Análise ultraestrutural e implicação do RNA de interferência na fibrilogênese do colágeno V em pacientes com esclerodermia / Ultrastructural analysis and implication of RNA interference in collagen V fibrillogenesis in patients with scleroderma

Morais, Jymenez de

25 November 2014

Introdução: Recentemente muitas são as funções atribuídas ao colágeno V em condições fisiológicas normais e em algumas doenças, como na esclerodermia. Esta proteína apresenta características estruturais singulares de regulação do diâmetro das fibrilas heterotípicas, e imunogenicidade, sendo capaz de desencadear uma resposta imune independente. Em descobertas recentes, desenvolvidas por nosso grupo, ficou evidenciado que o colágeno V apresenta histoarquitetura anômala, aumentando a sua imunoexpressão na pele e pulmão em estágios iniciais da doença, assim como, aumento do RNAm de suas cadeias, principalmente alfa2(V). Por esta razão e com o intuito de entender sobre os processos moleculares e ultraestruturais que correlacionam o COL V à fibrose na ES, a proposta do presente estudo foi realizar análise morfológica e ultraestrutural das cadeias, alfa1(V) e alfa2(V), da pele de pacientes com ES, assim como avaliar a influência do gene COL5A2 na fibrilogênese. Pacientes e Métodos: As análises foram desenvolvidas utilizando fragmento de pele obtidas de biópsia, tanto de pacientes como controles, sob aprovação do comitê de ética (CAPPesq 0331/10) e de acordo com Declaração de Helsinque. Participaram do estudo 7 pacientes (homens=3, mulheres=4) diagnosticados com ES há dois anos ou menos, e indivíduos voluntários saudáveis (n=7) utilizados como grupo controle. A biópsia das peles foi dividida para dois grupos de análises: estudos histológicos e cultura de fibroblastos; sob solução de formol a 10%, foram realizadas análises histomorfométricas [coloração de Hematoxilina e Eosina (H e E), Tricrômico de Masson, imunofluorescência (IM) para cadeias alfa1(V) e alfa2(V), e reconstrução tridimensional (Zeiss LSM 510 META/UV)], e em solução de glutaraldeído 2% para análise ultraestrutural (microscopia eletrônica de transmissão com imunomarcação com ouro coloidal). A quantificação das cadeias foi realizada por histomorfometria, através de análise de imagem utilizando o software Image Pro-Plus 6.0. Já a cultura de fibroblastos foi desenvolvida para avaliar: distribuição e perfil das cadeias alfa1(V) e alfa2(V) [reconstrução 3D (Zeiss LSM 510 META/UV)],expressão gênica COL5A1, COL5A2 e ITGA2 [qRT-PCR (Applied Biosystems)], e inibição temporária do gene COL5A2. Resultados: Na análise morfológica (H&E e Masson) observou-se modificação da histoarquitetura da pele dos pacientes, com espessamento e retificação da epiderme devido ao aumento na densidade das fibras colágenas, com projeções das papilas dérmicas em direção à derme papilar. Esse resultado foi confirmado na quantificação das cadeias (IM), evidenciado por perda acentuada da cadeia alfa1(V) na derme papilar [12,77 ± 1,344 vs 66,84± 3,36 (p < 0,0001)] e aumento significante da expressão da cadeias alfa1(V) e alfa2(V) na derme reticular alfa1(V) [7,657 ± 0,2133 vs 13,75 ± 0,958 ( p < 0,0001)] e alfa2(V) [5,072 ± 0,4117 vs 21,07 ± 0,790 (p=0,001)] dos pacientes quando comparados ao controle. Assim como visto na imunomarcação com ouro coloidal das cadeias do COLV, houve ausência de expressão linear da cadeia alfa1(V) na derme papilar, contrastando com a expressão da mesma na pele de controles, se contrapondo a forte imunoexpressão das cadeias alfa1(V) e alfa2(V) com uma maior evidência da cadeia alfa2(V) na região espessada pela junção lâmina basal e derme reticular. A reconstrução 3D em cultura de fibroblastos dérmicos demonstrou grande atividade das células de pacientes com ES, confirmado na expressão gênica dos COL5A1, COL5A2 e ITGA2, que se mostraram aumentados significantemente nos pacientes em relação ao controle. Por fim, após inibição do COL5A2 houve uma tendência ao aumento na expressão do COL5A1, e superexpressão da ITGA2. Conclusão: A alteração dérmica observada em pacientes com ES esta correlacionada com a modificação na distribuição das cadeias alfas do COLV, principalmente por perda acentuada da alfa1(V)3 homotrímera na derme papilar e superexpressão da alfa2(V) em capilares e vasos, interferindo na formação de matriz extracelular normal, sugerindo uma alteração pós traducional desta proteína, e que maiores estudos