TRPV4 Mechanotransduction in Vascular Growth and Integrity

Cappelli, Holly

19 April 2017

No description available.

Biology

Biomedical Research

Physiology

TRPV4

mechanosensitive ion channel

angiogenesis

vascular integrity

endothelial cells

retina

retinal angiogenesis

tumor angiogenesis

oxygen-induced retinopathy

O transcritoma da retinopatia induzida por oxigênio e uma assinatura gênica prognóstica baseada em angiogênese para predição de recidiva de cancer de mama / The transcriptome of oxygen-induced retinopathy and an angiogenesis-based prognostic gene signature for prediction of breast cancer relapse

Sousa, Rodrigo Guarischi Mattos Amaral de

02 June 2017

Angiogênese é o processo de formação de novos vasos sanguíneos a partir dos vasos existentes. É um processo vital, mas muitas doenças também dependem deste mecanismo para obter nutrientes e progredir. Estas \"doenças dependentes de angiogênese\" incluem cânceres, retinopatias e degeneração macular. Alguns inibidores da angiogênese foram desenvolvidos na última década, com o objetivo de auxiliar no manejo dessas doenças e melhorar a qualidade de vida dos pacientes. A maioria destes compostos funciona inibindo a ligação de VEGFA/VEGFR2, que também é um elemento importante para a sobrevivência de células endoteliais quiescentes; e isso pode explicar parcialmente eventos adversos observados em alguns ensaios clínicos. Nossa hipótese é que a melhoria das terapias anti-angiogênicas depende de uma compreensão melhor e mais ampla desse processo, especialmente quando relacionada à progressão das doenças. Utilizando RNA-Seq e um modelo animal bem aceito de angiogênese, o modelo murino de Retinopatia Induzida por Oxigênio, exploramos o transcritoma e identificamos 153 genes diferencialmente expressos durante a angiogênese. Uma extensiva validação de vários genes realizada por qRT-PCR e hibridização in-situ confirmou a superexpressão de Esm1 em células endoteliais de tecidos com angiogênese ativa. A análise de enriquecimento desta lista de genes confirmou a ligação da angiogênese com genes frequentemente mutados em tumores, consistente com a conhecida ligação entre câncer e angiogênese, e forneceu sugestões de fármacos já aprovados que podem ser reutilizados para controlar a angiogênese em circunstâncias patológicas. Finalmente, com base neste panorama amplo da angiogênese, fomos capazes de criar um biomarcador molecular com poder prognóstico para a predição da recidiva de câncer de mama, com aplicações clínicas promissoras. Em resumo, este trabalho revelou com sucesso genes relacionados à angiogênese e forneceu novas alternativas terapêuticas, incluindo potenciais fármacos para reposicionamento. Esse conjunto de genes diferencialmente expressos é também um recurso valioso para investigações futuras. / Angiogenesis is the process of formation of new blood vessels based on existing vessels. It is a vital process but many diseases also rely on this mechanism to get nourishment and progress. These so called angiogenesis-dependent diseases include cancers, retinopathies and macular degeneration. Some angiogenesis inhibitors were developed in the past decade, aiming to help the management of such diseases and improve patients quality of life. Most of these compounds work by inhibiting VEGFA/VEGFR2 binding, which is also a key element to the survival of quiescent endothelial cells; this may partly explain unanticipated adverse events observed in some clinical trials. We hypothesize that the improvement of anti-angiogenesis therapies hinges on a better and broader understanding of the process, especially when related to diseases\' progression. Using RNA-seq and a well accepted animal model of angiogenesis, the murine model of Oxygen Induced Retinopathy, we have explored the transcriptome landscape and identified 153 genes differentially expressed in angiogenesis. An extensive validation of several genes carried out by qRT-PCR and in-situ hybridization confirmed Esm1 overexpression in endothelial cells of tissues with active angiogenesis, providing confidence on the results obtained. Enrichment analysis of this gene list endorsed a narrow link of angiogenesis and frequently mutated genes in tumours, consistent with the known connection between cancer and angiogenesis, and provided suggestions of already approved drugs that may be repurposed to control angiogenesis under pathological circumstances. Finally, based on this comprehensive landscape of angiogenesis, we were able to create a prognostic molecular biomarker for prediction of breast cancer relapse, with promising clinical applications. In summary, this work successfully unveiled angiogenesis-related genes, providing novel therapeutic alternatives, including potential drugs for repositioning. The set of differentially expressed genes is also a valuable resource for further investigations.

