Polyhydroxybutyrate als Scaffoldmaterial für das Tissue Engineering von Knochen

Wollenweber, Marcus

27 August 2012

In drei inhaltlich abgeschlossen Teilen werden Fragestellungen bearbeitet, die sich mit dem Einsatz von Polyhydroxybutyraten als Scaffoldmaterialien für das Tissue Engioneering von Knochen beschäftigen. Zunächst wird ein Prozess optimiert, in dem mittels Verpressen und Auslösen von Platzhaltern (Porogen) poröse Träger (Scaffolds) aus Poly-3-hydroxybuttersäure (P3HB) sowie aus P3co4HB hergestellt werden. Diese Scaffolds werden in der Folge mechanisch und strukturell charakterisiert, wobei Druckfestigkeit, Dauerfestigkeit und Viskoelastizität untersucht werden. Im Ergebnis finden sich mehrere Kandidaten, die für die weitere Testung im Tierversuch in Frage kommen. Weiter wird das Abbauverhalten von schmelzgeponnenen P3HB-Fäden untersucht. Dabei wird ein beschleunigtes Modellsystem gewählt, das noch möglichst nahe am physiologischen Fall aber ohne biologisch aktive Komponente (zB. Enzyme) definiert wurde. Die Charakterisierung bedient sich hier der Gelpermeationschromatographie (GPC), des gasgestützten Elektronenrastermikroskops (ESEM), der differentiellen Thermoanalyse (DSC) und der Rasterkraftmikroskopie. Als Ergebnis zeichnete sich ab, dass neben der hydrolytischen Degradation im Gegensatz zu PHB mit kleinerer spezifischer Oberfläche bei den Fäden auch Erosion zum Abbau beiträgt. Eine partikuläre Freisetzung wird nicht beobachtet. Im dritten Teil werden textile Scaffolds aus P3HB mit einer künstlichen extrazellulären Matrix aus Chondroitinsulfaten (CS) und Kollagen versehen. Dem CS kann hier ein positiver Einfluss auf die osteogene Differenzierung von humanen mesenchymalen Stammzellen (hMSC) nachgewiesen werden. Dies wird zum einen durch die verstärkte Expression der alkalischen Phosphatase (ALP) sowie durch die Hochregulation von Proteinen ersichtlich, die bei der osteogenen Differenzierung essentiell sind. In wenigen Gene-Arrays lässt sich ebenfalls erkennen, dass die osteogene Differenzierung durch CS positiv beeinflusst wird. Insbesondere frühe Marker wie ZBTB16 und IGFBPs werden hier identifiziert. Basierend auf den Teilergebnissen wird am Ende ein Beitrag geliefert, der das Tissue Engineering insbesondere für überkritische Röhrenknochendefekte als Methode interessant erscheinen lässt. Dabei werden mechanische Lasten durch konventionelle Fixateure aufgenommen und der Defektraum durch den mehrfachen Einsatz von bio-funktionalisierten flachen Scaffolds gefüllt.

Polyhydroxybutyrate

PHB

P3HB

P3co4HB

mesenchymale Stammzellen

Knochen

tissue engineering

mechanische Eigenschaften

EZM

Kollagen

Chondroitinsulfat

Glykosaminoglykane

Scaffold

Degradation

mesenchymal stem cells

bone

mechanical properties

ECM

collagen

chondroitinsulphate

glycosaminoglycans

GAG

ddc:620

rvk:ZM 7070

Biomarcadores do metabolismo da cartilagem e sua relação com as alterações morfológicas, inflamatórias e funcionais: um estudo sobre a lesão condral secundária em joelhos humanos / Biomarkers of cartilage metabolism and its relationship with morphological, inflammatory and functional changes: a study of secondary chondral injury in human knees

