Contribution de l’hypoxie et du facteur hif1a à la guérison cutanée chez le cheval

Le cheval est souvent victime de plaies traumatiques, dont la guérison est fréquemment problématique, et ce, principalement quand la plaie survient sur le membre. Il est courant de voir chez le cheval le développement d’un tissu de granulation exubérant ou « bouton de chair », qui mène à une cicatrisation excessive due à la surproduction de tissu fibreux. Ce tissu cicatriciel, non épithélialisé, est caractérisé par une occlusion au niveau de la microcirculation due à l’hypertrophie des cellules endothéliales, qui laisse supposer la présence d’hypoxie tissulaire. Une hypoxie relative a effectivement été mesurée par spectroscopie dans le proche infrarouge au niveau des plaies appendiculaires prédisposées au développement de tissu de granulation exubérant, par rapport aux plaies corporelles. De plus, une étude thermographique a révélé un patron spatial similaire de la perfusion. Au niveau moléculaire, la littérature rapporte que le facteur de transcription «hypoxia inducible factor» (HIF) est à l’origine de plusieurs changements dans les niveaux d’expression de divers gènes régulés par l’hypoxie. L’objectif du présent projet de recherche était de définir la contribution de l’hypoxie à la guérison cutanée chez le cheval. Le premier volet (in vivo) du projet visait à mesurer l’expression protéique temporelle du HIF1A dans des échantillons tissulaires en provenance de plaies cutanées guérissant normalement et d’autres développant une cicatrisation excessive, selon divers sites anatomiques (tronc, membre). Les résultats obtenus suggèrent que la mesure de HIF1A, dans les échantillons pluricellulaires de cette étude, reflète l’épithélialisation de la plaie plutôt que les niveaux d’oxygène tissulaire. En effet, le HIF1A semble réguler l’homéostasie et la prolifération des kératinocytes. Le second volet (in vitro), consistait en la mise en culture de fibroblastes dermiques équins provenant du tronc ou du membre, en condition de normoxie ou d’hypoxie (à 1% d’O2 ou à l’aide d’un mimétique, le CoCl2) afin d’en étudier le comportement (capacités de prolifération et de synthèse protéique). Les résultats obtenus soutiennent une contribution de l’hypoxie à la cicatrisation extensive chez le cheval puisque l’hypoxie favorise la prolifération des fibroblastes en plus d’encourager la synthèse de collagène de type 1 et de diminuer la synthèse de la métalloprotéinase de type 2. Les changements observés semblent dépendre de facteurs extrinsèques (environnementaux) car les fibroblastes dermiques se comportent de façon similaire indépendamment de la provenance anatomique. En somme, les deux volets de l’étude ont permis d’élucider une part des mécanismes sous-jacents à la formation du tissu de granulation exubérant lors de guérison cutanée chez le cheval. La poursuite des recherches dans ce domaine mènera à une meilleure compréhension de la pathologie et ainsi, permettra de développer des méthodes de traitement spécifiques à la condition.

The lack of associations between alleles at the hypoxia-Inducible factor 1A C1772T loci and responses to acute hypoxia.

Objective The aim of this study was to investigate the associations between alleles of the hypoxia-inducible factor 1A (HIF1A) C1772T polymorphism and several physiological responses to hypoxia, including the hypoxic ventilatory response (HVR), and serum erythropoietin (EPO), arterial oxygen saturation (Sao2), and acute mountain sickness (AMS) responses during 8 hours of exposure to normobaric hypoxia. Methods A total of 76 males participated in the study; 52 participants completed an 8-hour exposure to 12.7% oxygen, during which time Sao2, EPO concentrations, and AMS scores were measured, while 62 individuals took part in an HVR trial (in total 38 individuals completed both protocols). DNA was obtained from leukocytes, and a 346-bp fragment of the HIF1A gene containing the C1772T polymorphism was amplified using polymerase chain reaction. Fragments were sequenced to reveal individual genotypes, and the associations between HIF1A genotype and EPO, Sao2, AMS responses to hypoxia and HVR were examined. Results The magnitude of the hypoxic responses was highly variable between individuals. The increase in participants' EPO responses ranged from 89% to 388% of baseline values following hypoxia, while Sao2 values during the exposure ranged from 71% to 89%. The HVR ranged from −0.04 to +2.18 L · min−1 · Sao2%−1 among participants. No significant differences in EPO, Sao2, AMS, or HVR results were observed between the HIF1A CC genotype and the combined CT/TT genotype group. Conclusion In this study, the HIF1A C1772T polymorphism does not appear to influence EPO, Sao2, or AMS responses during acute hypoxic exposure, or the magnitude of the HVR.

