein-specific preference of different monosaccharide compositions, suggesting that the mediator protein binding could be simultaneously adjusted for several proteins by combining different GAG derivatives. This might allow the scavenging of pro-inflammatory cytokines and at the same time a binding and release of wound healing stimulating growth factors. Since there is a growing demand for biomaterials to regenerate injured vascularized tissues like bone and skin, endothelial cells were used to examine the direct effects of solute GAGs and hydrogels containing these GAGs in vitro. In both cases, sHA strongly enhanced the proliferation of PAE/KDR cells. A VEGFR-2-mediated effect of GAGs on endothelial cells as underlying mechanism is unlikely since GAGs alone did not bind to VEGFR-2 and had no influence on VEGFR-2 phosphorylation. Other factors like GAG-induced alterations of cell-matrix interactions and cell signaling could be responsible. In accordance with SPR results, a decreased endothelial cell proliferation stimulating activity of VEGF-A was observed in the presence of solute GAGs or after binding to hydrogels compared to the respective treatment without VEGF-A. However, tube formation could be observed in the presence of solute VEGF A and GAGs and within hydrogels with sGAGs that released sufficient VEGF-A amounts over time. Overall the presence of GAGs and VEGF-A strongly promoted the endothelial cell proliferation compared to the treatment with GAGs or VEGF-A alone. Thus, HA/collagen-based hydrogels functionalized with sHA derivatives offer a promising option for the design of “intelligent” biomaterials that direct and regulate the cellular behavior instead of simply acting as inert filling material. They could be used for the controlled delivery and/or scavenging of multiple mediator proteins, thus enhancing the local availability or reducing the activity of these GAG-interacting mediator proteins, or by directly influencing the cellular response. This might be applied to a range of pathological conditions by tuning the biomaterial compositions to patient-specific needs. However, extensive in vivo validation is required to show whether these in vitro findings could be used to control the biological activity of for instance TIMP-3 and VEGF-A, especially under the pathological conditions of extended matrix degradation and dysregulated angiogenesis.

Glykosaminoglykane

Hyaluronsäure

Extrazelluläre Matrix

Endothelzellen

Gewebeinhibitor von Metalloproteinasen-3

Matrix-Metalloproteinase

Hydrogel

Glycosaminoglycans

Hyaluronan

Extracellular matrix

Vascular endothelial growth factor

Endothelial cells

Tissue inhibitor of metalloproteinase-3

Matrix metallopreinase

Hydrogel

ddc:540

rvk:VX 5657

The Sweet Side of the Extracellular Matrix -: Glycosaminoglycans in Matrix Remodeling, Endothelial Cell Activation and Functional Biomaterials