Angiogênese

Angiogenesis

Assinatura gênica

Biomarcador molecular

Breast cancer relapse

Gene signature

Molecular biomarker

Oxygen-Induced retinopathy

Recidiva de câncer de mama

Retinopatia Induzida por oxigênio

RNA-Seq

RNA-Seq

Transcriptomics

Transcritoma

O transcritoma da retinopatia induzida por oxigênio e uma assinatura gênica prognóstica baseada em angiogênese para predição de recidiva de cancer de mama / The transcriptome of oxygen-induced retinopathy and an angiogenesis-based prognostic gene signature for prediction of breast cancer relapse

Rodrigo Guarischi Mattos Amaral de Sousa

02 June 2017

Angiogênese é o processo de formação de novos vasos sanguíneos a partir dos vasos existentes. É um processo vital, mas muitas doenças também dependem deste mecanismo para obter nutrientes e progredir. Estas \"doenças dependentes de angiogênese\" incluem cânceres, retinopatias e degeneração macular. Alguns inibidores da angiogênese foram desenvolvidos na última década, com o objetivo de auxiliar no manejo dessas doenças e melhorar a qualidade de vida dos pacientes. A maioria destes compostos funciona inibindo a ligação de VEGFA/VEGFR2, que também é um elemento importante para a sobrevivência de células endoteliais quiescentes; e isso pode explicar parcialmente eventos adversos observados em alguns ensaios clínicos. Nossa hipótese é que a melhoria das terapias anti-angiogênicas depende de uma compreensão melhor e mais ampla desse processo, especialmente quando relacionada à progressão das doenças. Utilizando RNA-Seq e um modelo animal bem aceito de angiogênese, o modelo murino de Retinopatia Induzida por Oxigênio, exploramos o transcritoma e identificamos 153 genes diferencialmente expressos durante a angiogênese. Uma extensiva validação de vários genes realizada por qRT-PCR e hibridização in-situ confirmou a superexpressão de Esm1 em células endoteliais de tecidos com angiogênese ativa. A análise de enriquecimento desta lista de genes confirmou a ligação da angiogênese com genes frequentemente mutados em tumores, consistente com a conhecida ligação entre câncer e angiogênese, e forneceu sugestões de fármacos já aprovados que podem ser reutilizados para controlar a angiogênese em circunstâncias patológicas. Finalmente, com base neste panorama amplo da angiogênese, fomos capazes de criar um biomarcador molecular com poder prognóstico para a predição da recidiva de câncer de mama, com aplicações clínicas promissoras. Em resumo, este trabalho revelou com sucesso genes relacionados à angiogênese e forneceu novas alternativas terapêuticas, incluindo potenciais fármacos para reposicionamento. Esse conjunto de genes diferencialmente expressos é também um recurso valioso para investigações futuras. / Angiogenesis is the process of formation of new blood vessels based on existing vessels. It is a vital process but many diseases also rely on this mechanism to get nourishment and progress. These so called angiogenesis-dependent diseases include cancers, retinopathies and macular degeneration. Some angiogenesis inhibitors were developed in the past decade, aiming to help the management of such diseases and improve patients quality of life. Most of these compounds work by inhibiting VEGFA/VEGFR2 binding, which is also a key element to the survival of quiescent endothelial cells; this may partly explain unanticipated adverse events observed in some clinical trials. We hypothesize that the improvement of anti-angiogenesis therapies hinges on a better and broader understanding of the process, especially when related to diseases\' progression. Using RNA-seq and a well accepted animal model of angiogenesis, the murine model of Oxygen Induced Retinopathy, we have explored the transcriptome landscape and identified 153 genes differentially expressed in angiogenesis. An extensive validation of several genes carried out by qRT-PCR and in-situ hybridization confirmed Esm1 overexpression in endothelial cells of tissues with active angiogenesis, providing confidence on the results obtained. Enrichment analysis of this gene list endorsed a narrow link of angiogenesis and frequently mutated genes in tumours, consistent with the known connection between cancer and angiogenesis, and provided suggestions of already approved drugs that may be repurposed to control angiogenesis under pathological circumstances. Finally, based on this comprehensive landscape of angiogenesis, we were able to create a prognostic molecular biomarker for prediction of breast cancer relapse, with promising clinical applications. In summary, this work successfully unveiled angiogenesis-related genes, providing novel therapeutic alternatives, including potential drugs for repositioning. The set of differentially expressed genes is also a valuable resource for further investigations.