Docetaxel maintains its cytotoxic activity under hypoxic conditions in prostate cancer cells

OBJECTIVE: The efficacy of docetaxel has recently been shown to be increased under hypoxic conditions through the down-regulation of hypoxia-inducible-factor 1α (HIF1A). Overexpression of the hypoxia-responsive gene class III β-tubulin (TUBB3) has been associated with docetaxel resistance in a number of cancer models. We propose that administration of docetaxel to prostate patients has the potential to reduce the hypoxic response through HIF1A down-regulation and that TUBB3 down-regulation participates in sensitivity to docetaxel.

METHODS: The cytotoxic effect of docetaxel was determined in both 22Rv1 and DU145 prostate cancer cell lines and correlated with HIF1A expression levels under aerobic and hypoxic conditions. Hypoxia-induced chemoresistance was investigated in a pair of isogenic docetaxel-resistant PC3 cell lines. Basal and hypoxia-induced TUBB3 gene expression levels were determined and correlated with methylation status at the HIF1A binding site.

RESULTS: Prostate cancer cells were sensitive to docetaxel under both aerobic and hypoxic conditions. Hypoxic cytotoxicity of docetaxel was consistent with a reduction in detected HIF1A levels. Sensitivity correlated with reduced basal and hypoxia-induced HIF1A and TUBB3 expression levels. The TUBB3 HIF1A binding site was hypermethylated in prostate cell lines and tumor specimens, which may exclude transcription factor binding and induction of TUBB3 expression. However, acquired docetaxel resistance was not associated with TUBB3 overexpression.

CONCLUSION: These data suggest that the hypoxic nature of a tumor may have relevance as regard to their response to docetaxel. Further investigation into the nature of this relationship may allow identification of novel targets to improve tumor control in prostate cancer patients.

Nuclear ARRB1 induces pseudohypoxia and cellular metabolism reprogramming in prostate cancer

Tumour cells sustain their high proliferation rate through metabolic reprogramming, whereby cellular metabolism shifts from oxidative phosphorylation to aerobic glycolysis, even under normal oxygen levels. Hypoxia-inducible factor 1A (HIF1A) is a major regulator of this process, but its activation under normoxic conditions, termed pseudohypoxia, is not well documented. Here, using an integrative approach combining the first genome-wide mapping of chromatin binding for an endocytic adaptor, ARRB1, both in vitro and in vivo with gene expression profiling, we demonstrate that nuclear ARRB1 contributes to this metabolic shift in prostate cancer cells via regulation of HIF1A transcriptional activity under normoxic conditions through regulation of succinate dehydrogenase A (SDHA) and fumarate hydratase (FH) expression. ARRB1-induced pseudohypoxia may facilitate adaptation of cancer cells to growth in the harsh conditions that are frequently encountered within solid tumours. Our study is the first example of an endocytic adaptor protein regulating metabolic pathways. It implicates ARRB1 as a potential tumour promoter in prostate cancer and highlights the importance of metabolic alterations in prostate cancer.

Impact d'un traumatisme crânio-cérébral léger sur l’architecture du sommeil et le transcriptome dans un modèle murin

Le traumatisme crânien léger (TCL) est l'un des troubles neurologiques les plus courants affectant la santé publique. Aussi, les troubles du sommeil sont fréquents chez les patients atteints de TCL. Les études chez les rongeurs montrent que certains marqueurs de plasticité synaptique diminuent après le TCL, ce qui pourrait nuire à la plasticité du cerveau. Nous suggérons que la perte de sommeil intensifie l'effet négatif de TCL, qui peut refléter les changements des marqueurs de plasticité synaptique ou des changements des voies physiologiques qui régulent le sommeil. En utilisant un modèle de traumatisme crânien sur crâne fermé (closed head injury), nous avons étudié la relation bidirectionnelle entre le TCL et le sommeil en évaluant les effets de TCL sur l’activité électrique du cerveau par électroencéphalographie (EEG), et ceux de la privation de sommeil (PS) sur l'expression génique post-TCL. Premièrement, l'activité EEG a été enregistrée pour voir si l'architecture du sommeil est altérée suite au TCL. Nous avons ensuite voulu tester si la PS suite TCL induit des changements dans l'expression des gènes : Arc, Homer1a, Hif1a, Bdnf, Fos et éphrines, qui ont été liés à la plasticité synaptique et à la régulation du sommeil. Nous avons également étudié l'effet de la PS post-TCL sur le génome complet dans les régions cibles (cortex et l'hippocampe). Les principaux résultats obtenus dans cette étude confirment que TCL modifie de manière significative l'activité spectrale pendant l'éveil, le sommeil Rapid Eye Movement (REM) et le sommeil non-REM dans le deuxième 24 heures post-TCL. Fait intéressant, la capacité de maintenir de longues périodes d'éveil a été altérée immédiatement après TCL (première 24h post-TCL). La dynamique de l'activité delta pendant l'éveil a été modifié par le TCL. Parallèlement à ces modifications, des changements dans l'expression des gènes ont été observés dans le cortex et l'hippocampe. Seulement Arc et EfnA3 ont montré une interaction TCL / PS et ce dans l’hippocampe, tandis que l'expression de tous les autres gènes semblait être affectée par la PS ou TCL indépendamment. Nos résultats montrent pour la première fois que le TCL induit l'expression de deux chimiokines (Ccl3 et Cxcl5) à la fois dans le cortex cérébral et l'hippocampe 2,5 jours post-TCL. Également, nous avons observé que le TCL induit une diminution de l'expression de Lgals3 et S100A8 dans le cortex, et une augmentation d’Olig2 dans l'hippocampe. Les résultats concernant les effets de la PS sur le génome complet du cortex et de l'hippocampe montrent des changements significatifs dans les gènes impliqués dans diverses fonctions physiologiques, telles que les rythmes circadiens, la réponse inflammatoire, ainsi que de l'activation des cellules gliales. En général, nos résultats précisent les changements dans la qualité de l’éveil ainsi que dans l'expression de divers gènes après TCL.