sobre a inibição da cadeia alfa2(V) são importantes para uma futura terapia gênica para atenuar os sintomas desencadeados nesta patologia / Introduction: Recently many functions are attributed to type V collagen in normal physiological conditions and in some diseases, such as scleroderma. This protein presents unique structural features for regulating the diameter of fibrils heterotypic and immunogenicity being capable of eliciting an immune response independent. In recent discoveries, developed by our group, it was evident that collagen V presents anomalous histoarchitecture, increasing the immunoexpression in the skin and lung in the early stages of the disease, as well as increased mRNA of his chains, mainly alpha2(V). For this reason and in order to understand the molecular and ultrastructural processes that correlate COL V fibrosis in SSc, the purpose of this study was to perform morphological and ultrastructural analysis of the chains alpha1(V) and alpha2(V) of the patient´s skin with ES, as well as to assess the influence of the COL5A2 gene in fibrillogenesis. Patients and Methods: The analyses were developed using skin fragment obtained from biopsy, both of patients and controls, under the approval of the ethics committee (CAPPesq 0331/10) and in accordance with the Declaration of Helsinki. The study included 7 patients (male = 3, female = 4) diagnosed with ES for two years or less, and healthy volunteers (n = 7) used as a control group. The biopsy of the skin was divided in two groups of analyzes: histological studies and cultured fibroblasts; Under formaldehyde solution 10%, histomorphometric analysis [staining with hematoxylin and eosin (H e E), Masson\'s trichrome, immunofluorescence (IM) to alpha1(V) and alpha2(V) chains, and three-dimensional reconstruction (Zeiss LSM 510 META were performed/UV), and in a solution of 2% glutaraldehyde for ultrastructural analysis (transmission electron microscopy with immunostaining with colloidal gold). Quantitation was performed by the chain histomorphometry by image analysis using Image Pro-Plus 6.0 software. Already a fibroblast culture was developed to assess: distribution and profile of the alpha1(V) and alpha2(V) chains, 3D reconstruction (Zeiss LSM 510 META / UV), gene expression of COL5A1, COL5A2 and ITGA2 [RT-qPCR (Applied Biosystems)], and temporary inhibition of the COL5A2 gene. Results: In the morphological analysis (H&E and Masson) was observed modification of histoarchitecture patient\'s skin, with thickening and rectification of the epidermis due to increased density of collagen fibers, with projections of dermal papillae toward the papillary dermis. This result was confirmed by quantification of the chains (IM), evidenced by marked loss of the alpha1(V) chain in the papillary dermis [12.77 ± 1.344 vs 66.84 ± 3.36 (p < 0.0001)] and significant increase in the expression of alpha1(V) and alpha2(V) chains, in the reticular dermis alpha1(V) chain [0.2133 ± 7.657 vs 0.958 ± 13.75 (p < 0.0001)] alfa2(V) chain [5.072 ± 0.4117 vs 21.07 ± 0.790 (p = 0.001)] of patients when compared to control. As seen in the immunostaining with colloidal gold chains of COLV, there was no linear expression of the alpha1(V) chain in the papillary dermis, contrasting with the same expression on the skin of controls, in contrast to strong immunoexpression of alpha1(V) and alpha2(V) chains, with a higher evidence of alpha2(V) chain in the junction region by a thickened basement membrane and reticular dermis. The 3D reconstruction of dermal fibroblasts in culture demonstrated large cell activity of patients with SSc, confirmed the gene expression of COL5A1, COL5A2 and ITGA2, which showed significantly increased in patients compared to control. Finally, after inhibition of COL5A2 there was a trend to increase in the expression of the COL5A1, and overexpression of ITGA2. Conclusion: The dermal alteration observed in SSc patients is correlated with the change in the distribution of the collagen alpha (V) chains, mainly by marked loss of alpha1(V)3 homotrimer the papillary dermis and overexpression of the alpha2(V) in capillaries and vessels, interfering with the normal extracellular matrix formation, suggesting a post-translational modification of this protein, and further studies on the inhibition of chain alpha2(V) are important for future gene therapy to attenuate the symptoms of this pathology triggered

