Avaliação da transferência gênica por vetor viral na glândula lacrimal e resposta na neovascularização corneana / Evaluation of gene transfer by viral vector in the lacrimal gland and response to corneal neovascularization

Nominato, Luís Fernando Resende da Silva

27 October 2017

Objetivos: Os objetivos deste estudo foram: 1) determinar a eficácia da transferência gênica do vetor de adenovírus sorotipo 5, carreando o gene do receptor do fator de crescimento endotelial vascular (VEGF) solúvel humano (sVEGFR1) para a glândula lacrimal (GL); 2) investigar se a expressão de sVEGFR1 interfere na neovascularização da córnea (NVC), induzida por queimadura alcalina; 3) avaliar a segurança do procedimento. Métodos: Trinta e dois ratos Wistar foram submetidos à queimadura central da córnea direita com solução de hidróxido de sódio (NaOH) 1 M. Os animais foram divididos em três grupos e injetados diretamente em sua GL direita 25 ?l de vetores virais AdVEGFR1 (1x1010 pfu) (12 animais), 25 ?l do vetor AdNull (1x1010pfu) (10 animais), ou 25 ?l de solução salina (Controle). Após sete dias, a NVC foi observada e fotografada na lâmpada de fenda. A secreção lacrimal foi medida com fenol. A presença do sVEGFR1 na GL foi testada por qPCR (quantitative polymerase chain reaction) e a coloração, por imunofluorescência. O qPCR foi também utilizado para comparar o RNA mensageiro (RNAm) de ilterleucina-1beta (IL-1?), ilterleucina-6 (IL-6) e fator de necrose tumoral alfa (TNF-?) na GL e no gânglio do trigêmeo (GT). Resultados: O vetor AdVEGFR1 transfectou 83% dos ratos. O sVEGFR1 estava presente nas células acinares da GL. A NVC foi prevenida em nove de doze animais do grupo AdVEGFR1, em comparação com o grupo Ad-Null (3:10) e o grupo Controle (1:10) (p=0,0317). A secreção lacrimal e o RNAm das citocinas na GL e no GT foram semelhantes nos três grupos (p>0,05). Conclusões: A transferência gênica do vetor adenoviral para a GL demonstrou expressão local do sVEGFR1 humano, e evitou a NVC na maioria dos olhos expostos a queimaduras alcalinas, se mostrando seguro para a estrutura e função da GL. / Purpose: The aims of this study were: 1) to determine the efficacy of adenovirus vector serotype 5 (Ad) encoding human soluble VEGF receptor 1 (sVEGFR1) gene transfer to the lacrimal gland (LG); 2) to investigate whether expression of sVEGFR1 acts in corneal neovascularization (CNV), induced by alkali burn and; 3) to evaluate the safety of the procedure. Methods: AdVEGFR1viral vectors (25 ?l, 1x1010pfu) were injected in the right LG of rats and compared with AdNull vector (25 ?l, 1x1010pfu) or 25?l saline (Control) before cornea alkali burn with 1 M NaOH. After seven days, CNV was observed and photographed in the slit lamp. Tear secretion was measured with phenol red thread. The animals were tested for human VEGFR1 mRNA and protein in the LG by qPCR and immunofluorescence staining, respectively. qPCR was also used to compare the mRNA of IL-1?, IL-6, and TNF-? in LG and ipsilateral trigeminal ganglion (TG). Results: Ad-VEGFR1 transfected 83% of the rats. VEGFR1 was present in LG acinar cells. CNV was prevented in 9 of 12 animals of Ad-VEGFR1 group, compared to Ad-Null (3:10) and Control (1:10) (p=0.0317). The tear secretion and the cytokines mRNA in LG and TG were similar all three groups (p>0.05). Conclusion: Adenoviral vector gene transfer to LG as the has shown local expression of human sVEGFR1, as It prevented CNV in most of the eyes exposed to alkali burn and was safe for LG structure and function.

Adenovirus

Adenovírus

Corneal neovascularization

Gene transfer

Glândula Lacrimal

Lacrimal gland

Neovascularização corneana

sVEGFR1

sVEGFR1

Terapia gênica

VEGF

VEGF

Le sVEGFR1 : quel rôle dans la réponse aux thérapies antiangiogéniques dans les carcinomes pulmonaires squameux ? / A splice variant of VEGFR1, sVEGFR1-i13, exhibits dual functions during progression and response to anti-angiogenic therapies of squamous cell lungcarcinoma

