Matthew R. Digby scite author profile

We have cloned the gene for chicken interferon-gamma (ChIFN-gamma) from a cDNA expression library generated from a T cell line (CC8.1h) that produces high levels of IFN-gamma activity. CC8.1h constitutively produces IFN activity that shares physiochemical properties with mammalian IFN-gamma. ChIFN-gamma, when secreted by CC8.1h or expressed in transfected COS cells, is heat labile, inactivated by exposure to pH 2, and capable of inducing nitrite production by chicken macrophages. These properties clearly distinguish it from chicken and mammalian type I IFN. The ChIFN-gamma gene codes for a predicted mature protein of 145 amino acids with a molecular mass of 16.8 kD. There are two potential N-glycosylation sites located near the N terminus. ChIFN-gamma protein shares significant amino acid homology with mammalian IFN-gamma proteins; in particular it also contains the highly conserved motifs that are present in all mammalian IFN-gamma proteins. ChIFN-gamma is 35 and 32% identical to the equine and human counterparts, respectively, but shares only 15% homology with chicken type I IFN. These findings show that the emergence of the two principal types of IFN predates the divergence of avians and mammals that occurred some 350 million years ago.

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Generation and Analysis of Siah2 Mutant Mice

Frew

Hammond

Dickins

et al. 2003

Molecular and Cellular Biology

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Siah proteins function as E3 ubiquitin ligase enzymes to target the degradation of diverse protein substrates. To characterize the physiological roles of Siah2, we have generated and analyzed Siah2 mutant mice. In contrast to Siah1a knockout mice, which are growth retarded and exhibit defects in spermatogenesis, Siah2 mutant mice are fertile and largely phenotypically normal. While previous studies implicate Siah2 in the regulation of TRAF2, Vav1, OBF-1, and DCC, we find that a variety of responses mediated by these proteins are unaffected by loss of Siah2. However, we have identified an expansion of myeloid progenitor cells in the bone marrow of Siah2 mutant mice. Consistent with this, we show that Siah2 mutant bone marrow produces more osteoclasts in vitro than wild-type bone marrow. The observation that combined Siah2 and Siah1a mutation causes embryonic and neonatal lethality demonstrates that the highly homologous Siah proteins have partially overlapping functions in vivo.

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Lactation transcriptomics in the Australian marsupial, Macropus eugenii: transcript sequencing and quantification

Lefèvre

Digby

Whitley³

et al. 2007

BMC Genomics

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In VivoEffects of Chicken Interferon-γ During Infection withEimeria

Lowenthal¹,

York²,

O’Neil³

et al. 1997

Journal of Interferon & Cytokine Research

114

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Newly hatched chickens are highly susceptible to infection by opportunistic pathogens during the first 1 or 2 weeks of life. The use of cytokines as therapeutic agents has been studied in animal models as well as in immunosuppressed patients. This approach has become more feasible in livestock animals, in particular poultry, with the recent cloning of cytokine genes and the development of new technologies, such as live delivery vectors. We have recently cloned the gene for chicken interferon-gamma (Ch-IFN-gamma). Poly-HIS-tagged recombinant Ch-IFN-gamma was expressed in Escherichia coli, was purified by Ni chromatography, and was found to be stable at 4 degrees C and an ambient temperature for at least several months and Several weeks, respectively. Ch-IFN-gamma was capable of protecting chick fibroblasts from undergoing virus-mediated lysis, induced nitrite secretion from chicken macrophages in vitro, and enhanced MHC class II expression on macrophages. Administration of recombinant Ch-IFN-gamma to chickens resulted in enhanced weight gain over a 12-day period. Furthermore, the therapeutic potential of Ch-IFN-gamma was assessed using a coccidial challenge model. Birds were treated with Ch-IFN-gamma or a diluent control and then infected with Eimeria acervulina. Infected birds treated with Ch-IFN-gamma showed improved weight gain relative to noninfected birds. The ability of Ch-IFN-gamma to enhance weight gain in the face of coccidial infection makes it an excellent candidate as a therapeutic agent.

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The anti-apoptotic protein ITA is essential for NGF-mediated survival of embryonic chick neurons

et al. 1999

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The avian ITA is homologous to the baculoviral and mammalian inhibitor of apoptosis (IAP) proteins, which can prevent apoptosis by inhibition of specific caspases. We investigated the role of ITA in embryonic chick sympathetic and dorsal root ganglionic neurons, which depend on nerve growth factor (NGF) for their survival. Within 6 hours, NGF upregulated ITA protein production more than 25-fold in sensory and sympathetic neurons. Overexpression of ITA in primary neurons supported survival of these cells in the absence of NGF, and ita antisense constructs inhibited NGF-mediated survival. Thus the induction of ITA expression seems to be an essential signaling event for survival of sympathetic and dorsal root ganglionic sensory neurons in response to NGF.

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Matthew R. Digby

Cloning and Expression of the Chicken Interferon-γ Gene

Generation and Analysis of Siah2 Mutant Mice

Lactation transcriptomics in the Australian marsupial, Macropus eugenii: transcript sequencing and quantification

In VivoEffects of Chicken Interferon-γ During Infection withEimeria

The anti-apoptotic protein ITA is essential for NGF-mediated survival of embryonic chick neurons

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