Colágeno tipo V

Colágeno/biossíntese

Colágeno/ultraestrutura

Collagen/biosynthesis

Collagen/ultrastructure

Esclerodermia

Fibrose

Fibrosis

Pele/ultraestrutura

Scleroderma

Skin/ultrastructure

Type V collagen

Análise ultraestrutural e implicação do RNA de interferência na fibrilogênese do colágeno V em pacientes com esclerodermia / Ultrastructural analysis and implication of RNA interference in collagen V fibrillogenesis in patients with scleroderma

Jymenez de Morais

25 November 2014

Introdução: Recentemente muitas são as funções atribuídas ao colágeno V em condições fisiológicas normais e em algumas doenças, como na esclerodermia. Esta proteína apresenta características estruturais singulares de regulação do diâmetro das fibrilas heterotípicas, e imunogenicidade, sendo capaz de desencadear uma resposta imune independente. Em descobertas recentes, desenvolvidas por nosso grupo, ficou evidenciado que o colágeno V apresenta histoarquitetura anômala, aumentando a sua imunoexpressão na pele e pulmão em estágios iniciais da doença, assim como, aumento do RNAm de suas cadeias, principalmente alfa2(V). Por esta razão e com o intuito de entender sobre os processos moleculares e ultraestruturais que correlacionam o COL V à fibrose na ES, a proposta do presente estudo foi realizar análise morfológica e ultraestrutural das cadeias, alfa1(V) e alfa2(V), da pele de pacientes com ES, assim como avaliar a influência do gene COL5A2 na fibrilogênese. Pacientes e Métodos: As análises foram desenvolvidas utilizando fragmento de pele obtidas de biópsia, tanto de pacientes como controles, sob aprovação do comitê de ética (CAPPesq 0331/10) e de acordo com Declaração de Helsinque. Participaram do estudo 7 pacientes (homens=3, mulheres=4) diagnosticados com ES há dois anos ou menos, e indivíduos voluntários saudáveis (n=7) utilizados como grupo controle. A biópsia das peles foi dividida para dois grupos de análises: estudos histológicos e cultura de fibroblastos; sob solução de formol a 10%, foram realizadas análises histomorfométricas [coloração de Hematoxilina e Eosina (H e E), Tricrômico de Masson, imunofluorescência (IM) para cadeias alfa1(V) e alfa2(V), e reconstrução tridimensional (Zeiss LSM 510 META/UV)], e em solução de glutaraldeído 2% para análise ultraestrutural (microscopia eletrônica de transmissão com imunomarcação com ouro coloidal). A quantificação das cadeias foi realizada por histomorfometria, através de análise de imagem utilizando o software Image Pro-Plus 6.0. Já a cultura de fibroblastos foi desenvolvida para avaliar: distribuição e perfil das cadeias alfa1(V) e alfa2(V) [reconstrução 3D (Zeiss LSM 510 META/UV)],expressão gênica COL5A1, COL5A2 e ITGA2 [qRT-PCR (Applied Biosystems)], e inibição temporária do gene COL5A2. Resultados: Na análise morfológica (H&E e Masson) observou-se modificação da histoarquitetura da pele dos pacientes, com espessamento e retificação da epiderme devido ao aumento na densidade das fibras colágenas, com projeções das papilas dérmicas em direção à derme papilar. Esse resultado foi confirmado na quantificação das cadeias (IM), evidenciado por perda acentuada da cadeia alfa1(V) na derme papilar [12,77 ± 1,344 vs 66,84± 3,36 (p < 0,0001)] e aumento significante da expressão da cadeias alfa1(V) e alfa2(V) na derme reticular alfa1(V) [7,657 ± 0,2133 vs 13,75 ± 0,958 ( p < 0,0001)] e alfa2(V) [5,072 ± 0,4117 vs 21,07 ± 0,790 (p=0,001)] dos pacientes quando comparados ao controle. Assim como visto na imunomarcação com ouro coloidal das cadeias do COLV, houve ausência de expressão linear da cadeia alfa1(V) na derme papilar, contrastando com a expressão da mesma na pele de controles, se contrapondo a forte imunoexpressão das cadeias alfa1(V) e alfa2(V) com uma maior evidência da cadeia alfa2(V) na região espessada pela junção lâmina basal e derme reticular. A reconstrução 3D em cultura de fibroblastos dérmicos demonstrou grande atividade das células de pacientes com ES, confirmado na expressão gênica dos COL5A1, COL5A2 e ITGA2, que se mostraram aumentados significantemente nos pacientes em relação ao controle. Por fim, após inibição do COL5A2 houve uma tendência ao aumento na expressão do COL5A1, e superexpressão da ITGA2. Conclusão: A alteração dérmica observada em pacientes com ES esta correlacionada com a modificação na distribuição das cadeias alfas do COLV, principalmente por perda acentuada da alfa1(V)3 homotrímera na derme papilar e superexpressão da alfa2(V) em capilares e vasos, interferindo na formação