Franco, Renata Nogueron

28 February 2011

Made available in DSpace on 2016-06-02T20:18:15Z (GMT). No. of bitstreams: 1 3931.pdf: 5591864 bytes, checksum: b4873ba462675328d3fc2005b8032afb (MD5) Previous issue date: 2011-02-28 / Osteoarthritis (OA), a degenerative joint disease, is one of the most frequent causes of pain in the musculoskeletal system and of the inability to work in Brazil and the world. It is a multifactor, chronic disease, leading to progressive functional inability. It can arise as a result of injuries to structures such as the anterior crossed ligament and/or meniscus (post-traumatic OA), which, in this case, can affect individuals in any age range. The development of osteoarthritis includes multiple changes in the extracellular cartilage matrix, altering the normal morphological configuration of the joint involved, leading to a lack of equilibrium between the synthesis and degradation of products in this matrix. Although OA is not considered primordially as an inflammatory disease, inflammation of the joint has been shown to be a potential amplifier of the degenerative process. Thus the objective of the present study was to analyze potential biological markers in the serum and synovial fluid, and then correlate them with one another and with the morphological, inflammatory and functional alterations found in individuals with chronic injury of the anterior crossed ligament (ACL). The following techniques were used in the study: zymography, to determine the activity of the metallopeptidases 2 and 9 (MMP-2 and MMP-9); an immune-enzymatic assay (ELISA) to determine the presence of systemic and local cytokines; and a manual count of inflammatory cells (mononuclear and polymorphonuclear) by optical microscopy and spectrophotometry, in order to analyze for sulfated glycosaminoglycans (GAGs). The results indicated joint and systemic inflammation in chronic injury of the ACL by the detection of systemic and local cytokines, by the activity of MMP-9 and by the inflow of neutrophils. There were interactions between systemic and local cytokines, in which a cytokine did not always exert the same function in the serum as in the synovial fluid. The interleucines (IL) connected to degradation of the cartilage in chronic injury of the ACL were IL-12, IL-6 and IL-8, and those connected to pain and loss of function were IL-6 and IL-9. In counterpart, MMP-2 showed a negative correlation with the damage to the cartilage. It was concluded that the molecules studied had potential as biomarkers, since alterations were suggestive of injury and degradation of the cartilage. In addition, after the traumatic event resulting in rupture of the ACL, the ambient remained chronically inflamed and this inflammation was crucial for the high index of posttraumatic OA. / A osteoartrite (OA), doença articular degenerativa, é uma das causas mais freqüentes de dor do sistema músculo-esquelético e de incapacidade para o trabalho no Brasil e no mundo. É uma doença crônica, multifatorial, que leva a uma incapacidade funcional progressiva. Pode surgir em decorrência de lesões em estruturas como ligamento cruzado anterior e/ou meniscos (OA pós-traumática), e neste caso, pode afetar indivíduos em qualquer faixa etária. O desenvolvimento da osteoartrite inclui múltiplas mudanças na matriz extracelular da cartilagem, o que altera a configuração morfológica normal da articulação envolvida, levando a um desequilíbrio entre a síntese e degradação dos produtos desta matriz. Apesar da OA não ser considerada primordialmente como uma doença inflamatória, a inflamação articular tem demonstrado um potencial amplificador do processo degenerativo. Sendo assim, o objetivo deste trabalho foi analisar potenciais marcadores biológicos no soro e no líquido sinovial, e em seguida correlacioná-los uns com os outros e com as alterações morfológicas, inflamatórias e funcionais encontradas em sujeitos com lesão crônica do ligamento cruzado anterior (LCA). Para este estudo foram utilizadas técnicas de: zimografia, para verificar a atividade das metalopeptidases 2 e 9 (MMP-2 e MMP-9); Ensaio imunoenzimático (ELISA), para constatar a presença das citocinas sistêmicas e locais; contagem manual de células inflamatórias (mononucleares e polimorfonucleares) por microscopia óptica e espectrofotometria para a análise dos glicosaminoglicanos sulfatados (GAGs). Os resultados apontaram para uma inflamação articular e sistêmica na lesão crônica do LCA, pela detecção de citocinas sistêmicas e locais, pela atividade das MMP-9 e pelo influxo de neutrófilos. Houve interações entre citocinas sistêmicas e locais, nas quais nem sempre uma citocina exerce a mesma função no soro e no líquido sinovial. As interleucinas (IL) ligadas à degradação da cartilagem na lesão crônica do LCA foram IL-12, IL-6 e IL-8 e as ligadas à dor e a perda de função foram IL-6 e IL-8. Em contrapartida, a MMP-2 apresentou correlação negativa com os danos na cartilagem. Conclui-se que, as moléculas estudadas apresentam potencial como biomarcadores, sendo suas alterações sugestivas de lesão e degradação da cartilagem. E ainda, que após o evento traumático responsável pelo rompimento do LCA, o ambiente permanece inflamado cronicamente e que esta inflamação é crucial para o alto índice de OA pós-traumática.