Abou faycal, Chérine

16 December 2016

Le VEGF-A joue un rôle clé au cours de l’angiogenèse physiologique mais aussi de la néo-vascularisation tumorale essentielle à la croissance des tumeurs malignes. Le VEGF-A et ses récepteurs (VEGFR1/2) représentent une cible de première importance pour le développement de thérapies anti-tumorales, et un certain nombre de médicaments anti-angiogéniques (AAG) inhibant le VEGF-A ou ses récepteurs sont actuellement utilisés en clinique dans le traitement des carcinomes pulmonaires. Parmi les thérapies anti-angiogéniques ciblant le VEGF-A, on peut lister soit l’anticorps monoclonal anti-VEGF Bevacizumab (BVZ) ou bien les inhibiteurs pharmacologiques du domaine tyrosine kinase des VEGFR: les VEGFR-TKI. Seuls les patients porteurs d’adénocarcinomes pulmonaires peuvent bénéficier de thérapies AAG, les patients porteurs de carcinomes squameux présentant de sévères complications (hémorragies pulmonaires). Le sVEGFR1, est un variant tronqué du VEGFR1 qui ne contient que les premiers six motifs N-terminaux extracellulaires de type Ig du domaine extracellulaire et il est dépourvu des domaines transmembranaire et tyrosine kinase. Le sVEGFR1 a éte initialement considéré comme un facteur anti-angiogénique qui neutralise les fonctions du VEGF-A dans les cellules endothéliales. Les hauts niveaux ont été corrélés avec un mauvais pronostic et une mauvaise réponse aux thérapies dans plusieurs types de cancer. Nous avons montré in vitro dans 4 lignées cellulaires de SCC que le bevacizumab, ainsi que les inhibiteurs VEGF-TKI (Semaxanib, KI8751) augmentent les niveaux intra- et extra-cellulaires du sVEGFR1. Nous avons confirmé ces résultats in vivo dans des modèles murins de xénogreffes squameux induits par NCTU. De façon intérssante, l’augmentation du sVEGFR1 en réponse aux thérapies anti-angiogénique est spécifique aux modèles squameux et n’a pas été observée dans les modèles d’adénocarcinomes in vitro et in vivo. Sur le plan moléculaire, nous avons montré que le VEGF165 par l’intermédiaire de SOX2 régule l’expression du sVEGFR1 en réponse aux thérapiesAAG. De plus, nous avons identifié une boucle autocrine 1 intégrine / VEGFR1 / VEGFR2 par laquelle sVEGFR1 contrôle différentiellement la prolifération cellulaire et la survie, permettant notamment de distinguer les cellules SCC sensibles ou résistantes aux thérapies AAG. Enfin, dans une série de 77 cancers bronchiques non à petites cellules, nous avons montré que 11% et 44% des patients SCC expriment de bas ou de hauts nivaux de sVEGFR1 respectivement. Les hauts niveaux ont été corrélés avec des stades pTNM avancés. Dans l'ensemble, nos résultats sont la première preuve que les thérapies AAG augmentent l'expression du sVEGFR1 dans les cellules SCC. En outre, nos données mettent en évidence une fonction pro-tumorale inattendue de sVEGFR1 grâce à l'activation d'une boucle autocrine VEGFR/ β1 intégrine. Ces résultats pourraient aider à comprendre pourquoi les SCC répondent différemment aux AAG que les ADC et d'identifier les patients SCC qui pourraient etre éligibles à ces thérapies. / Vascular endothelial growth factors (VEGFs) and their receptors are regulators of physiological and pathological angiogenesis. In patients with squamous cell lung carcinoma (SCC), clinical trials evaluating anti-angiogenic therapies (AAG) have failed to identify strong benefits. Rather, these patients are at higher risk of bleeding complications when exposed to Bevacizumab (BVZ), a humanized monoclonal anti-VEGF-A antibody. The soluble VEGF receptor-1, namely sVEGFR1, is a truncated version of the cell membrane-spanning VEGFR1 that only retains the first six N-terminal Ig-like extracellular motifs of VEGFR1 owing to alternative splicing of its pre-mRNA. As a consequence, sVEGFR1 is mainly viewed as an anti-angiogenic factor that counteracts VEGF-A functions on endothelial cells. Moreover, high levels of sVEGFR1 were correlated with bad prognosis and bad response to therapies in many cancer types. Using various SCC cell lines, we showed that Bevacizumab as well as VEGFR-Tyrosine Kinase Inhibitors (Semaxanib, KI8751) increase the intra- and extra-cellular levels of sVEGFR1. We confirmed this up-regulation in NCTU-induced SCC murine tumorgrafts models treated with VEGFR-TKI (sunitinib) or anti-VEGFR2 (DC101). Of note, this effect was never observed in the lung adenocarcinoma histological sub-type (ADC), using either cell lines or a mouse model treated in the same conditions. At the molecular level, we identified the VEGF165 and SOX2 proteins as crucial upstream regulators of sVEGFR1 in response to AAG. Moreover, we unraveled an original and SOX2 proteins as crucial upstream regulators of sVEGFR1 in response to AAG. Moreover, we unraveled an original ines or a mouse model treato discriminate between AAG-sensitive or -resistant SCC cells. Finally, in a series of 77 Non Small Cell Lung Carcinoma, we provided the first description of a differential pattern of sVEGFR1 expression with 11% and 44% of SCC exhibiting no or high expression respectively, high levels of sVEGFR1 being correlated with advanced pTNM stages. As a whole, our results provide the first evidence that AAG therapies upregulate sVEGFR1 expression in SCC cells. In addition, our data highlight an unexpected pro-tumoral function of sVEGFR1 through the activation of a beta 1 integrin-dependent VEGFR autocrine loop. These results might help to understand why SCC are less responsive to anti-angiogenic drugs than ADC and to identify SCC patients eligible to these therapies.

