A sensitive crude oil bioassay indicates that oil spills potentially induce a change of major nitrifying prokaryotes from the archaea to the bacteria.

The sensitivity of nitrifiers to crude oil released by the BP Deepwater Horizon oil spill in Gulf of Mexico was examined using characterized ammonia-oxidizing bacteria and archaea to develop a bioassay and to gain further insight into the ecological response of these two groups of microorganisms to marine oil spills. Inhibition of nitrite production was observed among all the tested ammonia-oxidizing organisms at 100 ppb crude oil. Nitrosopumilus maritimus, a cultured representative of the abundant Marine Group I Archaea, showed 20% inhibition at 1 ppb, a much greater degree of sensitivity to petroleum than the tested ammonia-oxidizing and heterotrophic bacteria. The differing susceptibility may have ecological significance since a shift to bacterial dominance in response to an oil spill could potentially persist and alter trophic interactions influenced by availability of different nitrogen species.

Overlapping functions of Pea3 ETS transcription factors in FGF signaling during zebrafish development.

Fibroblast growth factors (FGFs) are secreted molecules that activate the RAS/mitogen-activated protein kinase (MAPK) signaling pathway. In zebrafish development, FGF signaling is responsible for establishing dorsal polarity, maintaining the isthmic organizer, and cardiac ventricle formation. Because several ETS factors are known transcriptional mediators of MAPK signaling, we hypothesized that these factors function to mediate FGF signaling processes. In zebrafish, the simultaneous knock-down of three Pea3 ETS proteins, Etv5, Erm, and Pea3, produced phenotypes reminiscent of embryos deficient in FGF signaling. Morphant embryos displayed both cardiac and left/right patterning defects as well as disruption of the isthmic organizer. Furthermore, the expression of FGF target genes was abolished in Pea3 ETS depleted embryos. To understand how FGF signaling and ETS factors control gene expression, transcriptional regulation of dusp6 was studied in mouse and zebrafish. Conserved Pea3 ETS binding sites were identified within the Dusp6 promoter, and reporter assays showed that one of these sites is required for dusp6 induction by FGFs. We further demonstrated the interaction of Pea3 ETS factors with the Dusp6 promoter both in vitro and in vivo. These results revealed the requirement of ETS factors in transducing FGF signals in developmental processes.

Generation of FGF reporter transgenic zebrafish and their utility in chemical screens.

BACKGROUND: Fibroblast Growth Factors (FGFs) represent a large family of secreted proteins that are required for proper development and physiological processes. Mutations in mouse and zebrafish FGFs result in abnormal embryogenesis and lethality. A key to understanding the precise role for these factors is to determine their spatial and temporal activity during embryogenesis. RESULTS: Expression of Dual Specificity Phosphatase 6 (dusp6, also known as Mkp3) is controlled by FGF signalling throughout development. The Dusp6 promoter was isolated from zebrafish and used to drive expression of destabilized green fluorescent protein (d2EGFP) in transgenic embryos (Tg(Dusp6:d2EGFP)). Expression of d2EGFP is initiated as early as 4 hours post-fertilization (hpf) within the future dorsal region of the embryo, where fgf3 and fgf8 are initially expressed. At later stages, d2EGFP is detected within structures that correlate with the expression of Fgf ligands and their receptors. This includes the mid-hindbrain boundary (MHB), pharyngeal endoderm, otic vesicle, hindbrain, and Kupffer's vesicle. The expression of d2EGFP is under the control of FGF signalling as treatment with FGF Receptor (FGFR) inhibitors results in the suppression of d2EGFP expression. In a pilot screen of commercially available small molecules we have evaluated the effectiveness of the transgenic lines to identify specific FGF inhibitors within the class of indolinones. These compounds were counter screened with the transgenic line Tg(Fli1:EGFP)y1, that serves as an indirect read-out for Vascular Endothelial Growth Factor (VEGF) signalling in order to determine the specificity between related receptor tyrosine kinases (RTKs). From these assays it is possible to determine the specificity of these indolinones towards specific RTK signalling pathways. This has enabled the identification of compounds that can block specifically the VEGFR or the FGFR signalling pathway. CONCLUSION: The generation of transgenic reporter zebrafish lines has allowed direct visualization of FGF signalling within the developing embryo. These FGF reporter transgenic lines provide a tool to screen for specific compounds that can distinguish between two conserved members of the RTK family.