Osteoartrite

Marcadores biológicos

Cartilagem articular

Ligamento cruzado anterior

Inflamação

Fisioterapia

Osteoartrite pós-traumática

Lesão condral

Glicosaminoglicanos

Metalopeptidases

Post-traumatic osteoarthritis

Chondral injury

Cytokines

Polymorphonuclear and mononuclear cells

Glycosaminoglycans

Metallopeptidases

Influência da lesão condral na concentração de glicosaminoglicanas sulfatadas no líquido sinovial.

Cintra Neto, Paulo Felix de Araujo

28 February 2006

Made available in DSpace on 2016-06-02T20:19:03Z (GMT). No. of bitstreams: 1 DissPFACN.pdf: 513373 bytes, checksum: e626d1bf009f8adbc96ccd8431d6b582 (MD5) Previous issue date: 2006-02-28 / Universidade Federal de Sao Carlos / Objective. To evaluate the influence of sulfated glycosaminoglycan (GAG) concentration in synovial fluid from individuals with chondral injuries, either isolated or associated with anterior cruciate ligament injury or meniscal injury, and check for an association between time since injury and the degree of chondral injury. Material and Method. Twenty-nine adult subjects (25 men and 4 women, mean age 38.3 ± 10.9 years) were selected. Samples obtained from all subjects were quantified to determine the GAG concentration using dimethylmethylene blue dye. The degree of chondral damage was macroscopically evaluated by arthroscopy and rated according to the International Cartilage Repair Society (ICRS) classification. Results. Significant differences were found concerning the GAG concentration in the control group compared with the other groups (p<0.05). No significant differences were found between the studied groups concerning time since injury and degree of chondral damage according to the ICRS. A strong correlation was found between GAG concentration and time since injury in the chondral injury group (r= -1). Conclusion. Damage to articular structures seems to be the determining factor in the change of synovial fluid GAG concentration, being higher in isolated chondral injury. When associated with anterior cruciate ligament rupture and/or meniscal injury, it will promote a tendency to fall, and is not related to sex, age, time since injury and degree of chondral injury in all groups studied. / Objetivo: Avaliar a influência da lesão condral na concentração de glicosaminoglicanas sulfatadas no líquido sinovial de indivíduos portadores de lesões condrais isoladas ou associadas com lesões do ligamento cruzado anterior e dos meniscos, bem como uma associação com o tempo da lesão e o grau de osteoartrite. Desenho do estudo: Foram avaliados 29 indivíduos adultos de ambos os sexos. Os sujeitos foram divididos em cinco grupos: grupo controle; grupo com lesão condral; grupo com lesão condral associada à lesão meniscal; grupo com lesão condral associada à lesão do ligamento cruzado anterior e grupo com lesão condral associado às lesões meniscal e do ligamento cruzado anterior. Métodos: As amostras foram quantificadas em relação à concentração de glicosaminoglicanas pelo método espectrofotométrico, utilizando o corante azul de dimetilmetileno. O grau de osteoartrite foi avaliado macroscopicamente, por artroscopia e graduado segundo classificação da Internacional Cartilage Repair Society, 2000, variando entre grau 0 e 4. Resultados: Encontramos diferenças significativas quando comparamos a concentração de glicosaminoglicanas do grupo controle em relação aos outros grupos (P<0,05), houve também correlação entre concentração de glicosaminoglicanas sulfatadas e o tempo pós lesão no grupo com lesão condral, (r= -1). Não houve diferenças significativas entre os grupos estudados quanto ao grau de osteoartrite e tempo após a lesão. Conclusão: A lesão condral isolada apresenta maior concentração de glicosaminoglicanas, entretanto a presença de lesão do ligamento cruzado anterior e meniscos influenciam uma tendência à queda desta concentração no líquido sinovial e sem apresentar relação com o tempo de lesão e o grau de osteoartrite entre os grupos estudados.