Rother, Sandra

19 October 2017

Bone fractures and pathologic conditions like chronic wounds significantly reduce the quality of life for the patients, which is especially dramatic in an elderly population with considerable multi-morbidity and lead to substantial socio-economic costs. To improve the wound healing capacity of these patients, new strategies for the design of novel multi-functional biomaterials are required: they should be able to decrease extensive pathologic tissue degradation and specifically control angiogenesis in damaged vascularized tissues like bone and skin. Glycosaminoglycans (GAGs) like hyaluronan (HA) and chondroitin sulfate (CS) as important extracellular matrix (ECM) components are involved in several biological processes such as matrix remodeling and growth factor signaling, either by directly influencing the cellular response or by interacting with mediator proteins. This could be useful in functionalizing biomaterials, but native sulfated GAGs (sGAGs) show a high batch-to-batch variability and are limited in their availability. Chemically modified HA and CS derivatives with much more defined characteristics regarding their carbohydrate backbone, sulfate group distribution and sulfation degree are favorable to study the structure-function relationship of GAGs in their interaction with mediator proteins and/or cells and this might be used to precisely modulate activity profiles to stimulate wound healing. By combining collagen type I as the main structural protein of the bone and skin ECM with these GAG derivatives, 2.5-dimensional (2.5D) and 3D artificial ECM (aECM) coatings and hydrogels were developed. These biomaterials as well as the respective GAG derivatives alone were compared to native GAGs and used to analyze how the sulfation degree, pattern and carbohydrate backbone of GAGs influence: i) the activity of tissue inhibitor of metalloproteinase-3 (TIMP-3) and vascular endothelial growth factor-A (VEGF-A) as main regulators of ECM remodeling and angiogenesis, ii) the composition and characteristics of the developed 2.5D and 3D aECMs, iii) the enzymatic degradation of collagen-based aECMs and HA/collagen-based hydrogels, iv) the proliferation and functional morphology of endothelial cells. Surface plasmon resonance (SPR) and enzyme linked immunosorbent assay (ELISA) binding studies revealed that sulfated HA (sHA) derivatives interact with TIMP-3 and VEGF-A in a sulfation-dependent manner. sHA showed an enhanced interplay with these proteins compared to native GAGs like heparin (HEP) or CS, suggesting a further impact of the carbohydrate backbone and sulfation pattern. sGAGs alone were weak modulators of the matrix metalloproteinase-1 and -2 (MMP-1 and -2) activity and did not interfere with the inhibitory potential of TIMP-3 against these proteinases during enzyme kinetic analyses. However, the formation of TIMP 3/GAG complexes reduced the binding of TIMP-3 to cluster II and IV of its endocytic receptor low-density lipoprotein receptor-related protein-1 (LRP-1, mediates the up-take and degradation of TIMP-3 from the extracellular environment) in a sulfation- and GAG type-dependent manner. It is of note that the determined complex stabilities of TIMP-3 with cluster II and IV were almost identical indicating for the first time that both clusters contribute to the TIMP-3 binding. Competitive SPR experiments demonstrated that GAG polysaccharides interfere stronger with the TIMP 3/LRP-1 interplay than GAG oligosaccharides. The importance of the position of sulfation is highlighted by the finding that a sHA tetrasaccharide exclusively sulfated at the C6 position of the N-acetylglucosamine residues significantly blocked the receptor binding, while CS and HEP hexasaccharides had no detectable effects. Thus, sHA derivatives as part of biomaterials could be used to sequester and accumulate TIMP 3 in aECMs in a defined manner where sHA-bound TIMP-3 could decrease the matrix breakdown by potentially restoring the MMP/TIMP balance. GAG binding might extend the beneficial presence of TIMP-3 into wounds characterized by excessive pathologic tissue degradation (e.g. chronic wounds, osteoarthritis). Mediator protein interaction studies with sHA coated surfaces showed the simultaneous binding of TIMP-3 and VEGF-A, even though the sHA/VEGF-A interplay was preferred. Moreover, kinetic analysis revealed almost comparable affinities of both proteins for VEGF receptor-2 (VEGFR-2), explaining their competition that mainly regulates the activation of endothelial cells. Additional SPR measurements demonstrated that the binding of sGAGs to TIMP-3 or VEGF-A decreases the binding of the respective mediator protein to VEGFR-2. Likewise, a sulfation-dependent reduction of the binding signal was observed after pre-incubation of a mixture of TIMP-3 and VEGF-A with sGAG poly- and oligosaccharides. The biological consequences of GAGs interfering with VEGF-A/VEGFR-2 and TIMP-3/VEGFR 2 were assessed in vitro using porcine aortic endothelial cells stably transfected with VEGFR 2 (PAE/KDR cells). The presence of sHA both decreased VEGF-A activity and the activity of TIMP-3 to inhibit the VEGF-A-induced VEGFR-2 phosphorylation. The same decreased activities could be observed for the migration of endothelial cells. However, if sHA, TIMP-3 and VEGF-A were present simultaneously, sHA partially restored the TIMP-3-mediated