Investigating the role of eosinophils in cardiac remodelling following myocardial infarction

Toor, Iqbal Singh

January 2018

Myocardial infarction (MI) occurs following acute thrombotic occlusion of a coronary artery, and triggers a robust inflammatory response. Within hours, neutrophils are recruited to the infarcted myocardium followed by the infiltration of pro-inflammatory Ly6Chi monocytes. Transition from the pro-inflammatory macrophage phenotype (M1) to an anti-inflammatory, pro-resolution phenotype (M2-like) is critical to successful infarct healing. Interventions that polarize macrophages towards an anti-inflammatory 'M2-like' phenotype improve infarct healing in the experimental MI mouse model and reduce subsequent adverse remodelling of the myocardium, but the endogenous mechanisms that regulate repair are not well understood. Furthermore, differences in the resolution of inflammation in C57BL/6 and BALB/c mice, which are two of the commonly used wild-type mouse strains in experimental MI have not been characterised. We previously found that low peripheral blood eosinophil count is associated with increased short-term risk of mortality in low-intermediate risk patients with ischaemic heart disease. This suggests that eosinophils may have a role in the successful remodelling and repair of the heart following myocardial infarction. Eosinophils express a number of immuno-modulating cytokines and lipid mediators implicated in the resolution of inflammation. Increasingly prominent is interleukin-4 (IL-4), a cytokine that has been found to maintain the anti-inflammatory M2-like phenotype in macrophages. We therefore hypothesised that IL-4Rα signalling and recruitment of eosinophils to the myocardium following infarction are key in regulating the subsequent inflammatory response and scar tissue formation during infarct repair and cardiac remodelling. Experimental MI was induced by permanent left anterior descending artery ligation in isofluorane anaesthetized 12-15 week-old male wild-type (WT) BALB/c, WT C57BL/6, IL4Rα-/-, IL-4Rαflox/-, IL-4Rαflox/-LysMCre mice and eosinophil-deficient ΔdblGATA mice. Cardiac function was characterised by high-resolution ultrasound and immune cell infiltration by flow cytometry of single cell infarct and remote zone tissue digests. Blood eosinophil count and 6-month all-cause mortality were assessed in 732 consecutive patients undergoing primary percutaneous coronary intervention for ST-segment elevation myocardial infarction (STEMI). The rate of mortality due to cardiac rupture was significantly higher in C57BL/6 mice in comparison with BALB/c mice at Day 7 post-MI. This was associated with a higher proportion of pro-inflammatory Ly-6Chi macrophages infiltrating the infarct zone tissue of C57BL/6 mice following MI. An accompanying reduction in the number of splenic Ly-6Chi monocytes post-MI, suggestive of splenic monocyte mobilisation, was seen in C57BL/6 mice but not found in BALB/c mice. Furthermore, C57BL/6 mice had a delayed transition in macrophage polarisation towards an anti-inflammatory phenotype. Disruption of IL4Rα signalling, in mice null for the IL4Rα gene, resulted in increased F4/80+ macrophage and pro-inflammatory Ly6Chi macrophage infiltration of the infarct zone and reduced expression of the anti-inflammatory macrophage marker CD206, compared to wild-type controls. Furthermore, expression of GATA3 and ST2, both associated with the immunosuppressive function of (CD4+ Foxp3+) regulatory T cells, was reduced in infarct zone regulatory T cells from IL4Rα-/- mice. These findings were associated with defective wound healing with impaired angiogenesis, increased scar size, disarrayed infarct zone collagen deposition, accompanied by modified expression of plod2 that encodes the collagen cross-linking enzyme lysyl hydroxylase 2. Resulting in greater left ventricular dilatation and loss of cardiac function, as well as a higher 7- day mortality due to cardiac rupture in IL4Rα-/- mice. This indicates that successful infarct repair requires the engagement of IL-4Rα signalling to facilitate the accumulation of anti-inflammatory macrophages and highly immunosuppressive ST2+ regulatory T cells in the heart following MI. Resident cardiac macrophages from naïve hearts of IL-4Rαflox/-LysMCre mice failed to undergo LysMCre-mediated deletion of the IL-4Rα gene, potentially because low or absent expression of Lyz2 (encoding lysozyme M). In both ST-elevation MI (STEMI) patients and mice after acute MI, there was a decline in peripheral blood eosinophil count, with activated eosinophils being recruited to the infarct zone and paracardial adipose tissue of mice. The transcription factors GATA-1 plays a role in the differentiation of eosinophils from eosinophil progenitor cells. Deletion of GATA-1 results in loss of the eosinophil lineage and has been exploited to develop the eosinophil-deficient ΔdblGATA mouse. ΔdblGATA mice were used to address the role of eosinophils in cardiac remodelling following MI. ΔdblGATA mice had increased left ventricular dilatation and reduced ejection fraction after induction of MI, relative to wild-type mice. ΔdblGATA mice had increased scar size with disarrayed infarct zone collagen deposition, accompanied by modified expression of the genes plod2 and lox, which are associated with collagen cross-linking. The proportion of CD206+ anti-inflammatory macrophages was less in the infarct zone of ΔdblGATA mice, but was restored by adoptive transfer of eosinophils from WT mice. Furthermore, adverse cardiac remodelling in eosinophil-deficient ΔdblGATA mice was rescued by provision of IL-4 complex following MI. In conclusion, an enhanced inflammatory response following MI underlies the increased risk of cardiac rupture seen with WT C57BL/6 mice in comparison to WT BALB/c mice. WT BALB/c mice are protected from cardiac rupture, which was associated with an absence of splenic monocyte mobilisation following ischaemic injury. The resolution of inflammation was found to be dependent on IL4Rα signalling which is crucial for cardiac repair and remodelling, through modulating inflammatory cell recruitment and phenotype, as well as scar formation. Eosinophils are recruited to the heart post-MI and are essential for regulating cardiac repair and remodelling, likely through provision of IL-4. Therefore, we were able to show that IL-4Rα signalling and recruitment of eosinophils to the myocardium following infarction are both key in regulating the subsequent inflammatory response and scar tissue formation during infarct healing and cardiac remodelling.