Articulações (Ligamentos e juntas)

Articulações do joelho

Lesão condral

Ligamento cruzado anterior

Osteoartrite

Glicosaminoglicanas

Cartilagem articular

Proteoglicanas

Glycosaminoglycans

Osteoarthritis

Synovial fluid

Chondral injury

Anterior Cruciate

Ligament

Meniscus

Polissacar?deos sulfatados de interesse farmacol?gico no camar?o litopenaeus schimitti

Santos, Vanessa Olinto dos

12 June 2006

Made available in DSpace on 2014-12-17T14:03:41Z (GMT). No. of bitstreams: 1 VanessaOS.pdf: 1126102 bytes, checksum: dba464c890585c6be32a3fd2dc600a81 (MD5) Previous issue date: 2006-06-12 / Coordena??o de Aperfei?oamento de Pessoal de N?vel Superior / Sulfated Polysaccharides with unique chemical structures and important biological activities has been found in a diversity of sea invertebrates. For that, to exist a huger interest on the biotechnology field in the research theses sulfated compounds isolated from sea organisms. Despite the privileged brazilian position for these compounds attainment, there are still a few scientific informations about the isolated substances and their biological activities. A head the displayed, the present work has for objectives, to evaluate the pharmacological properties of the glycosaminoglycans isolated from the sea shrimp Litopenaeus schimitti on homeostasis, blood coagulation, leukocytes migration and platelet/leukocyte adhesion. For this, yhe glycosaminoglycans were extracted from crustacean tissues by proteolysis, fractionation with acetone and later submitted to pharmacological assays. The crustacean tissues showed compounds heparin-like, with anticoagulant activity of 45 IU/mg and 90 IU/mg, respectively. These molecules showed low residual hemorrhagic effects in the tested concentration (100 ?g/mL), when compared to unfractionated commercial heparin (UFH). Another dermatan sulfate-like compound, predominately constituted for disulfated disaccharides, was isolated from crustacean abdomen. This compound showed an efficient effect on leukocytes migration inhibition, in the concentration of 15 ?g/mL, reducing the cellular infiltration in 65% when compared to the controlled animals. In this same concentration, the DS reduced in 60% the protein concentration of the peritoneal exudates. In the concentration, this compound of 0.5 mg/mL, it was capable to reduce in 40% platelet/leukocytes adhesion. Our data demonstrate that these sulfated polysaccharides isolated from the shrimp L. schimitti will can be used as bioactive compounds, appearing as active principles for pharmacological development, anticoagulants and inflammatory response regulators / Polissacar?deos sulfatados com caracter?sticas estruturais distintas e importantes atividades biol?gicas t?m sido encontrados em uma diversidade de invertebrados marinhos. Por isso existe um grande interesse no campo da biotecnologia na pesquisa destes compostos sulfatados isolados de organismos aqu?ticos. No entanto, apesar da posi??o privilegiada do Brasil para a obten??o destes compostos, ainda s?o poucas as informa??es cient?ficas sobre as subst?ncias isoladas e suas atividades biol?gicas. Diante do exposto, este presente trabalho teve por objetivos avaliar os potenciais farmacol?gicos dos glicosaminoglicanos (GAGs) isolados do camar?o marinho Litopenaeus schimitti, sobre a hemostasia, coagula??o sang??nea, migra??o leucocit?ria e ades?o celular. Para isso os GAGs foram extra?dos dos tecidos do crust?ceo mediante prote?lise, fracionamento com acetona e posteriormente submetidos aos ensaios farmacol?gicos. Os tecidos do crust?ceo, abd?men e cefalot?rax, apresentaram compostos semelhantes ? heparina (heparin?ides) com atividade anticoagulante de 45 UI/mg e 90 UI/mg, respectivamente. Estas mol?culas apresentaram baixo efeito hemorr?gico residual na concentra??o de 100 ?g/mL, quando comparada com a heparina comercial n?o fracionada (HNF). Um outro composto semelhante ao dermatam sulfato (DS), constitu?do predominantemente por dissacar?deos dissulfatados foi isolado do abd?men do crust?ceo. Este composto apresentou, na concentra??o de 15 ?g/?L, uma inibi??o significativa (P<0.01) da migra??o leucocit?ria, reduzindo a infiltra??o celular em 65% quando comparado com os animais controle. Nessa mesma concentra??o o DS reduziu em 60% a concentra??o de prote?nas do lavado peritonial. As an?lises qualitativas da composi??o celular do exudato peritonial foram similares ao encontrado para os animais controles em todas as concentra??es testadas. Na concentra??o de 0,5 mg/mL foi capaz de reduzir em 40% a ades?o das plaquetas aos leuc?citos. Os dados obtidos demonstram que estes polissacar?deos sulfatados isolados do camar?o L.schimitti podem vir a ser utilizados como compostos bioativos, podendo surgir como princ?pios ativos para o desenvolvimento de f?rmacos, anticoagulantes e moduladores da resposta inflamat?ria