blocking of VEGF-A activity. These findings provide novel insights into the regulatory potential of sHA during endothelial cell activation as an important aspect of angiogenesis, which could be translated into the design of biomaterials to treat abnormal angiogenesis. These sHA-containing materials might control the angiogenic response by modulating the activity of TIMP 3 and VEGF-A. The in vitro fibrillogenesis of collagen type I in the presence of sHA derivatives led to 2.5D collagen-based aECM coatings with stable collagen contents and GAG contents that resemble the organic part of the bone ECM. A burst release of GAGs was observed during the first hour of incubation in buffer with the GAG content remaining almost constant afterwards, implying that the number of GAG-binding sites of collagen restricts the amounts of associated GAGs. Moreover, two differently sulfated HA derivatives could for the first time be incorporated into one multi-GAG aECM as verified via agarose gel electrophoresis and fluorescence measurements. This illustrates the multiple options to modify the aECM composition and thereby potentially their functionality. Atomic force microscopy showed that the presence of sHA derivatives during fibrillogenesis significantly reduced the resulting fibril diameter in a concentration- and sulfation-dependent manner, indicating an interference of the GAGs with the self-assembly of collagen monomers. In line with enzyme kinetic results, none of the GAGs as part of aECMs altered the enzymatic collagen degradation via a bacterial collagenase. Thus aECMs were proven to be biodegradable independent from their composition, which is favorable concerning a potential biomedical usage of the aECMs e.g. as implant coatings. HA/collagen-based hydrogels containing fibrillar collagen embedded into a network of crosslinked HA and sGAGs were developed as 3D aECMs. Scanning electron microscopy demonstrated a porous structure of the gels after lyophilization, which could favor the cultivation of cells. The presence of collagen markedly enhanced the stability of the gels against the enzymatic degradation via hyaluronidase, something beneficial to clinical use as this is often limited by the generally fast breakdown of HA. Binding and release experiments with lysozyme, as positively charged model protein for e.g. pro-inflammatory cytokines, and VEGF A revealed that the sulfation of GAGs increased the protein binding capacity for pure GAG coatings and retarded the protein release from hydrogels compared to hydrogels without sGAGs. Moreover, the additional acrylation of sHA was shown to strongly reduce the interaction with both proteins when the primary hydroxyl groups were targets of acrylation. This stresses the influence of the substitution pattern on the protein binding properties of the GAG derivatives. However, hydrogel characteristics like the elastic modulus remained unaffected. The different interaction profiles of lysozyme and VEGF-A with GAGs demonstrated a protein-specific preference of different monosaccharide compositions, suggesting that the mediator protein binding could be simultaneously adjusted for several proteins by combining different GAG derivatives. This might allow the scavenging of pro-inflammatory cytokines and at the same time a binding and release of wound healing stimulating growth factors. Since there is a growing demand for biomaterials to regenerate injured vascularized tissues like bone and skin, endothelial cells were used to examine the direct effects of solute GAGs and hydrogels containing these GAGs in vitro. In both cases, sHA strongly enhanced the proliferation of PAE/KDR cells. A VEGFR-2-mediated effect of GAGs on endothelial cells as underlying mechanism is unlikely since GAGs alone did not bind to VEGFR-2 and had no influence on VEGFR-2 phosphorylation. Other factors like GAG-induced alterations of cell-matrix interactions and cell signaling could be responsible. In accordance with SPR results, a decreased endothelial cell proliferation stimulating activity of VEGF-A was observed in the presence of solute GAGs or after binding to hydrogels compared to the respective treatment without VEGF-A. However, tube formation could be observed in the presence of solute VEGF A and GAGs and within hydrogels with sGAGs that released sufficient VEGF-A amounts over time. Overall the presence of GAGs and VEGF-A strongly promoted the endothelial cell proliferation compared to the treatment with GAGs or VEGF-A alone. Thus, HA/collagen-based hydrogels functionalized with sHA derivatives offer a promising option for the design of “intelligent” biomaterials that direct and regulate the cellular behavior instead of simply acting as inert filling material. They could be used for the controlled delivery and/or scavenging of multiple mediator proteins, thus enhancing the local availability or reducing the activity of these GAG-interacting mediator proteins, or by directly influencing the cellular response. This might be applied to a range of pathological conditions by tuning the biomaterial compositions to patient-specific needs. However, extensive in vivo validation is required to show whether these in vitro findings could be used to control the biological activity of for instance TIMP-3 and VEGF-A, especially under the pathological conditions of extended matrix degradation and dysregulated angiogenesis.