Carcinomes pulmonaires squameux

Thérapies anti-Angiogéniques

Svegfr1

Vegf165

Squamous cell lung carcinoma

Anti-Angiogenic therapies

Svegfr1

Vegf165

610

570

Avaliação da transferência gênica por vetor viral na glândula lacrimal e resposta na neovascularização corneana / Evaluation of gene transfer by viral vector in the lacrimal gland and response to corneal neovascularization

Luís Fernando Resende da Silva Nominato

27 October 2017

Objetivos: Os objetivos deste estudo foram: 1) determinar a eficácia da transferência gênica do vetor de adenovírus sorotipo 5, carreando o gene do receptor do fator de crescimento endotelial vascular (VEGF) solúvel humano (sVEGFR1) para a glândula lacrimal (GL); 2) investigar se a expressão de sVEGFR1 interfere na neovascularização da córnea (NVC), induzida por queimadura alcalina; 3) avaliar a segurança do procedimento. Métodos: Trinta e dois ratos Wistar foram submetidos à queimadura central da córnea direita com solução de hidróxido de sódio (NaOH) 1 M. Os animais foram divididos em três grupos e injetados diretamente em sua GL direita 25 ?l de vetores virais AdVEGFR1 (1x1010 pfu) (12 animais), 25 ?l do vetor AdNull (1x1010pfu) (10 animais), ou 25 ?l de solução salina (Controle). Após sete dias, a NVC foi observada e fotografada na lâmpada de fenda. A secreção lacrimal foi medida com fenol. A presença do sVEGFR1 na GL foi testada por qPCR (quantitative polymerase chain reaction) e a coloração, por imunofluorescência. O qPCR foi também utilizado para comparar o RNA mensageiro (RNAm) de ilterleucina-1beta (IL-1?), ilterleucina-6 (IL-6) e fator de necrose tumoral alfa (TNF-?) na GL e no gânglio do trigêmeo (GT). Resultados: O vetor AdVEGFR1 transfectou 83% dos ratos. O sVEGFR1 estava presente nas células acinares da GL. A NVC foi prevenida em nove de doze animais do grupo AdVEGFR1, em comparação com o grupo Ad-Null (3:10) e o grupo Controle (1:10) (p=0,0317). A secreção lacrimal e o RNAm das citocinas na GL e no GT foram semelhantes nos três grupos (p>0,05). Conclusões: A transferência gênica do vetor adenoviral para a GL demonstrou expressão local do sVEGFR1 humano, e evitou a NVC na maioria dos olhos expostos a queimaduras alcalinas, se mostrando seguro para a estrutura e função da GL. / Purpose: The aims of this study were: 1) to determine the efficacy of adenovirus vector serotype 5 (Ad) encoding human soluble VEGF receptor 1 (sVEGFR1) gene transfer to the lacrimal gland (LG); 2) to investigate whether expression of sVEGFR1 acts in corneal neovascularization (CNV), induced by alkali burn and; 3) to evaluate the safety of the procedure. Methods: AdVEGFR1viral vectors (25 ?l, 1x1010pfu) were injected in the right LG of rats and compared with AdNull vector (25 ?l, 1x1010pfu) or 25?l saline (Control) before cornea alkali burn with 1 M NaOH. After seven days, CNV was observed and photographed in the slit lamp. Tear secretion was measured with phenol red thread. The animals were tested for human VEGFR1 mRNA and protein in the LG by qPCR and immunofluorescence staining, respectively. qPCR was also used to compare the mRNA of IL-1?, IL-6, and TNF-? in LG and ipsilateral trigeminal ganglion (TG). Results: Ad-VEGFR1 transfected 83% of the rats. VEGFR1 was present in LG acinar cells. CNV was prevented in 9 of 12 animals of Ad-VEGFR1 group, compared to Ad-Null (3:10) and Control (1:10) (p=0.0317). The tear secretion and the cytokines mRNA in LG and TG were similar all three groups (p>0.05). Conclusion: Adenoviral vector gene transfer to LG as the has shown local expression of human sVEGFR1, as It prevented CNV in most of the eyes exposed to alkali burn and was safe for LG structure and function.

Adenovírus

Glândula Lacrimal

Neovascularização corneana

sVEGFR1

Terapia gênica

VEGF

Adenovirus

Corneal neovascularization

Gene transfer

Lacrimal gland

sVEGFR1

VEGF