Efecto de la hipoxia-reoxigenación y las radiaciones ionizantes en la captación de glucosa en líneas tumorales de seno y colon cocultivadas con células endoteliales.

La captación de glucosa y su conversión en lactato juega un papel fundamental en el metabolismo tumoral, independientemente de la concentración de oxígeno presente en el tejido (efecto Warburg). Sin embrago, dicha captación varía de un tipo tumoral a otro, y dentro del mismo tumor, situación que podría depender de las características microambientales tumorales (fluctuaciones de oxígeno, presencia de otros tipos celulares) y de factores estresores asociados a los tratamientos. Se estudió el efecto de la hipoxia-reoxigenación (HR) y las radiaciones ionizantes (RI) sobre la captación de glucosa, en cultivos de líneas tumorales MCF-7 y HT-29, cultivadas de forma aislada o en cocultivo con la línea celular EAhy296. Se encontró que la captación de glucosa en HR es diferente para lo descrito en condiciones de hipoxia permanente y que es modificada en el cocultivo. Se identificaron poblaciones celulares dentro de la misma línea celular, de alta y baja captación de glucosa, lo que implicaría una simbiosis metabólica de la célula como respuesta adaptativa a las condiciones tumorales. Se evaluó la expresión de NRF2 y la translocación nuclear de NRF2 y HIF1a, como vías de respuesta a estrés celular e hipoxia. La translocación nuclear de las proteínas evaluadas explicaría el comportamiento metabólico de las células tumorales de seno, pero no de colon, por lo cual deben existir otras vías metabólicas implicadas. Las diferencias en el comportamiento de las células tumorales en HR en relación con hipoxia permitirá realizar planeaciones dosimétricas más dinámicas, que reevalúen las condiciones de oxigenación tumoral constantemente.

Investigação da expressão gênica diferencial em resposta aos efeitos da proteína anti-inflamatória Anexina A1 nas células de carcinoma de colo de útero

Fundação de Amparo à Pesquisa do Estado de São Paulo (FAPESP)

ANXA1Ac₂₋₂₆ peptide reduces ID1 expression in cervical carcinoma cultures

Cervical cancer is the second most frequent cancer in women worldwide and is associated with genetic alterations, infection with human papilloma virus (HPV), angiogenesis and inflammatory processes. The idea that inflammation is involved in tumorigenesis is supported by the frequent appearance of cancer in areas of chronic inflammation. On the other hand, the inflammatory response is controlled by the action of anti-inflammatory mediators, among these mediators, annexin A1 (ANXA1), a 37 kDa protein was detected as a modulator of inflammatory processes and is expressed by tumor cells. The study was carried out on the epithelial cancer cell line (SiHa) treated with the peptide of annexin A1 (ANXA1Ac2-26). We combined subtraction hybridization approach, Ingenuity Systems software and quantitative PCR, in order to evaluate gene expression influenced by ANXA1. We observed that ANXA1Ac2-26 inhibited proliferation in SiHa cells after 72h. In these cells, 55 genes exhibited changes in expression levels in response to peptide treatment. Six genes were selected and the expression results of 5 up-regulated genes (TPT1, LDHA, NCOA3, HIF1A, RAB13) and one down-regulated gene (ID1) were research by real time quantitative PCR. Four more genes (BMP4, BMPR1B, SMAD1 and SMAD4) of the ID1 pathway were investigated and only one (BMPR1B) shows the same down regulation. The data indicate the involvement of ANXA1Ac2-26 in the altered expression of genes involved in tumorigenic processes, which could potentially be applied as a therapeutic indicator of cervical cancer.