info:eu-repo/classification/ddc/540

ddc:540

Moléculas biotivas do veneno da aranha migalomorfa Avicularia juruensis. / Bioactive molecules from the venom of mygalomorph spider Avicularia juruensis.

Nascimento, Soraia Maria do

21 September 2016

Venenos de aranhas podem ser boas fontes de moléculas com potencial terapêutico e biotecnológico. Sendo assim, esse estudo teve como objetivo analisar moléculas bioativas do veneno de Avicularia juruensis, com foco em PAMs e enzimas. O veneno foi extraído por estimulação elétrica e, através de CLAE-FR, ensaio de inibição do crescimento microbiano e LC-MS/MS, foram identificados e caracterizados 7 PAMs. Todos possuem o motivo nó de cistina do tipo ICK e têm similaridade com neurotoxinas de venenos de outras aranhas. O perfil eletroforético do veneno de A. juruensis indicou que ele possui moléculas com massa entre 130 e abaixo de 10 kDa. Utilizando LC-MS/MS e análise transcriptômica foi possível identificar 6 metaloproteinases. Elas possuem domínios conservados de proteínas do tipo ADAMs, MMPs e metalopeptidases astacina-like. A presença destas enzimas é, provavelmente, importante para a digestão extracorpórea, visto que esta aranha geralmente consome pequenas aves. O estudo de venenos de aranhas terafosídeas é essencial, visto que este é um grupo pouco estudado. / Spider venoms can be good sources of molecules with therapeutic and biotechnological potential. Thus, this study aimed to analyze bioactive molecules from venom of Avicularia juruensis, focusing on AMPs and enzymes. The venom was extracted by electrical stimulation. By RP-HPLC, liquid growth inhibition assay and LC-MS/MS, seven AMPs were identified and characterized. All these peptides have inhibitory cystine knot motif and they showed similarity with venom neurotoxins from others spiders. The electrophoretic profile of A. juruensis venom shows that it has molecules with molecular masses between 130 kDa and below 10 kDa. By LC-MS/MS and transcriptomic analysis yielded the identification of six metalloproteinases, which possess typical conserved domains from ADAMs, MMPs and astacin-like metallopeptidases. These metalloproteinases may be involved in a key role during preoral digestion. The study of Theraphosidae spider venom is essential, since this group is poorly studied.

Avicularia juruensis

Avicularia juruensis

Antimicrobial peptides - AMPs

Bioactive molecules

Metalloproteinase

Metaloproteinase

Moléculas bioativas

Peptídeos antimicrobianos - PAMs

Veneno

Venom

Influência da doxiciclina em endometriose experimentalmente induzida em ratas / Influence of doxycycline in experimentally induced endometriosis in rats