Genový polymorfismus Th1/Th2 cytokinů u pacientek s děložní myomatózou / Th1/Th2 cytokine gene polymorphisms in patients with urine fibroid

Sosna, Ondřej

January 2011

Background: Uterine fibriod (UF) or leiomyoma is the most frequent benign tumour upon lower genital tract and represents the most frequent indication for hysterectomy. The aetiology remains still unknown. The genetic factors contributing for the development of UF are being intensively investigated. The aim of our study was to look for possible genetic markers which could be used as prognostic tools for evaluation of an increased risk for development of UF. Methods: The study group enrolled 102 patients diagnosed with UF and 145 healthy controls. Ultrasonographic examination of the pelvis was performed and a single blood sample was taken in all women. Histological verification followed the surgery in the patient group. The principal of the cytokine gene polymorphisms detection is based on PCR reaction with sequence-specific primers. Results: A large spectrum of Th1/Th2 cytokine gene polymorphisms in patients with uterine fibroid was compared with control group. The frequencies of the majority of tested cytokine gene SNP in the patient cohort were not statistically different from the cytokine SNP in the control group. However, an intriguing association between polymorphisms of the IL-4 gene promotor at positions -590 C/T and -33 C/T, and the risk of leiomyoma was observed. The CC genotype of IL-4 at position...

