Alexander Ws scite author profile

Alexander Ws

3Publications

168Citation Statements Received

53Citation Statements Given

How they've been cited

190

160

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Affiliations

Walter and Eliza Hall Institute of Medical Research, Royal Melbourne Hospital, Howard Hughes Medical Institute

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Suckling defect in mice lacking the soluble haemopoietin receptor NR6

Rakar²,

Robb

et al. 1999

Current Biology

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Cytokines control a variety of cellular responses including proliferation, differentiation, survival and functional activation, via binding to specific receptors expressed on the surface of target cells [1]. The cytokine receptors of the haemopoietin family are defined by the presence of a conserved 200 amino acid extracellular domain known as the haemopoietin domain [2]. We report here the isolation of NR6, a haemopoietin receptor that, like the p40 subunit of interleukin-12 (IL-12) [3] and the EBI3 gene induced by Epstein-Barr virus infection in lymphocytes [4], contains a typical haemopoietin domain but lacks transmembrane and cytoplasmic domains. Although in situ hybridisation revealed NR6 expression at multiple sites in the developing embryo, mice lacking NR6 did not display obvious abnormalities and were born in the expected numbers. Neonatal NR6(-/-) mice failed to suckle, however, and died within 24 hours of birth, suggesting that NR6 is necessary for the recognition or processing of pheromonal signals or for the mechanics of suckling itself. In addition, NR6(-/-) mice had reduced numbers of haemopoietic progenitor cells, suggesting a potential role in the regulation of primitive haemopoiesis.

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Aberrant hematopoiesis in mice with inactivation of the gene encoding SOCS-1

Metcalf

Elefanty

et al. 1999

Leukemia

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Mice with homozygous inactivation of the gene encoding the suppressor of cytokine signaling-1 (SOCS-1) protein die within 21 days of birth with low body weight, fatty degeneration and necrosis of the liver, infiltration of the lung, pancreas, heart and skin by macrophages and granulocytes and a profound depletion of T-and B-lymphocytes. In the present study, SOCS-1 −/− mice were found to have a moderate neutrophilia, and reduced platelet and hematocrit levels.

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Oncogene cooperation in lymphocyte transformation: malignant conversion of E mu-myc transgenic pre-B cells in vitro is enhanced by v-H-ras or v-raf but not v-abl.

Ws¹,

Adams²,

Cory³

1989

Mol. Cell. Biol.

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Although transgenic mice bearing a c-myc gene controlled by the immunoglobulin heavy-chain enhancer (E,t) eventually develop B-lymphoid tumors, B-lineage cells from preneoplastic bone marrow express the transgene but do not grow autonomously or produce tumors in mice. To determine whether other oncogenes can cooperate with myc to transform B-lineage cells, we compared the in vitro growth and tumorigenicity of normal and Et-myc bone marrow cells infected with retroviruses bearing the v-H-ras, v-raf, or v-abl oncogene.The v-H-ras and v-raf viruses both generated a rapid polyclonal expansion of E,u-myc pre-B bone marrow cells in liquid culture and 10-to 100-fold more pre-B lymphoid colonies than normal in soft agar. The infected transgenic cells were autonomous, cloned efficiently in agar, and grew as tumors in nude mice. While many pre-B cells from normal marrow could also be induced to proliferate by the v-raf virus, these cells required a stromal feeder layer, did not clone in agar, and were not malignant. Most normal cells stimulated to grow by v-H-ras also cloned poorly in agar, and only rare cells were tumorigenic. With the v-abl virus, no more cells were transformed from E>-myc than normal marrow and the proportion of tumorigenic pre-B clones was not elevated. These results suggest that both v-H-ras and v-raf, but apparently not v-abl, collaborate with constitutive myc expression to promote autonomous proliferation and tumorigenicity of pre-B lymphoid cells.

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Alexander Ws

Suckling defect in mice lacking the soluble haemopoietin receptor NR6

Aberrant hematopoiesis in mice with inactivation of the gene encoding SOCS-1

Oncogene cooperation in lymphocyte transformation: malignant conversion of E mu-myc transgenic pre-B cells in vitro is enhanced by v-H-ras or v-raf but not v-abl.

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