Valerio, Fernando Passador

18 May 2018

A endometriose é uma doença de origem multifatorial, caracterizada por presença de tecido endometrial fora da cavidade uterina, responsável por sintomas álgicos com grande impacto na qualidade de vida da paciente, além de ser um dos principais fatores de infertilidade. Muitos estudos já foram realizados no intuito de explicar a etiopatogenia da endometriose, assim como muito tem sido estudado para encontrar novas estratégias de tratamento. Várias linhas de medicamentos têm sido estudadas com este intuito, agindo em diferentes pontos da etiopatogênese da doença, uma delas na inibição de metaloproteinases da matriz extracelular, que tem papel no remodelamento do mesotélio do peritônio e angiogênese. O objetivo deste estudo foi avaliar a influência de uma droga (doxiciclina) de baixo custo, com ação conhecida na inibição das metaloproteinases, em endometriose peritoneal induzida em ratas. Para isso, foram usadas 30 ratas adultas Wistar com lesão induzida de endometriose, divididas em três grupos, um grupo controle (C, n=10) sem tratamento, um grupo onde foi administrado doxiciclina em baixa dose (BD, n=10) e um grupo onde foi realizado doxiciclina em alta dose (AD, n=10). Foi realizada avaliação da área das lesões de cada rata e estudo imunohistoquímico para positividade de anticorpo primário de metaloproteinase de matriz 9 (MMP9) e de inibidor de metaloproteinase de matriz 2 (TIMP2). A doxiciclina atuou reduzindo a área das lesões nos grupos BD e AD (p=0,0052) em relação ao grupo C e reduzindo a expressão do TIMP2 no grupo AD (p=0,0009) em relação aos grupos BD e C. Não houve resultado significativo na expressão da MMP9. / Endometriosis is a multifactorial origin disease, characterized by the presence of endometrial tissue outside the uterine cavity, responsible for painful symptoms with important impact on the life quality of the patient, besides being one of the main factors of infertility. Many studies have already been carried out to explain the etiopathogenesis of endometriosis, and much has been studied to find new treatment strategies. Several lines of drugs have been studied for this purpose, acting at different points in the etiopathogenesis of the disease, one of them in the inhibition of extracellular matrix metalloproteinases, which plays a role in the remodeling of the peritoneum mesothelium and angiogenesis. The purpose of this study was to evaluate the influence of a low-cost drug (doxycycline), with known action on the inhibition of metalloproteinases, in induced peritoneal endometriosis in rats. Thirty adult Wistar rats with endometriosis-induced lesions were divided into three groups: one untreated control group (C, n = 10), one group receiving low dose doxycycline (BD, n = 10) and a group where high dose doxycycline (AD, n = 10) was performed. An evaluation of the lesion area of each rat and immunohistochemical study for primary antibody to matrix metalloproteinase 9 (MMP9) and matrix metalloproteinase inhibitor 2 (TIMP2) was performed. Doxycycline worked by reducing the area of lesions in the BD and AD groups (p = 0.0052) in relation to the C group and reducing the expression of TIMP2 in the AD group (p = 0.0009) in relation to the BD and C groups. There was no significant effect on MMP9 expression in the present study.

Papel do sistema complemento no processo inflamatório causado por uma metaloproteinase de classe PI, do veneno da serpente Bothrops pirajai: análise em modelo ex vivo de sangue total humano. / Role of the complement system in the inflammatory process caused by a class P1 metalloproteinase from Bothrops pirajai venom: Analysis in the ex vivo model of human whole blood.

Luchini, Lygia Samartin Gonçalves

12 May 2016

O veneno de serpentes do gênero Bothrops (responsáveis por 80% dos envenenamentos no Brasil) é composto por metalo e serinoproteases, disintegrinas, fosfolipases, entre outros, e pode causar edema, hemorragia, necrose, e manifestações sistêmicas, como coagulação intravascular, choque, falência renal e hemorragia. O veneno da B. pirajai ativa o sistema complemento (C), sugerindo uma contribuição para o agravamento dos sintomas. Considerando a importância do C no processo inflamatório e o papel das metaloproteinases nos envenenamentos, verificou-se que o tratamento do sangue total humano (onde células e mediadores plasmáticos interagem entre si) com ou sem a compstatina (inibidor de C3 do C), e com a metaloproteinase de classe PI do veneno de B. pirajai, levou a diferenças bastante significativas na expressão dos marcadores analisados nos leucócitos, na geração de anafilatoxinas e TCC, e na quantificação de citocinas e quimiocinas no plasma, sugerindo que a inibição do C reduz o processo inflamatório, podendo ser uma terapia efetiva para envenenamentos botrópicos. / The snake venom of Bothrops genus (responsible for 80% of envenomation in Brazil) is composed by metallo and serine proteases, disintegrins, phospholipase, among others, and can cause edema, hemorrhage, necrosis, and systemic manifestations, such as intravascular coagulation, shock, renal failure and systemic hemorrhage. The venom of B. pirajai is able to activate the complement system (C), suggesting a contribution to the worsening of symptoms. Considering the importance of C in the inflammatory process and the role of metalloproteinases in envenomation, it was found that treatment of human whole blood (where cells and plasma mediators interact) with or without compstatin (C3 inhibitor), and with a class PI metalloproteinase from B. pirajai\'s venom led to highly significant differences in the expression of the markers analyzed in leukocytes, in generation of anaphylatoxins and TCC, and quantification of cytokines and chemokines in plasma, suggesting that inhibition of C reduces the inflammatory process and may be an effective therapy for bothropic envenomations.