de matriz extracelular normal, sugerindo uma alteração pós traducional desta proteína, e que maiores estudos sobre a inibição da cadeia alfa2(V) são importantes para uma futura terapia gênica para atenuar os sintomas desencadeados nesta patologia / Introduction: Recently many functions are attributed to type V collagen in normal physiological conditions and in some diseases, such as scleroderma. This protein presents unique structural features for regulating the diameter of fibrils heterotypic and immunogenicity being capable of eliciting an immune response independent. In recent discoveries, developed by our group, it was evident that collagen V presents anomalous histoarchitecture, increasing the immunoexpression in the skin and lung in the early stages of the disease, as well as increased mRNA of his chains, mainly alpha2(V). For this reason and in order to understand the molecular and ultrastructural processes that correlate COL V fibrosis in SSc, the purpose of this study was to perform morphological and ultrastructural analysis of the chains alpha1(V) and alpha2(V) of the patient´s skin with ES, as well as to assess the influence of the COL5A2 gene in fibrillogenesis. Patients and Methods: The analyses were developed using skin fragment obtained from biopsy, both of patients and controls, under the approval of the ethics committee (CAPPesq 0331/10) and in accordance with the Declaration of Helsinki. The study included 7 patients (male = 3, female = 4) diagnosed with ES for two years or less, and healthy volunteers (n = 7) used as a control group. The biopsy of the skin was divided in two groups of analyzes: histological studies and cultured fibroblasts; Under formaldehyde solution 10%, histomorphometric analysis [staining with hematoxylin and eosin (H e E), Masson\'s trichrome, immunofluorescence (IM) to alpha1(V) and alpha2(V) chains, and three-dimensional reconstruction (Zeiss LSM 510 META were performed/UV), and in a solution of 2% glutaraldehyde for ultrastructural analysis (transmission electron microscopy with immunostaining with colloidal gold). Quantitation was performed by the chain histomorphometry by image analysis using Image Pro-Plus 6.0 software. Already a fibroblast culture was developed to assess: distribution and profile of the alpha1(V) and alpha2(V) chains, 3D reconstruction (Zeiss LSM 510 META / UV), gene expression of COL5A1, COL5A2 and ITGA2 [RT-qPCR (Applied Biosystems)], and temporary inhibition of the COL5A2 gene. Results: In the morphological analysis (H&E and Masson) was observed modification of histoarchitecture patient\'s skin, with thickening and rectification of the epidermis due to increased density of collagen fibers, with projections of dermal papillae toward the papillary dermis. This result was confirmed by quantification of the chains (IM), evidenced by marked loss of the alpha1(V) chain in the papillary dermis [12.77 ± 1.344 vs 66.84 ± 3.36 (p < 0.0001)] and significant increase in the expression of alpha1(V) and alpha2(V) chains, in the reticular dermis alpha1(V) chain [0.2133 ± 7.657 vs 0.958 ± 13.75 (p < 0.0001)] alfa2(V) chain [5.072 ± 0.4117 vs 21.07 ± 0.790 (p = 0.001)] of patients when compared to control. As seen in the immunostaining with colloidal gold chains of COLV, there was no linear expression of the alpha1(V) chain in the papillary dermis, contrasting with the same expression on the skin of controls, in contrast to strong immunoexpression of alpha1(V) and alpha2(V) chains, with a higher evidence of alpha2(V) chain in the junction region by a thickened basement membrane and reticular dermis. The 3D reconstruction of dermal fibroblasts in culture demonstrated large cell activity of patients with SSc, confirmed the gene expression of COL5A1, COL5A2 and ITGA2, which showed significantly increased in patients compared to control. Finally, after inhibition of COL5A2 there was a trend to increase in the expression of the COL5A1, and overexpression of ITGA2. Conclusion: The dermal alteration observed in SSc patients is correlated with the change in the distribution of the collagen alpha (V) chains, mainly by marked loss of alpha1(V)3 homotrimer the papillary dermis and overexpression of the alpha2(V) in capillaries and vessels, interfering with the normal extracellular matrix formation, suggesting a post-translational modification of this protein, and further studies on the inhibition of chain alpha2(V) are important for future gene therapy to attenuate the symptoms of this pathology triggered

