Hydrogen peroxide (H2O2) is produced following injury and is required for regeneration. However, how H2O2 coordinates multiple signalling pathways required for regeneration is not known. Protein... Show moreHydrogen peroxide (H2O2) is produced following injury and is required for regeneration. However, how H2O2 coordinates multiple signalling pathways required for regeneration is not known. Protein-tyrosine phosphatases (PTPs) are regulators of signal transduction, reversing the phosphorylation of substrates, and are essential for many cellular processes. PTPs are also highly sensitive to reversible oxidation-mediated inhibition by H2O2.My research identified that some, but not all, PTPs become oxidized following amputation of the zebrafish caudal fin, and implicates PTPs that are oxidized as necessary for the regenerative process. Furthermore, I delineated that the PTPs Shp2 and Pten are required for the regenerative outgrowth phase of regeneration, and that Shp2 and Pten have a role in driving MAPK signalling and balancing PI3K signalling, respectively, during this phase. Show less
Control of infectious diseases poses continuous challenges for human health. Salmonella bacteria are a major cause of gastrointestinal infections and systemic disease like typhoid fever. We used... Show moreControl of infectious diseases poses continuous challenges for human health. Salmonella bacteria are a major cause of gastrointestinal infections and systemic disease like typhoid fever. We used zebrafish-Salmonella infection models to study host immune responses to Salmonella, particularly focusing on the role of the autophagy machinery. Autophagy and a related process known as Lc3-associated phagocytosis (LAP) trap invading microbes in intracellular vesicles and eventually eliminate them through the lysosomal degradation pathway. We show that macrophages and neutrophils trap Salmonella in Lc3-decorated phagosomes by a process dependent on the host factors Rubicon and NADPH oxidase, which generates anti-bacterial reactive oxygen species. This process could be defined as LAP as it requires some but not all components of the autophagy machinery. Genetic inhibition of LAP and ablation of macrophages resulted in hypersusceptibility to infections with both wild type and attenuated strains, revealing that LAP is an essential line of defense against Salmonella during systemic disease, when macrophages are the main carriers of the infection. Our studies also revealed a novel functional link between the autophagy modulator Dram1 and induction of LAP. This work encourages further studies aimed at the identification of autophagy modulating drugs for host-directed therapy of antibiotic-resistant Salmonella infections. Show less
One of the major limitations in culturing complex tissues or organs is the lack of vascularization in the cultured tissue. Development of a functional capillary bed could overcome this problem.... Show moreOne of the major limitations in culturing complex tissues or organs is the lack of vascularization in the cultured tissue. Development of a functional capillary bed could overcome this problem. The zebrafish is a promising model for in vitro vasculogenesis and angiogenesis studies, as a replacement for currently used mammalian models. However, the culture of endothelial cells from this species is not well characterized. Here, we test different culture strategies, medium supplementations and culture substrates for their effect on the generation of putative endothelial (fli:GFP+ and kdrl:GFP+) cells and vascular morphogenesis in zebrafish blastocyst cell derived embryoid body culture. we have also developed a perfused culture model, using microfluidic technology, to culture zebrafish vascular networks. This study is a step forward to the development of zebrafish vascular networks in vitro. Show less