Bothrops pirajai

Bothrops pirajai

Complement system

Human whole blood

Inflamação

Inflammation

Metalloproteinase

Metaloproteinase

Sangue total humano

Sistema complemento

Ação de prostaglandinas tópicas na conjuntiva de coelhos.

Aguiar, Evian Valli

January 2019

Orientador: Eliane Chaves Jorge / Resumo: A utilização prolongada de colírios análogos de prostaglandinas (AP) no tratamento do glaucoma tem sido associada a alterações tóxicas e inflamatórias dos tecidos oculares. As causas destes efeitos adversos locais ainda não são bem conhecidas. Uma das hipóteses aventadas seria o efeito citotóxico dos conservantes dos colírios e outra o envolvimento das metaloproteinases, cuja expressão estaria relacionada às alterações estruturais induzidas pelo uso crônico dos AP. Objetivo: O objetivo deste estudo foi avaliar a conjuntiva de coelhos submetidos à tratamento ocular tópico com AP e solução conservante por meio de estudo histológico, morfométrico e imuno-histoquímico. Material e Métodos: Quarenta coelhos adultos sadios da raça Norfolk, de ambos os sexos, com peso entre 1500 e 2500g, foram divididos por sorteio em quatro grupos experimentais. Os olhos direitos dos animais foram tratados com uma gota diária de bimatoprosta 0,03%, travoprosta 0,004%, latanoprosta 0,005%, e solução conservante por 30 dias (20 animais) e 60 dias (20 animais). Todos os coelhos foram submetidos à avaliação clínica oftalmológica com documentação fotográfica. Após a eutanásia, os olhos foram enucleados e preparados para análise histológica, morfométrica e imuno-histoquímica com pesquisa de expressão de metaloproteinase 2 (MMP2). Resultados: Houve aumento de espessura epitelial e estromal em todos os grupos tratados, principalmente no grupo latanoprosta com 30 dias e bimatoprosta com 60 dias (p<0,001). A ... (Resumo completo, clicar acesso eletrônico abaixo) / Abstract: Prolonged use of prostaglandin (PA) analog drops in the treatment of glaucoma has been associated with toxic and inflammatory changes in ocular tissues. The causes of these local adverse effects are not yet well known. One of the hypotheses proposed would be the cytotoxic effect of the preservatives of the eye drops and another the involvement of the metalloproteinases, whose expression would be related to the structural alterations induced by the chronic use of PA. Objective: The objective of this study was to evaluate the conjunctiva of rabbits submitted to topical ocular treatment with PA and preservative solution by histological, morphometric and immunohistochemical study. Material and Methods: Forty healthy adult Norfolk rabbits, weighing between 1500 and 2500g, were divided by lot into four experimental groups. The right eyes of animals were treated with a daily drop of 0.03% bimatoprost, 0.04% travoprost, 0.005% latanoprost, and placebo preservative solution for 30 days (20 animals) and 60 days (20 animals). All rabbits were submitted to clinical ophthalmological evaluation with photographic documentation. After euthanasia, the eyes were enucleated and prepared for histological, morphometric and immunohistochemical analysis with metalloproteinase 2 (MMP2) expression research. Results: There was an increase in epithelial and stromal thickness in all treated groups, mainly in the 30 day latanoprost group and 60 day bimatoprost group (p <0.001). Histological analysis with... (Complete abstract click electronic access below) / Mestre

Conjuntiva.