Heparin?ides

Dermatam Sulfato

Glicosaminoglicanos

Atividade anticogulante

Atividade anti migrat?ria

Ades?o plaquetas/leuc?citos

Camar?o

Crust?ceos

Heparinoids

Dermatan Sulfate

Glycosaminoglycans

Anticoagulant Activity

Antimigratory Activity

Platelets/Leukocytes Adhesion

Shrimp, Crustacean

CNPQ::CIENCIAS BIOLOGICAS::BIOQUIMICA

Purifica??o e caracteriza??o de uma ?-N-acetillhexosaminadase extra?da do mam?fero marinho Sotalia fluviatilis

Gomes J?nior, Jos? Edilson

06 December 2006

Made available in DSpace on 2014-12-17T14:03:42Z (GMT). No. of bitstreams: 1 JoseEGJ.pdf: 604842 bytes, checksum: a34879bd40606d248f800a49ed111824 (MD5) Previous issue date: 2006-12-06 / This report shows 2232 times purification of a &#946;NAcetylhexosaminidase from hepatic extracts from the sea mammal Sotalia fluviatilis homogenate with final recovery of 8,4%. Sequenced steps were utilized for enzyme purification: ammonium sulfate fractionation, Biogel A 1.5 m, chitin, DEAESepharose and hydroxyapatite chromatographies. The protein molecular mass was estimated in 10 kDa using SDSPAGE and confirmed by MALDITOF. It was found to have an optimal pH of 5.0 and a temperature of 60?C. Using pnitrophenylNAcetyl&#946;Dglycosaminide apparent Km and Vmax values were of 2.72 mM and 0.572 nmol/mg/min, respectively. The enzyme was inhibited by mercury chloride (HgCl2) and sodium dodecil sulfate (SDS) / Este trabalho mostra a purifica??o de 2232 vezes de uma &#946;NAcetilhexosaminidase obtida a partir dos extratos hep?ticos do mam?fero marinho Sotalia fluviatilis com recupera??o final de 8,4%. Passos seq?enciais foram utilizados para a purifica??o enzim?tica: fracionamento com sulfato de am?nio e as cromatografias de Biogel A 1.5 m, Quitina, DEAESepharose e Hidroxiapatita. A massa molecular prot?ica foi estimada em 10 kDa usando SDSPAGE e confirmada por MALDITOF. Foi encontrado como pH e temperatura ?timos, 5,0 e 60?C, respectivamente. Os valores de Km e Vm?x aparentes foram 2,72 mM e 0,572 nmol/mg/min, sendo utilizado o pnitrofenilNAcetil&#946;Dglicosamin?deo como substrato. A enzima foi inibida pelo cloreto de merc?rio (HgCl2) e dodecil sulfato de s?dio (SDS)

&#946

NAcetilhexosaminidase

&#946

NAcetilglucosaminidase

&#946

NAcetilgalactosaminidase

Sotalia fluviatilis

Glicosaminoglicanos

Extratos hep?ticos

Mam?feros marinhos

&#946

NAcetylhexosaminidase

&#946

NAcetylgalactosaminidase

&#946

NAcetylglycosaminidase

Sotalia fluviatilis

Glycosaminoglycans

Hepatics extracts

Sea mammal

CNPQ::CIENCIAS BIOLOGICAS::BIOQUIMICA

Purifica??o e caracteriza??o parcial de duas N-acetil-?-hexosaminidases do Equinoderma marinho Echinometra lucunter