Angiogênese

Assinatura gênica

Biomarcador molecular

Recidiva de câncer de mama

Retinopatia Induzida por oxigênio

RNA-Seq

Transcritoma

Angiogenesis

Breast cancer relapse

Gene signature

Molecular biomarker

Oxygen-Induced retinopathy

RNA-Seq

Transcriptomics

Impact de Nogo-A sur les propriétés vasculogéniques des cellules endothéliales progénitrices lors de la rétinopathie induite par l’oxygène

Ruknudin, Pakiza

09 1900

La dégénérescence vasculaire et l’incapacité l’organisme à produire des vaisseaux sanguins de façon adéquate lors d’une condition ischémique est un fait saillant des rétinopathies ischémiques telles que la rétinopathie du prématuré (ROP). La ROP demeure la principale cause de défaillance visuelle et dans les cas extrêmes, de cécité chez les nourrissons prématurés. Elle présente deux phases distinctes soit une phase initiale clef de vasooblitération (VO) rétinienne et choroïdale qui entraînent la deuxième phase de néovascularisation (NV) rétinienne désorganisée et excessive. Au cours du développement normal, la NV oculaire a recours au phénomène d’angiogenèse qui consiste en la formation de nouveaux capillaires à partir de vaisseaux préexistants et de vasculogenèse qui consiste en la formation de nouveaux capillaires à partir de cellules endothéliales progénitrices dérivées de la moelle osseuse (BM-EPCs). Cette vasculogenèse implique la mobilisation des EPCs de la moelle osseuse vers la circulation afin d’être recrutées au site de NV pour contribuer de façon directe, soit en intégrant directement les structures vasculaires pour former des néovaisseaux, ou bien de façon indirecte par leur activité paracrine en libérant différents facteurs de croissance vasculaires. Toutefois, les mécanismes moléculaires impliqués dans la dysfonction des EPCs lors de la ROP sont encore mal compris. Au cours de mon mémoire, mes travaux ont ciblé la première phase de VO rétinienne afin de promouvoir la revascularisation par une thérapie basée sur une supplémentation d’EPCs natives ou reprogrammées. Compte tenu du rôle capital des EPCs dans la NV, mon mémoire s’est d’abord intéressé au rôle de Nogo-A (une protéine de la famille de réticulon), connue pour son action anti-angiogénique, sur l'activité fonctionnelle des EPCs en condition de ROP. Pour ce faire, nous avons utilisé un modèle de rétinopathie induite par l’oxygène (OIR) simulant la ROP. L’objectif global de ce projet consiste à évaluer l’interrelation entre l’effet de l’hyperoxie (une condition clef de la ROP) sur la voie de signalisation Nogo-A et de son récepteur NgR1 sur la fonction des EPCs. Premièrement, les résultats obtenus montrent une augmentation de l’expression de Nogo-A et NgR1 chez les BM-EPCs soumis ex vivo à l’hyperoxie, mais aussi dans les EPCs extraites des rats OIR. En addition, l’augmentation de l’expression de Nogo-A/NgR1 par l’hyperoxie corrèle avec la dysfonction angiogénique des EPCs caractérisées par une diminution de leurs capacités de migration et de tubulogenèse. De façon intéressante, l’inhibition de Nogo-A (par un peptide neutralisant) améliore la capacité migratoire et tubulogénique des EPCs, et protège leur fonction contre l’hyperoxie. Également, l’inhibition de Nogo-A induit l’expression du facteur angiogénique et mobilisateur d’EPCs, SDF-1, suggérant que NgR1 régule négativement l’expression de SDF-1. Par ailleurs, nous avions également pour objectif final d’évaluer l’efficacité protectrice d’une supplémentation d’EPCs natives ou reprogrammées (Nogo-/-) pour améliorer la revascularisation rétinienne dans un modèle de rat OIR. Les résultats montrent qu’une supplémentation intrapéritonéale d’EPCs natives diminue significativement la VO rétinienne, mais que cet effet pro-angiogénique devient plus prononcé par le traitement d’EPCs préconditionnées (reprogrammées par l’inhibition de Nogo-A) chez les rats OIR. Collectivement, nos résultats démontrent que : 1) l’hyperoxie cause une dysfonction angiogénique des BM-EPCs en induisant Nogo-A ce qui contribue à la VO