Jeff Howard scite author profile

The mechanisms controlling cytokinesis during yeast budding and animal cell fission appear quite different, yet both require members of the septin protein family. Mammalian homologs of this novel family of GTPases have been identified but little is known about their properties or functions. Using an antibody specific for the mammalian septin H5, we show that this protein is expressed at distinct levels in a variety of tissues. Tissue expression levels in different tissues did not coincide with those of the only previously characterized mammalian septin Nedd5. H5, like Nedd5, localizes to the cleavage furrow in mitotic fibroblast cells but in non‐mitotic cells these proteins associate with actin filaments in different ways. Nedd5 predominantly localizes with stress fibers, but only associates with central portions of the microfilament bundles. In contrast, H5 associates with the entire length of the stress fibers and the cortical actin network. Conditions that disrupt the actin cytoskeleton also disrupt the filamentous patterns of both Nedd5 and H5, resulting in a punctate cytoplasmic pattern. Cell fractionation revealed that H5 co‐fractionated with actin, while Nedd5 was predominantly restricted to the membrane fraction. Co‐immunoprecipitation experiments revealed that although H5 will co‐precipitate with Nedd5, the precipitation is not quantitative. Taken together, these results not only show that H5 behaves like a septin, but also demonstrate that individual septin proteins have distinct properties, suggesting that they may play different roles in cytokinesis and in other stages of the cell cycle. Cell Motil. Cytoskeleton 43:52–62, 1999. © 1999 Wiley‐Liss, Inc.

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Loss of p53 in F-MuLV induced-erythroleukemias accelerates the acquisition of mutational events that confers immortality and growth factor independence

Wong

Howard

et al. 1999

Oncogene

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Epo regulates erythroid proliferation and differentiation through distinct signaling pathways: implication for erythropoiesis and Friend virus-induced erythroleukemia

et al. 2000

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We have recently isolated the erythroleukemic cell line, that proliferates in the presence of erythropoietin (Epo) and stem cell factor (SCF), but undergoes terminal di erentiation in the presence of Epo alone. Ectopic expression of the ets related transcription factor Fli-1 in these cells resulted in the establishment of the Epo-dependent cell line HB60-ED that proliferates in the presence of Epo. In this study, we utilized these two cell lines to examine the signal transduction pathways that are activated in response to Epo and SCF stimulation. We demonstrate that Epo, but not SCF, phosphorylates STAT-5 in both HB60-5 and HB60-ED cells. Interestingly, SCF activates the Shc/ras pathway in HB60-5 cells while Epo does not. However, both Epo and SCF are capable of activating the Shc/ras pathway in HB60-ED cells. Furthermore, enforced expression of gp55 in HB60-5 cells by means of infection with the Spleen Focus Forming virus-P (SFFV-P), confers Epo independent growth, which is associated with the up-regulation of Fli-1. Activation of the Shc/ras pathway is readily detected in gp55 expressing cells in response to both Epo and SCF, and is associated with a block in STAT-5B tyrosine phosphorylation. These results suggest that STAT-5 activation, in the absence of Shc/ras activation, plays a role in erythroid di erentiation. Moreover, Fli-1 is capable of switching Epo-induced di erentiation to Epo-induced proliferation, suggesting that this ets factor regulated genes whose products modulate the Epo-Epo-R signal transduction pathway.

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Jeff Howard

Fli-1, an Ets-Related Transcription Factor, Regulates Erythropoietin-Induced Erythroid Proliferation and Differentiation: Evidence for Direct Transcriptional Repression of the Rb Gene during Differentiation

Characterization of the mammalian septin H5: Distinct patterns of cytoskeletal and membrane association from other septin proteins

Loss of p53 in F-MuLV induced-erythroleukemias accelerates the acquisition of mutational events that confers immortality and growth factor independence

Epo regulates erythroid proliferation and differentiation through distinct signaling pathways: implication for erythropoiesis and Friend virus-induced erythroleukemia

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