Lima, ?dila Lorena Morais

30 November 2006

Made available in DSpace on 2014-12-17T14:03:43Z (GMT). No. of bitstreams: 1 AdilaLML.pdf: 743306 bytes, checksum: 8c2b4b2827dafcc2f2edd7664a266e10 (MD5) Previous issue date: 2006-11-30 / Two b-N-acetylhexosaminidases (F11 e F15) were purified from Echinometra lucunter gonads extracts. The purified enzymes were obtained using ammonium sulfate fractionation, followed by gel filtration chromatographies (Sephacryl S-200, Sephadex G-75 and Sephacryl S-200). The F11 fraction was purified 192.47 -fold with a 28.5% yield, and F15 fraction 85.41 -fold with a 32.3% yield. The molecular weights of the fractions were 116 kDa for F11 and 42 kDa for F15 using SDS-PAGE. In Sephacryl S-200, F15 was 84 kDa, indicating that it is a dimeric protein. When p-nitrophenyl-?-D-glycosaminide was used as substrate, we determined an apparent Km of 0.257 mM and Vmax of 0.704 for F11 and for F15 the Km was 0.235 mM and Vmax of 0.9 mM of product liberated by hour. Both enzymes have optimum pH and temperature respectively at 5.0 and 45 ?C. The enzymes showed inhibition by silver nitrate, while the glucuronic acid was a potent activator. The high inhibition of F15 by N-etylmaleimide indicates that sulphydril groups are involved in the catalysis of synthetic substrate / Neste trabalho foram purificadas e caracterizadas parcialmente duas N-acetil-b- hexosaminidases (F11 e F15) extra?das de g?nadas do equinoderma marinho Echinometra lucunter. As enzimas foram purificadas com protocolo seq?encial por precipita??o com sulfato de am?nio e cromatografias de exclus?o molecular (Sephacryl S-200, Sephadex G-75 e Sephacryl S-200). A fra??o F11 foi purificada 192,47 vezes com recupera??o de 28,5% e F15 85,41 vezes com recupera??o de 32,3%. Suas massas moleculares, determinadas por eletroforese em gel de poliacrilamida com SDS, foram respectivamente 116 e 42 kDa. Em Sephacryl S-200 F15 apresentou massa molecular de 84 KDa, sugerindo que esta enzima possui forma dim?rica. Utilizando-se p-nitrofenil N-acetil-b-glicosamin?deo como substrato obtivemos Km aparente de 0,257 mM e Vmax de 0,704 unidades de absorb?ncia a 405 nm / h para a fra??o 11, e 0,235 mM e Vmax de 0,9 unidades de absorb?ncia a 405 nm / h para F15. Ambas fra??es apresentaram pH e a temperatura ?tima de cat?lise 5,0 e 45 ?C, respectivamente. A atividade N-acetil-b-glicosaminid?sica foi potencialmente inibida por prata, iodoacetamida, N-etilmaleimida e PMSF. A forte inibi??o de F15 por N-etilmaleimida indica o envolvimento de radicais sulfidrila na hidr?lise do substrato sint?tico, caracterizando tamb?m ser uma enzima altamente sensitiva a este sal

N-Acetil-b-glicosaminidases

N-Acetil-b-hexosaminidases

Glicosidases

Echinometra lucunter

glicosaminoglicanos sulfatados

G?nadas

N-Acetyl-b-glicosaminidases

N-Acetyl-b-hexosaminidases

Echinometra lucunter

sulfatate glycosaminoglycans and gonads

CNPQ::CIENCIAS BIOLOGICAS::BIOQUIMICA

Alterações renais gênero-dependentes em ratos com insuficiência renal crônica / Gender-dependent renal alterations in rats with chronic renal failure

