BACKGROUND: The Pim-1 33-kDa protein is a serine/threonine protein kinase that is capable of enhancing the rate of occurrence of c-Myc-induced lymphomas, and functions to block factor-withdrawal and genotoxic stress-induced apoptosis. MATERIALS AND METHODS: We used human lymphoma samples and tissue culture cells to examine the cellular location of this protein and its mechanism of action. RESULTS: We found that Pim-1 can be located in the cytoplasm, the cytoplasm and nucleus, or the nucleus of cells of normal lymph nodes, but is only located in the nucleus in Burkitt's lymphoma cells. On transfection of Pim-1 into HeLa cells, a nuclear localization is observed that is not dependent upon kinase activity, but appears to be regulated by the carboxy terminal half of the protein. Because Pim-1 is known to regulate apoptosis and human Mdm2 (HDM2) contains a consensus Pim-1 phosphorylation site, the possible role of Pim-1 in modulating HDM2 was examined. When Pim-1 and HDM2 are transfected transiently into 293 cells, the presence of Pim-1 results in an increase in the levels of the HDM2 protein. This effect requires the presence of the entire HDM2 protein. Export of Pim-1 out of the nucleus by attachment of a nuclear export signal decreased its ability to regulate the levels of HDM2 protein. CONCLUSION: The nuclear location of Pim-1 is essential for its regulation of the levels of HDM2 protein, and possibly for additional biological activities of this protein kinase.
BACKGROUND: The Pim-1 33-kDa protein is a serine/threonine protein kinase that is capable of enhancing the rate of occurrence of c-Myc-induced lymphomas, and functions to block factor-withdrawal and genotoxic stress-induced apoptosis. MATERIALS AND METHODS: We used humanlymphoma samples and tissue culture cells to examine the cellular location of this protein and its mechanism of action. RESULTS: We found that Pim-1 can be located in the cytoplasm, the cytoplasm and nucleus, or the nucleus of cells of normal lymph nodes, but is only located in the nucleus in Burkitt's lymphoma cells. On transfection of Pim-1 into HeLa cells, a nuclear localization is observed that is not dependent upon kinase activity, but appears to be regulated by the carboxy terminal half of the protein. Because Pim-1 is known to regulate apoptosis and humanMdm2 (HDM2) contains a consensus Pim-1 phosphorylation site, the possible role of Pim-1 in modulating HDM2 was examined. When Pim-1 and HDM2 are transfected transiently into 293 cells, the presence of Pim-1 results in an increase in the levels of the HDM2 protein. This effect requires the presence of the entire HDM2 protein. Export of Pim-1 out of the nucleus by attachment of a nuclear export signal decreased its ability to regulate the levels of HDM2 protein. CONCLUSION: The nuclear location of Pim-1 is essential for its regulation of the levels of HDM2 protein, and possibly for additional biological activities of this protein kinase.
Authors: Beverly W Baron; John Anastasi; Elizabeth M Hyjek; Juraj Bies; Poluru L Reddy; Jingfang Dong; Loren Joseph; Michael J Thirman; Kristen Wroblewski; Linda Wolff; Joseph M Baron Journal: Proc Natl Acad Sci U S A Date: 2012-03-26 Impact factor: 11.205
Authors: Kimberlee M Fischer; Christopher T Cottage; Mathias H Konstandin; Mirko Völkers; Mohsin Khan; Mark A Sussman Journal: J Mol Cell Cardiol Date: 2011-01-19 Impact factor: 5.000