rétinienne chez les rats OIR, et que 2) une supplémentation d’EPCs conditionnées (reprogrammées par l’inhibition de Nogo-A) est plus efficace qu’une supplémentation d’EPCs natives pour améliorer la réparation vasculaire rétinienne. Pour conclure, nous mettons donc en évidence une cible potentielle qui est la protéine Nogo-A afin de préserver l’activité biologique des EPCs et ultimement, l’intégrité vasculaire chez les rats OIR. / Vascular degeneration and the inability of the body to produce adequate blood vessels during an ischemic condition is a salient feature of ischemic retinopathies such as retinopathy of prematurity (ROP). ROP remains the leading cause of visual impairment and in extreme cases, blindness in premature infants. It presents two distinct phases: a key initial phase of retinal and choroidal vasoobliteration (VO) which leads to the second phase of disorganized and excessive retinal neovascularization (NV). During normal development, ocular NV uses the phenomenon of angiogenesis which consists of the formation of new capillaries from pre-existing vessels and vasculogenesis which consists of the formation of new capillaries from progenitor endothelial cells derived from the marrow bone (BM-EPCs). This vasculogenesis involves the mobilization of EPCs from the bone marrow to the circulation in order to be recruited at the NV site to contribute directly, either by directly integrating the vascular structures to form new vessels, or indirectly by their paracrine activity by releasing different vascular growth factors. However, the molecular mechanisms involved in the dysfunction of EPCs during ROP are still poorly understood. During my thesis, my work targeted the first phase of retinal VO in order to promote revascularization by therapy based on supplementation of native or reprogrammed EPCs. Given the capital role of EPCs in NV, my thesis was first interested in the role of Nogo-A (a protein of the reticulon family), known for its anti-angiogenic action, on the functional activity of EPCs in ROP condition. To do this, we used an oxygen-induced retinopathy (OIR) model simulating ROP. The overall objective of this project is to assess the interrelationship between the effect of hyperoxia (a key condition of ROP) on the Nogo-A signaling pathway and its NgR1 receptor on the function of EPCs. First, the results obtained show an increase in the expression of Nogo-A and NgR1 in BM-EPCs subjected to hyperoxia ex vivo, but also in EPCs extracted from OIR rats. In addition, the increase in the expression of Nogo-A / NgR1 by hyperoxia correlates with the angiogenic dysfunction of EPCs characterized by a decrease in their capacity for migration and tubulogenesis. Interestingly, inhibition of Nogo-A (by a neutralizing peptide) improves the migratory and tubulogenic capacity of EPCs, and protects their function against hyperoxia. Also, inhibition of Nogo-A induces expression of the angiogenic and mobilizing factor of EPCs, SDF-1, suggesting that NgR1 negatively regulates the expression of SDF-1. In addition, our final objective was also to evaluate the protective efficacy of supplementation of native or reprogrammed EPCs (Nogo - / -) to improve retinal revascularization in an OIR rat model. The results show that intraperitoneal supplementation of native EPCs significantly decreases retinal VO, but that this pro-angiogenic effect becomes more pronounced by treatment of preconditioned EPCs (reprogrammed by inhibition of Nogo-A) in OIR rats. Collectively, our results demonstrate that: 1) hyperoxia causes angiogenic dysfunction of BM-EPCs by inducing Nogo-A which contributes to retinal VO in OIR rats, and that 2) supplementation of conditioned (reprogrammed by inhibition of Nogo-A) is more effective than supplementation of native EPCs in improving retinal vascular repairs. To conclude, we therefore highlight a potential target which is the Nogo-A protein in order to preserve the biological activity of EPCs and ultimately, vascular integrity in OIR rats.