Carla Cavalheiro da Silva Lemos

21 June 2011

A insuficiência renal crônica (IRC) é caracterizada por alterações glomerulares secundárias aos mecanismos adaptativos ocasionados por perda de néfrons funcionantes. Alterações na hemodinâmica glomerular, proliferação celular, influxo de células inflamatórias, desequilíbrio na síntese de proteínas da matriz extracelular glomerular (MECG) e perda da seletividade de carga e/ou tamanho da membrana basal glomerular têm sido apontados como mecanismos envolvidos na expansão mesangial e conseqüente glomeruloesclerose. A participação dos hormônios sexuais na função renal e na evolução da insuficiência renal crônica tem sido sugerida. Os glicosaminoglicanos, especialmente o heparan sulfato (HS), têm sido associados à seletividade glomerular de macromoléculas. O remodelamento podocitário precoce e a proteinuria (PTN) se relacionam com a progressão da IRC. Neste contexto, o acúmulo de MECG, proliferação de miofibroblastos e PTN têm sido apontados como mediadores precoces que precedem as lesões glomerulares e túbulo-intersticiais. Neste estudo, avaliamos as alterações renais precoces (30 dias de IRC) gênero-dependentes em ratos (M) e ratas (F) Wistar submetidos à redução de 5/6 da massa renal (IRC) e à castração (c). Os animais foram divididos em 10 grupos: Controles (C) (CM, CF, CMc, CFc) e sham (CM sham, CF sham); e aqueles submetidos à nefrectomia 5/6: IRCM, IRCF, IRCMc, IRCFc. Os animais foram castrados com 5 semanas e submetidos à nefrectomia 5/6 com 7 semanas de idade. Resultados significativos mostraram que os machos com IRC apresentaram maior PTN, acompanhada de maior comprometimento mesangial, imunomarcação positiva para &#945;-actina e maior concentração de heparan sulfato (HS) comparados com as fêmeas IRC (p<0,05). Estas alterações foram reduzidas nos machos castrados. A análise da morfologia podocitária mostrou raras regiões onde ocorreram alterações podocitárias nos grupos IRC. O conjunto de dados sugere que o hormônio masculino pode participar na manutenção do equilíbrio mesangial e que a PTN participa do processo de expansão mesangial. Adicionalmente, a maior concentração de HS nos machos com IRC sugere que durante o processo de remodelação da MEG, tenha ocorrido geração de HS de novo, funcionalmente defeituoso, comprometendo a barreira de filtração glomerular, corroborando com a perda de seletividade da mesma e, contribuindo para maior PTN neste grupo. As fêmeas com IRC apresentaram alterações mais discretas quando comparadas aos machos; apresentaram decréscimo de HS renal associado a PTN e a castração não alterou este perfil. Em resumo, a PTN ocorre precocemente na IRC, contribuindo para o desequilíbrio da MECG. Os mecanismos envolvidos nestes processos parecem sofrer influência dos hormônios sexuais; e os hormônios masculinos parecem agravar estas alterações, contribuindo possivelmente para um pior prognóstico da doença renal nos machos. / Chronic renal failure (CRF) is characterized by adaptive mechanisms secondary to the loss of functioning nephrons. Glomerular hemodynamics alterations, cellular proliferation, inflammatory cells influx, imbalance between synthesis and degradation of the glomerular extracellular matrix (GECM) and loss of charge and/or size selectivity of the glomerular basal membrane are pointed as mechanisms leading to mesangial expansion and glomerulosclerosis. Additionally, participation of gender related hormones on renal function and progression of CRF have been suggested. We evaluated the effect of castration in renal alterations in males (M) and females (F) Wistar rats, after 30 days of 5/6 reduction of renal mass (CRF). The animals were castrated (c) at 5 weeks old and 7 weeks old 5/6 and sham nephrectomy were done. Groups: Control (C) CM, CM sham, CMc, CF, CF sham, CFc, CRFM, CRFMc, CRFF, CRFFc. CRFM group showed higher proteinuria followed by increased mesangial expansion and &#945;-actin immunostaining. Concomitant higher concentration of heparan sulfate (HS) was also observed when compared to CRFF (p<0.05). These alterations were reduced in CRFMc group. Podocyte morphology analysis through electronic microscopy showed few disorders of foot processes in CRF groups Overall, CRFF group showed fewer alterations compared to males, and a reduction of HS was observed in association with PTN. Castration did not change this profile in female rats. Data suggest that male hormones may participate in the maintenance of the mesangial equilibrium and that PTN collaborated with the mesangial expansion process. Additionally, the higher concentration of HS in CRFM suggest that the remodeling process of the GECM, included a synthesis of de novo HS, that presented a functioning defect, compromising the glomerular filtration barrier and, ultimately corroborated with the loss of its selectivity and consequently with a higher PTN. This set of results leads us to conclude that PTN appears early in the course of CRF, may contribute to renal GECM imbalance and, the mechanisms involved in these processes seem to be influenced by gender-related hormones. In addition, male hormones seem to aggravate renal alterations contributing to a poor prognosis of CRF progression in male rats.