Coelho.

Inflamação.

análogos de prostaglandinas

metaloproteinase 2

Imuno-histoquímica.

conjunctiva

rabbits

inflammation

prostaglandin analogs

metalloproteinase 2

immunohistochemistry

Estudos de efeitos de uma metaloproteinase de veneno ofídico em células de músculo liso vascular: produção de fatores que modulam a migração e proliferação destas células e mecanismos e / Studies on the effects of an ophidian venom metalloproteinase in vascular smooth muscle cells: production of factors that modulate cell migration and proliferation and mechanisms involved

Viana, Mariana do Nascimento

04 December 2018

As metaloproteinases, abundantes em venenos de serpentes da família Viperidae, apresentam homologia estrutural e funcional com as metaloproteinases de mamíferos (MMPs), cujos níveis estão elevados em doenças de natureza inflamatória, como a aterosclerose. A metaloproteinase BaP1, do veneno da serpente Bothrops asper, apresenta potente atividade inflamatória e constitui ferramenta científica importante para o estudo das ações das MMPs. Durante a aterosclerose, as células de músculo liso vascular (CMLVs) mudam do fenótipo contrátil para sintético, migram para a camada subendotelial do vaso, liberam mediadores inflamatórios e expressam MMPs. No entanto, o papel destas enzimas na resposta inflamatória das CMLVs e a potencial relação deste efeito com a migração das mesmas, não foi esclarecida. Neste estudo, investigou-se os efeitos da BaP1 em CMLVs, quanto à 1) indução da migração; 2) liberação de diferentes classes de mediadores inflamatórios e expressão de moléculas de adesão; 3) indução da mudança fenotípica das CMLVs; 4) expressão e participação de enzimas de síntese de prostaglandinas e de receptores de PGE2 na liberação deste eicosanoide; 5) participação de eicosanoides e da IL-1&#946 na migração e mudança de fenótipo das CMLVs. Os resultados obtidos, a partir dos ensaios de transwell e wound healing, mostraram que a BaP1(50nM) induziu a migração das CMLVs, após 48 h, mas não a proliferação celular, observada pelo ensaio de ciclo celular. Além disso, a metaloproteinase induziu aumento da liberação de PGE2 (1-48h), LTB4 (1-3h), IL-1&#946 (12-24h), MCP-1 (24-48h) e fractalcina (24-48h), mas não de PGI2 e nem TXA2, analisados por ensaios de EIA e multiplex. Ainda, a BaP1 aumentou a expressão proteica de COX-2 (1° h) e de PGESm-1 (4° h), analisada por Western blotting, e expressão gênica das sFLA2-IIA (30 min) e cFLA2-IVA (30 min), verificada por PCR em tempo real, sem alterar os níveis de COX-1, dos receptores EP1, EP2, EP3 e EP4, de ICAM-1 e VCAM-1 e da iFLA2. A intervenção farmacológica com os inibidores de COX-2 ou de FLA2 intracelulares reduziu a liberação de PGE2 induzida pela BaP1. Além disso, o pré-tratamento das células com o inibidor da FLAP e com os antagonistas do receptor de IL-1&#946 ou do receptor EP3 reduziu a migração celular induzida pela BaP1. Esta metaloproteinase também induziu a mudança de fenótipo contrátil para o sintético, das CMLVs, verificada pela diminuição da expressão de &#945-actina pelo ensaio de citometria de fluxo. A inibição da COX-2 e da FLAP não alterou este efeito. Este conjunto de dados demonstra a capacidade da BaP1 estimular diretamente as CMLVs para migração, liberação de mediadores inflamatórios e a expressão de COX-2, PGESm-1, sFLA2-IIA e cFLA2-IVA. A produção de PGE2 induzida pela BaP1 depende das FLA2s intracelulares, com ativação das vias da COX-1 e -2. A migração das CMLVs, induzida pela BaP1, depende da PGE2 via ativação do receptor EP3, do LTB4 e da IL-1&#946. Ainda, esta metaloproteinase estimula a mudança fenotípica das CMLVs para o estágio sintético, em que as CMLVs