Colágeno tipo V

Colágeno/biossíntese

Colágeno/ultraestrutura

Esclerodermia

Fibrose

Pele/ultraestrutura

Collagen/biosynthesis

Collagen/ultrastructure

Fibrosis

Scleroderma

Skin/ultrastructure

Type V collagen

Reconstituted collagen fibres for tissue engineering applications

Zeugolis, D. I.

January 2006

No description available.

600

Collagen-based scaffolds for heart valve tissue engineering

Chen, Qi

January 2013

Tissue engineered heart valve (TEHV) is believed to be a promising candidate for curative heart valve replacements. Collagen, elastin and chondroitin-4-sulfate (C4S) comprise the extra-cellular matrix (ECM) of native heart valves and therefore are suitable materials for TEHV scaffolds. Freeze-drying technique was able to produce scaffolds with relative densities of 0.3%-2.0% and pore sizes of 33.2µm-201.5µm, without having any major effects on the ultra-structures on the scaffold materials. Subsequent dehydrothermal (DHT) treatment and ultra-violet (UV) irradiation introduced inter- or intra-molecular crosslinks in the scaffolds in forms of ester and amide bonds, as well as the accompanying denaturation of the proteins (i.e. ultra-structure transition from helices to random coils). The collagen-based scaffolds had tensile, compressive and effective bending moduli ranging from 39.8kPa to 1082kPa, from 2.4kPa to 213.9kPa, and from 11.0kPa to 415.8kPa, respectively. The different behaviours of the wall stretching and the wall buckling in the individual pores of the scaffolds contributed to the different tensile, compressive and bending moduli. The mechanical properties could be tailored through controlling the freezing temperature, the relative density and the composition of the scaffolds. A lower freezing temperature might lead to lower mechanical properties because different pore structures were introduced. When the the relative density of the scaffold increased, the values of the moduli increased exponentially, with an exponential dependence factor larger for the compressive modulus than for the tensile modulus. Adding elastin or C4S into the collagen scaffolds lowered the mechanical properties due to the decrease in the collagen content. Layered structures that combined collagen-rich layers with elastin-rich and/or C4S -rich layers allowed the scaffolds to make use of the different mechanical properties of different layers, and hence to show anisotropic bending behaviour depending on the loading directions. The lower effective bending modulus (9.6 to 25.0kPa) in the with curvature (WC) direction than that (18.1kPa to 39.3kPa) in the against curvature (AC) direction mimicked the characteristic behaviour of the native heart valves and would be beneficial for a mechanically desirable TEHV. The DHT treatment and UV irradiation were able to increase the mechanical properties of the scaffolds to up to 2.5 times of the original values, by reinforcing the scaffold materials with more crosslinks. In the hydrated status, the hydrophilic C4S improved the water uptake ability of the scaffold and the hydrophobic elastin reduced it. The hydrated layered scaffolds still exhibited bending anisotropy despite much lower effective bending modulus. Finite element models of the scaffolds produced results that were in agreement with the experiments, and enabled us to perform distributed loading and internal stress analysis on the scaffolds. The collagen-based scaffolds were seeded with cardiosphere-derived cells (CDCs), and they attached to the scaffolds and showed visible cell division, proliferation and migration. The CDCs exhibited preferred proliferation behaviours on the collagen-C4S scaffolds to that on the collagen-elastin scaffolds because of the cell affinity to the C4S, as well as the elastin-induced contractile cell phenotype and scaffold volume shrinkage. This difference seemed to be less evident in the layered scaffolds due to the cell communication between the layers. The crosslinking process also had effects on the cell proliferation in the ways that it induced ultra-structure changes or volume shrinkage in the scaffolds. The layered scaffold-cell constructs designed and produced in this study served as a forwarding step towards a mechanically desirable and biologically active TEHV.