Insuficiência renal crônica

Matriz extracelular

Glomérulo

Gênero

Castração

Proteinuria

Glicosaminoglicanos

Alfa-actina

Chronic renal failure

Extracellular matrix

Glomeruli

Gender

Castration

Proteinuria

Glycosaminoglycans

Alfa-smooth-muscle-actin

FISIOLOGIA DE ORGAOS E SISTEMAS

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

Sulfated hyaluronan alters fibronectin matrix assembly and promotes osteogenic differentiation of human bone marrow stromal cells

Vogel, Sarah, Arnoldini, Simon, Möller, Stephanie, Hempel, Ute, Schnabelrauch, Matthias

28 March 2017

Extracellular matrix (ECM) composition and structural integrity is one of many factors that influence cellular differentiation. Fibronectin (FN) which is in many tissues the most abundant ECM protein forms a unique fibrillary network. FN homes several binding sites for sulfated glycosaminoglycans (sGAG), such as heparin (Hep), which was previously shown to influence FN conformation and protein binding. Synthetically sulfated hyaluronan derivatives (sHA) can serve as model molecules with a well characterized sulfation pattern to study sGAG-FN interaction. Here is shown that the low-sulfated sHA (sHA1) interacts with FN and influences fibril assembly. The interaction of FN fibrils with sHA1 and Hep, but not with non-sulfated HA was visualized by immunofluorescent co-staining. FRET analysis of FN confirmed the presence of more extended fibrils in human bone marrow stromal cells (hBMSC)-derived ECM in response to sHA1 and Hep. Although both sHA1 and Hep affected FN conformation, exclusively sHA1 increased FN protein level and led to thinner fibrils. Further, only sHA1 had a pro-osteogenic effect and enhanced the activity of tissue non-specific alkaline phosphatase. We hypothesize that the sHA1-triggered change in FN assembly influences the entire ECM network and could be the underlying mechanism for the pro-osteogenic effect of sHA1 on hBMSC.

info:eu-repo/classification/ddc/520

ddc:520

Příprava a charakterizace buněčných modelů lysosomálních dědičných onemocnění - mukopolysacharidos / Preparation and characterization of cell models of lysosomal hereditary diseases - Mucopolysaccharidoses

Presová, Gabriela

January 2020

Mucopolysaccharidoses are a group of diseases that belong to lysosomal storage disorders. A common sign of these monogenic multisystem diseases is a gene mutation leading to a deficiency of the lysosomal enzyme participating in glycosaminoglycan degradation. It results to their accumulation in the tissues and organs, where they cause a progressive damage. There is no efficient treatment available for most mucopolysaccharidoses. Moreover, the research is complicated because of the low prevalence and type of affected tissues. Animal models of these human diseases are used for an evaluation of newly developed therapeutic approaches. However, they also have many limitations due to the different pathogenesis and catabolic pathways of the accumulated substrates between humans and animals. Therefore, animal models are replaced by human cell models. In this thesis, the development of four mucopolysaccharidoses human cell models is reported (MPS IIID, MPS IVA, MPS IVB, MPS VI). Corresponding genes (GNS, GALNS, GLB1, ARSB) were inactivated using CRISPR/Cas9 technology, where plasmids containing specific inserts are delivered to the target human induced pluripotent stem cells (iPSC), using electroporation. Isolated clones, which represent iPSC disease models, were characterized by Sanger sequencing, enzyme...