Genový polymorfismus Th1/Th2 cytokinů u pacientek s děložní myomatózou / Th1/Th2 cytokine gene polymorphisms in patients with urine fibroid

Sosna, Ondřej

January 2011

Background: Uterine fibriod (UF) or leiomyoma is the most frequent benign tumour upon lower genital tract and represents the most frequent indication for hysterectomy. The aetiology remains still unknown. The genetic factors contributing for the development of UF are being intensively investigated. The aim of our study was to look for possible genetic markers which could be used as prognostic tools for evaluation of an increased risk for development of UF. Methods: The study group enrolled 102 patients diagnosed with UF and 145 healthy controls. Ultrasonographic examination of the pelvis was performed and a single blood sample was taken in all women. Histological verification followed the surgery in the patient group. The principal of the cytokine gene polymorphisms detection is based on PCR reaction with sequence-specific primers. Results: A large spectrum of Th1/Th2 cytokine gene polymorphisms in patients with uterine fibroid was compared with control group. The frequencies of the majority of tested cytokine gene SNP in the patient cohort were not statistically different from the cytokine SNP in the control group. However, an intriguing association between polymorphisms of the IL-4 gene promotor at positions -590 C/T and -33 C/T, and the risk of leiomyoma was observed. The CC genotype of IL-4 at position...

Reconnaissance de surfaces de protéines par les foldamères d'oligoamides aromatiques / Protein surface recognition using aromatic oligoamide foldamers

Vallade, Maëlle

29 September 2016

Les protéines étant au coeur d’un grand nombre de processus biologiques, elles sont des cibles thérapeutiques largement convoitées. Les foldamères, notamment les oligoamides aromatiques, présentent une structure bien définie, prévisible, stable en solution et à l’état solide. Ajouté à cela, leur taille moyenne en fait de bons candidats pour la reconnaissance de surfaces de protéines, grâce à leurs chaînes latérales protéinogènes. Cette thèse présente les différentes étapes de leur conception, de la synthèse de la brique constitutive à l’obtention d’un foldamère fonctionnalisé grâce à la synthèse en phase supportée. La stratégie d’investigation des interactions entre un foldamère et une protéine est détaillée. L’originalité réside dans le fait que le foldamère est ancré directement à la protéine et le dichroïsme circulaire sert de méthode de screening. L’analyse structurale des hits permet de générer de nouveaux foldamères dans le but d’améliorer les interactions avec la protéine : c’est une stratégie itérative. Cette approche est appliquée premièrement à l’anhydrase carbonique humaine II, protéine modèle qui sert de preuve de principe pour cette approche ; puis à des protéines d’intérêt thérapeutique plus important : l’interleukine 4 et la cyclophiline A. Enfin, une étude concernant l’introduction de flexibilité au sein de foldamères de quinolines est présentée. / Since proteins are at the basis of many biological processes, they are widely studied as therapeutic targets. Aromatic oligoamide foldamers have a very well defined structure, predictable and stable both in solution and solid state. Because of their medium size, they appear as potent candidates for protein surface recognition thanks to their proteinogenic side chains. This manuscript presents the different steps of their design, from the scaffold’s synthesis to obtaining a functionalized foldamer, thanks to solid phase synthesis. The strategy to investigate protein/foldamer interactions will be detailed. Its originality lies in the fact that the foldamer is anchored to the protein. Circular dichroism has been used as a screening method to detect foldamer/protein interactions. Structural analysis of the hits will allow the design of new foldamers with the objective of enhancing foldamer/protein interactions: it is an iterative strategy. This approach has been applied firstly to human carbonic anhydrase II (HCA). This protein is used as a model system and proof of concept before moving to more therapeutically relevant proteins; interleukin 4 and cyclophilin A. Finally, a study on introducing flexibility in quinoline foldamers is presented.

Foldamère d’oligoamides aromatiques

Reconnaissance de surface de protéine

Quinoline

Anhydrase carbonique humaine II (HCA),

Interleukine 4 (IL-4)

Cyclophiline A (CypA)

Analyse structurale

Cinétique d’inversion d’hélicité

Aromatic oligoamide foldamers

Protein surface recognition

Quinoline

Human carbonic anhydrase II (HCA)

Interleukin 4 (IL-4)

Cyclophilin A (CypA)

Structural analysis

Kinetic of handedness inversion