610.28

A solid-state NMR approach for probing collagen atomic structure in the extracellular matrix

Chow, Wing Ying

January 2014

No description available.

540

Transcriptional regulators of col10al in chondrocyte differentiation

Leung, Y. L., 梁宇亮.

January 2003

published_or_final_version / Biochemistry / Doctoral / Doctor of Philosophy

Cell differentiation

Collagen.

Genetic transcription - Regulation.

Cartilage cells.

Investigation of expression of extracellular matrix component genes during tendon healing process: an in vivochicken study

Cao, Yi, 曹怡

January 2009

published_or_final_version / Orthopaedics and Traumatology / Master / Master of Philosophy

Extracellular matrix.

Gene expression.

Collagen.

Tendons.

Chickens as laboratory animals.

Development of endometrial fibrosis in the mare : factors involved in tissue remodelling and collagen deposition

Oddsdóttir, Charlotta

January 2008

Age-related degeneration of the equine endometrium is an established and important cause of fertility problems in thoroughbred mares, causing great loss to the industry. As a part of the age-related endometrial degeneration complex, an excessive deposition of collagen leading to endometrial fibrosis is particularly important due to the limitations it causes to uterine function. The consequences include reduced efficacy of uterine defence mechanisms and a decrease in the uterine capacity for foetal nutrition. Extensive research into the process of fibrosis in other organs has shown that this condition results from the malfunction of physiological tissue repair mechanisms. These mechanisms revolve around tissue fibroblasts that due to continuous stimulation secrete excessive amounts of collagen and inhibit the activation of factors essential to the normal collagen degradation occurring in scar resolution. Among these factors are the MMPs, an enzyme family with the ability to degrade extracellular matrix components such as collagen during the normal repair mechanisms following tissue injury. The malfunction in the regulation of these enzymes is important in the development of fibrosis in the liver and other organs. In this study it was demonstrated that MMPs are involved in the acute uterine inflammatory response and that they were secreted by infiltrating inflammatory cells. The cellular mechanisms observed during endometritis in normal mares were comparable to the normal repair mechanisms known to be altered in the fibrosis of other organs. These enzymes were present in equine foetal fluids, and their regulation may be important in the process of abortion and stillbirth. It was demonstrated that inbreeding may be correlated with increased deposition of endometrial collagen in a study population of the Icelandic horse breed even though this breed appears to exhibit less severe endometrial degeneration than what is known in lighter breeds. It is likely that genetic predisposition leads to the disruption of normally self-limiting inflammatory and repair mechanisms in the endometrium, resulting in constant activation of collagen synthesis by local and infiltrating cells. This thesis has shown that tissue repair mechanisms involving MMPs are likely to be involved in endometrial fibrosis in the mare. An inherent alteration in these mechanisms may play a role in the pathogenesis of this condition, and might arise due to genetic predisposition. Further understanding of the pathways leading to excess collagen amounts in the endometrium may produce preventative measures, and even therapeutic targets.

636.089

The role of anti-collagen type II antibodies in the pathogenesis and prognosis of rheumatoid arthritis