Angiogenèse

Revascularisation

Nogo-A

NgR1

Endothelial progenitor cell (EPC)

Angiogenesis

Revascularization

Oxygen-induced retinopathy (OIR)

L'impact des cellules souches issues de la moelle sur la néovascularisation dans un modèle de souris de rétinopathie induite par l'oxygène

Blais, Martine

08 1900

La rétinopathie induite par l’oxygène (RIO) est un modèle animal semblable aux rétinopathies vue chez l’homme. Dans ce modèle, une destruction des microvaisseaux rétiniens est suivie d’une néovascularisation pathologique qui chez l’homme peut mener à un détachement de la rétine et subséquemment une perte de vision. Afin de remédier à cette revascularisation anarchique, un traitement de cellules souches (hématopoïétiques et mésenchymateuses) a été effectué chez des souris soumises à ce modèle. Les cellules injectées ont pu migrer à la rétine et induire une revascularisation saine (surtout les cellules souches mésenchymateuses). L’injection du milieu de culture de ces cellules induit aussi une revascularisation semblable à celle vue chez les souris traitées avec les cellules indiquant que l’effet thérapeutique des cellules semble être accompli par l’entremise de facteurs paracrines. Ces résultats suggèrent que ces cellules peuvent jouer un rôle au niveau de l’angiogénèse et indiquent un potentiel thérapeutique pour les rétinopathies. / Oxygen induced retinopathy (OIR) is an animal model that mimics the developing phases of retinopathies seen in humans such as diabetic retinopathy and retinopathy of prematurity. An initial destruction of retinal microvasculature is followed by pathological neovascularization that can lead to retinal detachment in humans and therefore blindness. Utilizing bone marrow derived stem cells (mesenchymal and hematopoietic), we aimed to repopulate the retina with normal vessels which are affected in the OIR model. Cells injected into the vitreous migrated to the retina and reduced both the area of vasoobliteration and neovascularization. Injection of conditioned cell medium also induced proper vascular repair similar to that seen in mice injected with cells indicating that the cells therapeutic effect is achieved through paracrine action. These results suggest that bone marrow stem cells play a role in angiogenesis and could be a potential therapeutic aid in treating retinopathies.

Cellules souches

Cellules mésenchymateuses

Cellules souches hématopoïétiques

Néovascularisation

Rétinopathie du prématuré

Angiogénèse

Inflammation

Ischémie

Rétinopathie induite par l'oxygène

Stem cells

Mesechymal stem cells

Hematopoietic stem cells

Neovascularisation

Retinopathy of prematurity

Angiogenesis

Ischemia

Oxygen induced retinopathy

L'impact des cellules souches issues de la moelle sur la néovascularisation dans un modèle de souris de rétinopathie induite par l'oxygène

Blais, Martine

08 1900

La rétinopathie induite par l’oxygène (RIO) est un modèle animal semblable aux rétinopathies vue chez l’homme. Dans ce modèle, une destruction des microvaisseaux rétiniens est suivie d’une néovascularisation pathologique qui chez l’homme peut mener à un détachement de la rétine et subséquemment une perte de vision. Afin de remédier à cette revascularisation anarchique, un traitement de cellules souches (hématopoïétiques et mésenchymateuses) a été effectué chez des souris soumises à ce modèle. Les cellules injectées ont pu migrer à la rétine et induire une revascularisation saine (surtout les cellules souches mésenchymateuses). L’injection du milieu de culture de ces cellules induit aussi une revascularisation semblable à celle vue chez les souris traitées avec les cellules indiquant que l’effet thérapeutique des cellules semble être accompli par l’entremise de facteurs paracrines. Ces résultats suggèrent que ces cellules peuvent jouer un rôle au niveau de l’angiogénèse et indiquent un potentiel thérapeutique pour les rétinopathies. / Oxygen induced retinopathy (OIR) is an animal model that mimics the developing phases of retinopathies seen in humans such as diabetic retinopathy and retinopathy of prematurity. An initial destruction of retinal microvasculature is followed by pathological neovascularization that can lead to retinal detachment in humans and therefore blindness. Utilizing bone marrow derived stem cells (mesenchymal and hematopoietic), we aimed to repopulate the retina with normal vessels which are affected in the OIR model. Cells injected into the vitreous migrated to the retina and reduced both the area of vasoobliteration and neovascularization. Injection of conditioned cell medium also induced proper vascular repair similar to that seen in mice injected with cells indicating that the cells therapeutic effect is achieved through paracrine action. These results suggest that bone marrow stem cells play a role in angiogenesis and could be a potential therapeutic aid in treating retinopathies.

Cellules souches

Cellules mésenchymateuses

Cellules souches hématopoïétiques

Néovascularisation

Rétinopathie du prématuré

Angiogénèse

Inflammation

Ischémie

Rétinopathie induite par l'oxygène

Stem cells

Mesechymal stem cells

Hematopoietic stem cells

Neovascularisation

Retinopathy of prematurity

Angiogenesis

Ischemia

Oxygen induced retinopathy