migram e proliferam. Os dados deste estudo, ao demonstrarem que as metaloproteinases contribuem para o desenvolvimento de eventos inflamatórios, em CMLVs, apontam um papel adicional desta classe de enzimas em doenças de natureza inflamatória, como a aterosclerose. / Metalloproteinases are abundant enzymes in Viperidae family snake venoms and exhibit structural and functional homology with mammalian matrix metalloproteinases (MMPs). The levels of these enzymes are incresead in inflammatory diseases, such as atherosclerosis. The BaP1 metalloproteinase from Bothrops asper snake venom presents potent inflammatory activity and constitutes important scientific tool for the study of the actions of MMPs. During atherosclerosis, vascular smooth muscle cells (VSMCs) switch their phenotype from a contractile to a synthetic state, migrate into the subendothelial vessel layer, release inflammatory mediators and express high levels of MMPs. However, the role of these enzymes in the inflammatory response of VSMCs and the potential relationship of this effect with cell migration have not been clarified. In this study, we investigated the effects of BaP1 on CMLVs with focus on: 1) induction of cell migration; 2) release of different classes of inflammatory mediators and protein expression of adhesion molecules; 3) induction of VSMCs phenotype switching; 4) expression and participation of prostaglandin synthesis enzymes and PGE2 receptors in the release of this eicosanoid; 5) participation of eicosanoids and IL-1&#946 in migration and phenotype switching of VSMCs. Results obtained from the transwell and wound healing assays showed that BaP1 (50nM) induced VSMCs migration after 48 h, but not cell proliferation, observed by the cell cycle assay. In addition, this metalloproteinase caused release of PGE2 (1-48h), LTB4 (1-3h), IL-1 (12-24h), MCP-1 (24-48h) and fractalkine (24-48h), but not PGI2 and TXA2, analyzed by EIA and multiplex assays. Furthermore, BaP1 increased protein expression of COX-2 (1 h) and PGESm-1 (4 h), analyzed by western blotting and gene expression of sFLA2-IIA (30 min) and cFLA2-IVA (30 min), evaluated by real-time PCR, without altering COX-1, EP1, EP2, EP3 and EP4, ICAM-1 and VCAM-1 and iFLA2 levels. Pharmacological intervention with COX-2 or intracellular FLA2 inhibitors reduced PGE2 release induced by BaP1. In addition, pretreatment of cells with either a FLAP inhibitor, or IL-1&#946 receptor, or EP3 receptor antagonist reduced cell migration induced by BaP1. This metalloproteinase also induced conversion of contractile VSMCs to an synthetic phenotype, as evidenced by decrease of -actin expression, analyzed by flow cytometry assay. Inhibition of COX-2 and FLAP did not alter this effect. Altogether, these data demonstrate the ability of BaP1 to directly stimulate VSMCs for migration, release of inflammatory mediators and expression of COX-2, PGESm-1, sFLA2-IIA and cFLA2-IVA. PGE2 production induced by BaP1 depends on the intracellular FLA2s, with activation of COX-1 and -2 pathways. VSMCs migration induced by BaP1 depends on PGE2 via EP3 receptor engagement, LTB4 and IL-1&#946. Furthermore, this metalloproteinase stimulates VSMCs phenotypic switching to a synthetic phenotype, in which these cells migrate and proliferate. These data demonstrate that metalloproteinases can contribute to the development of inflammatory events in VSMCs, evidencing an additional role of this class of enzymes in inflammatory diseases, such as atherosclerosis.

Célula de músculo liso vascular

Inflamação

Inflammation

Metalloproteinase

Metaloproteinase

Migração

Migration

Prostaglandin E2

Prostaglandina E2

Vascular smooth muscle cells