Manivel, Vivek Anand

January 2017

Rheumatoid arthritis (RA) which affects 0.5-1% of the world population and is characterised by joint erosions and presence of the autoantibodies anti-citrullinated protein antibodies (ACPA) and rheumatoid factor. Collagen II (CII) is a joint-specific antigen and we have shown that antibodies against CII (anti-CII) are present in around 8% of RA patients. RA patients with anti-CII are characterized by acute RA onset with elevated CRP and early joint erosions at the time of RA onset. Polymorphonuclear granulocytes (PMN) and peripheral blood mononuclear cells (PBMC) are abundant in RA synovial fluids, where they can interact with anti-CII, thus forming immune complexes (IC) with CII. In my thesis I have shown that PMN upregulated the cell surface markers CD66b and CD11b and downregulated CD16 and CD32 after stimulation with anti-CII IC. These changes in CD66b and CD16 associated to joint erosions to a larger extent than did PBMC responses to anti-CII IC. PMN cocultured with PBMC and stimulated with anti-CII IC showed augmented chemokine production that was dependent on TLR4 and functionally active PMN enzymes. This mechanism can lead to accumulation of inflammatory cells in joints of RA patients who are anti-CII positive around the time of RA diagnosis, and may thus help explain the acute onset RA phenotype associated with anti-CII. In a large Swedish RA cohort, anti-CII associated with elevations in clinical and laboratory measures of disease activity at diagnosis and until 6 months, whereas ACPA associated with late inflammation. Anti-CII seropositive RA was associated with improvements in clinical measurements and was negatively associated with smoking in contrast to ACPA that was associated with worseneing of clinical symptoms and associated positively with smoking. Anti-CII levels associated to  HLADRB1*03 and  HLADRB1*01 whereas ACPA showed negative association to HLA-DRB1*03. In a Malaysian RA cohort anti-CII also associated to elevated CRP at the time of diagnosis. Anti-CII seropositive RA represents a distinct phenotype, in many respects representing the converse  to the clinical, genetic and smoking associations described for ACPA. Early determinations of anti-CII in parallel to ACPA predict the inflammatory outcome in RA.

Optimization of a Tri-layered Vascular Graft: The Influence of Cellular and Mechanical Properties

McClure, Michael

16 June 2011

Electrospinning is a polymer processing technique which allows for the production of nano to micro size fibers and scaffolds which can be composed of numerous synthetic biodegradable materials and natural biopolymers. Natively, elastin and collagen are the main components of vascular tissue. Arranged in a tri-layered structure, they create a specific mechanical environment that can withstand the rigors of circulation. The goal of this study was to develop a mechanically ‘biomimicking’ vascular graft composed of three distinct layers through the process of electrospinning. We hypothesize that the use of bioactive agents such as elastin, collagen, and silk to supplement poly(caprolactone) at specified ratios for each layer would provide a finely tuned vascular replacement. This was accomplished by establishing cross-linking parameters for the biopolymer materials and then assessing the mechanical properties of individual materials and eventually a whole tri-layered graft. Additionally, while mechanical testing can lead to a good graft, a replacement graft requires excellent cellular properties as well to promote cell infiltration, proliferation, and migration. Therefore, the conclusion of this study examines the integrin binding characteristics of the electrospun biopolymers. First, the results from the preliminary cross-linking study examined the dissipation of soluble elastin when uncross-linked v. cross-linked. It was determined through this initial study that synthetic scaffolds blended with soluble proteins such as elastin require a fixation in order to retain their protein mass within the scaffold. Retaining this mass, incrementally changed the material properties of the blended scaffolds. This initial study was then carried further to establish optimal cross-linking parameters using two different types of reagents: carbodiimide and genipin. It was found that lower cross-linking molarities produced excellent results based on assays performed to assess cross-linking percentages and rate of reaction. Some differences in mechanical properties were seen, but they did not constitute a choice of one cross-linker over the other. The next portion of this study aimed to design a tri-layered graft. This was performed with the aid of mathematical analysis to observe circumferential wall stresses based on simple tensile properties. A series of tri-layered grafts were electrospun using poly(caprolactone), elastin, and collagen. The medial layers of these grafts were changed while the intima and adventitia remained constant. Differences were demonstrated as the elastin content of the medial layer decreased, proving that each layer had an affect on the overall graft properties and that it was possible to tune graft mechanics. A larger tri-layered study looked to evaluate changes in the adventitial and medial layers while keeping the intimal layer constant using poly(caprolactone), elastin, collagen, and silk fibroin. In this study, differences were exhibited under compliance and burst strength testing, narrowing the scope of material choices. Results from a 4 week degradation study with the best tri-layered grafts revealed no evidence of degradation, but did generate some positive compliance results for two of the grafts. Finally, integrin binding and protein analysis portrayed results that were indicative of the existence of ligand binding sites for collagen scaffolds and the possibility of a small amount of ligand sites on silk. Elastin, however, displayed low to non-existent adhesion. These studies produced results that allowed us to continuously narrow the scope of materials as the experiment progressed towards an optimized tri-layered vascular graft.

Vascular graft

polycaprolactone

collagen

elastin

Engineering