Sherry Zuo scite author profile

Treatment of cells with granulocyte colony-stimulating factor (G-CSF) leads to tyrosine phosphorylation of cellular proteins. G-CSF stimulates both the activation of protein tyrosine kinases Lyn, Jak1, and Jak2 and the association of these enzymes with the G-CSF receptor. Wild-type, lyn-deficient, and syk-deficient chicken B lymphocyte cell lines were transfected with the human G-CSF receptor, and stable transfectants were studied. G-CSF-dependent tyrosyl phosphorylation of Jak1 and Jak2 occurred in all three cell lines. Wild-type and sykdeficient transfectants responded to G-CSF in a doseresponsive fashion with increased thymidine incorporation, but none of the clones of lyn-deficient transfectants did. Ectopic expression of Lyn, but not that of c-Src, in the lyn-deficient cells restored their mitogenic responsiveness to G-CSF. Ectopic expression in wild-type cells of the kinase-inactive form of Lyn, but not of the kinase-inactive form of Jak2, inhibited thymidine incorporation in response to G-CSF. These studies show that the absence of Lyn results in the loss of mitogenic signaling in the G-CSF signaling pathway and that activation of Jak1 or Jak2 is not sufficient to cause mitogenesis.

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Therapeutic targeting of Src-kinase Lyn in myeloid leukemic cell growth

Roginskaya

Zuo

Caudell

et al. 1999

Leukemia

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Protein tyrosine kinases play a major role in promoting cell growth, and their activity in solid tumors is well established. Inhibitors of protein tyrosine kinases are now in advanced clinical trials for the treatment of breast and brain cancers. Because Src-related PTK have been shown to be activated in leukemic cell lines, we studied their activation in human myeloid leuke-mia. Blasts from the majority of patients with acute leukemia showed constitutive activity of the Src kinase Lyn. In contrast, no patient samples showed constitutive activation of Jak2. Genetic and pharmacologic targeting of Lyn was used to determine its contribution to leukemic cell growth. Antisense Lyn oligonucleotide treatment resulted in the inhibition of tritiated thymidine incorporation following GM-CSF stimulation of the factor-dependent line MO7e. The Src kinase inhibitor PD166285 inhibited the growth of human leukemic cell lines and leukemic blasts. When combined with doxorubicin, an additive effect on the inhibition of leukemic cell growth occurred. These studies demonstrate the importance of Src kinases in promoting leu-kemic cell growth and suggests that further development of agents which target Src kinases and their inclusion in multi-drug regimens are warranted for novel therapies of myeloid leukemia.

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Involvement of Shc and Cbl-PI 3-kinase in Lyn-dependent proliferative signaling pathways for G-CSF

et al. 2000

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Sherry Zuo

Requirement of Src Kinase Lyn for Induction of DNA Synthesis by Granulocyte Colony-stimulating Factor

Therapeutic targeting of Src-kinase Lyn in myeloid leukemic cell growth

Involvement of Shc and Cbl-PI 3-kinase in Lyn-dependent proliferative signaling pathways for G-CSF

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