Zebrafish granulocyte colony-stimulatingZebrafish granulocyte colony-stimulating factor receptor signaling promotes myelopoiesis and myeloid cell migration

Granulocyte colony-stimulating factor receptor (GCSFR) signaling participates in the production of neutrophilic granulocytes during normal hematopoietic development, with a particularly important role during emergency hematopoiesis. This study describes the characterization of the zebrafish gcsf and gcsfr genes, which showed broad conservation and similar regulation to their mammalian counterparts. Morpholino-mediated knockdown of gcsfr and overexpression of gcsf revealed the presence of an anterior population of myeloid cells during primitive hematopoiesis that was dependent on GCSF/GCSFR for development and migration. This contrasted with a posterior domain that was largely independent of this pathway. Definitive myelopoiesis was also partially dependent on a functional GCSF/GCSFR pathway. Injection of bacterial lipopolysaccharide elicited significant induction of gcsf expression and emergency production of myeloid cells, which was abrogated by gcsfr knockdown. Collectively, these data demonstrate GCSF/GCSFR to be a conserved signaling system for facilitating the production of multiple myeloid cell lineages in both homeostatic and emergency conditions, as well as for early myeloid cell migration, establishing a useful experimental platform for further dissection of this pathway.

Research on human embryos and cloning : difficulties of legislating in a changing environment and model approaches to regulation

It is difficult to regulate rapidly changing fields of science. New technologies are not anticipated and legislation becomes inadequate. Legislative definitions are also problematic. This article begins with consideration of such difficulties in the context of research on human embryos and cloning. It considers problems with past legislative definitions in Australia, the new regulatory regime, and whether that regime now sets clear boundaries. It is found that problems still exist – some terms are not adequately defined and boundaries for research prove unclear. Three regulatory approaches are therefore discussed. Legislation based on strict definitions is compared to a legislative model that leaves terms undefined. The third model – which combines framework legislation with the oversight of a regulatory authority – is seen as most suitable. However, problems with this model are recognised and suggestions made regarding how to ensure the “framework” remains workable and effective.

Regulatory design strategies and enforcement approaches for research involving human embryos and cloning in Australia and the United Kingdom – time for a change.

This paper examines regulatory design strategies and enforcement approaches in the context of the UK and Australia’s regulation of research involving human embryos and cloning. The aim is to discuss current regulation in view of the impending review of the Research Involving Human Embryos Act 2002 (Cth) and the Prohibition of Human Reproductive Cloning Act 2002 (Cth). It is argued that the type of regulation used in relation to those who are licensed to research in Australia is unsuitable due to an over-emphasis on deterrence and the authoritarian approach taken by regulatory bureaucracies. The cost and efficiency of the current system is also questioned. The central thesis is that a co-regulatory system that combines the existing framework legislation with self-regulation should be adopted for licence holders. Such regulation of licence holders should include responsive regulatory strategies. ‘Command and control’ design strategies and deterrence approaches present in the current regulatory systems for breaches of legislation by non-licence holders and serious breaches by licence holders should be maintained.

Role of Jak2/Stat5/Cis pathway components in zebrafish development

By utilizing the zebrafish as a research model, the function of specific cell signalling pathway components in development was investigated. This revealed new roles for the so-called Jak2/Stat5/Cis pathway in blood and sensory organ development, and a conserved prolactin pathway despite divergent functions between species.

Trapping and imaging of micron-sized embryos using dielectrophoresis

Development of dielectrophoretic (DEP) arrays for real-time imaging of embryonic organisms is described. Microelectrode arrays were used for trapping both embryonated eggs and larval stages of Antarctic nematode Panagrolaimus davidi. Ellipsoid single-shell model was also applied to study the interactions between DEP fields and developing multicellular organisms. This work provides proof-of-concept application of chip-based technologies for the analysis of individual embryos trapped under DEP force.

Characterization of zebrafish polymerase iii promoters for the expression of short hairpin RNA interference molecules

RNA interference (RNAi) is a powerful, sequence specific, and long-lasting method of gene knockdown, and can be elicited by the expression of short-hairpin RNA (shRNA) molecules driven via polymerase III type 3 promoters from a DNA vector or transgene. To further develop RNAi as a tool in zebrafish, we have characterized the zebrafish U6 and H1 snRNA promoters and compared the efficiency of each of the promoters to express an shRNA and silence a reporter gene, relative to previously characterized U6 promoters from pufferfish, chicken, and mouse. Our results show that the zebrafish polymerase III promoters were capable of effective gene silencing in the zebrafish ZF4 cell line, but were ineffective in mammalian Vero cells. In contrast, mouse and chicken promoters were active in Vero but not ZF4 cells, highlighting the importance of homologous promoters to achieve effective silencing.

Tissue specific roles for the Ribosome Biogenesis Factor Wdr43 in zebrafish development

During vertebrate craniofacial development, neural crest cells (NCCs) contribute to most of the craniofacial pharyngeal skeleton. Defects in NCC specification, migration and differentiation resulting in malformations in the craniofacial complex are associated with human craniofacial disorders including Treacher-Collins Syndrome, caused by mutations in TCOF1. It has been hypothesized that perturbed ribosome biogenesis and resulting p53 mediated neuroepithelial apoptosis results in NCC hypoplasia in mouse Tcof1 mutants. However, the underlying mechanisms linking ribosome biogenesis and NCC development remain poorly understood. Here we report a new zebrafish mutant, fantome (fan), which harbors a point mutation and predicted premature stop codon in zebrafish wdr43, the ortholog to yeast UTP5. Although wdr43 mRNA is widely expressed during early zebrafish development, and its deficiency triggers early neural, eye, heart and pharyngeal arch defects, later defects appear fairly restricted to NCC derived craniofacial cartilages. Here we show that the C-terminus of Wdr43, which is absent in fan mutant protein, is both necessary and sufficient to mediate its nucleolar localization and protein interactions in metazoans. We demonstrate that Wdr43 functions in ribosome biogenesis, and that defects observed in fan mutants are mediated by a p53 dependent pathway. Finally, we show that proper localization of a variety of nucleolar proteins, including TCOF1, is dependent on that of WDR43. Together, our findings provide new insight into roles for Wdr43 in development, ribosome biogenesis, and also ribosomopathy-induced craniofacial phenotypes including Treacher-Collins Syndrome.

ETV6 (TEL1) regulates embryonic hematopoiesis in zebrafish

Chromosomal translocations involving fusions of the human ETV6 (TEL1) gene occur frequently in hematologic malignancies. However, a detailed understanding of the normal function of ETV6 remains incomplete. This study has employed zebrafish as a relevant model to investigate the role of ETV6 during embryonic hematopoiesis. Zebrafish possessed a single conserved etv6 ortholog that was expressed from 12 hpf in the lateral plate mesoderm, and later in hematopoietic, vascular and other tissues. Morpholino-mediated gene knockdown of etv6 revealed the complex contribution of this gene toward embryonic hematopoiesis. During primitive hematopoiesis, etv6 knockdown resulted in reduced levels of progenitor cells, erythrocyte and macrophage populations, but increased numbers of incompletely differentiated heterophils. Definitive hematopoiesis was also perturbed, with etv6 knockdown leading to decreased erythrocytes and myeloid cells, but enhanced lymphopoiesis. This study suggests that ETV6 plays a broader and more complex role in early hematopoiesis than previously thought, impacting on the development of multiple lineages. © 2015 Ferrata Storti Foundation.