O papel da angiogênese e da hemólise na úlcera de perna de pessoas com anemia falciforme

Coordenação de Aperfeiçoamento de Pessoal de Nível Superior (CAPES)

Assessment of bovine adipose-derived stem cells osteogenic and adipogenic differentiation in Normoxic and hypoxic conditions

Background: The differentiation of ADSC is regulated by many factors, including oxygen tensions. Evidences have suggested that low oxygen tension or hypoxia is involved in the osteogenic, adipogenic differentiations of MSCs. Expansion and induction of ADSCs under hypoxia generally result in enhanced osteogenic, differentiation. Therefore, we analyzed bovine ADSC differentiations in Normoxia and hypoxia conditions Methodology: Recently (<8h) cow tail from a slaughterhouse, take out some fat from the tail and fat cells was isolated by using for isolation of ADSC protocol, the expansion cells were put into osteogenic and adipogenic medium for 3 weeks in hypoxia and normoxia conditions separately and characterized by Von kossa, Alizarin red and Oil red O staining and further by using real-time PCR by using primers of osteocalcin, Collagen type1, cbfa1/runx2, ALP, ostepontin, osteonectin, BMP2, BMP24, BMP27, noggin, gremlin, Nestin and HIF1A,VEGFA,PPARG,Leptin. Results: Our experiment results show hypoxia promotes osteogenesis but suppresses adipogenesis.

First-in-Human Proof-of-Concept Study: Intralesional Administration of BQ788, an Endothelin Receptor B Antagonist, to Melanoma Skin Metastases

BACKGROUND This first-in-human proof-of-concept study aimed to check whether safety and preclinical results obtained by intratumoral administration of BQ788, an endothelin receptor B (EDNRB) antagonist, can be repeated in human melanoma patients. METHODS Three patients received a single intralesional BQ788 application of 3 mg. After 3-7 days, the lesions were measured and removed for analysis. The administered dose was increased to a cumulative dosage of 8 mg in patient 4 (4 × 2.0 mg, days 0-3; lesion removed on day 4) and to 10 mg in patient 5 (3 × 3.3 mg, days 0, 3, and 10; lesion removed after 14 days). Control lesions were simultaneously treated with phosphate-buffered saline (PBS). All samples were processed and analyzed without knowledge of the clinical findings. RESULTS No statistical evaluation was possible because of the number of patients (n = 5) and the variability in the mode of administration. No adverse events were observed, regardless of administered dose. All observations were in accordance with results obtained in preclinical studies. Accordingly, no difference in degree of tumor necrosis was detected between BQ788- and PBS-treated samples. In addition, both EDNRB and Ki67 showed decreased expression in patients 2 and 5 and, to a lesser extent, in patient 1. Similarly, decreased expression of EDNRB mRNA in patients 2 and 5 and of BCL2A1 and/or PARP3 in patients 2, 3, and 5 was found. Importantly, semiquantitatively scored immunohistochemistry for CD31 and CD3 revealed more blood vessels and lymphocytes, respectively, in BQ788-treated tumors of patients 2 and 4. Also, in all patients, we observed inverse correlation in expression levels between EDNRB and HIF1A. Finally, in patient 5 (the only patient treated for longer than 1 week), we observed inhibition in lesion growth, as shown by size measurement. CONCLUSION The intralesional applications of BQ788 were well tolerated and showed signs of directly and indirectly reducing the viability of melanoma cells.

REST mediates resolution of HIF-dependent gene expression in prolonged hypoxia

The hypoxia-inducible factor (HIF) is a key regulator of the cellular response to hypoxia which promotes oxygen delivery and metabolic adaptation to oxygen deprivation. However, the degree and duration of HIF-1α expression in hypoxia must be carefully balanced within cells in order to avoid unwanted side effects associated with excessive activity. The expression of HIF-1α mRNA is suppressed in prolonged hypoxia, suggesting that the control of HIF1A gene transcription is tightly regulated by negative feedback mechanisms. Little is known about the resolution of the HIF-1α protein response and the suppression of HIF-1α mRNA in prolonged hypoxia. Here, we demonstrate that the Repressor Element 1-Silencing Transcription factor (REST) binds to the HIF-1α promoter in a hypoxia-dependent manner. Knockdown of REST using RNAi increases the expression of HIF-1α mRNA, protein and transcriptional activity. Furthermore REST knockdown increases glucose consumption and lactate production in a HIF-1α- (but not HIF-2α-) dependent manner. Finally, REST promotes the resolution of HIF-1α protein expression in prolonged hypoxia. In conclusion, we hypothesize that REST represses transcription of HIF-1α in prolonged hypoxia, thus contributing to the resolution of the HIF-1α response.