Dawn M. Bryce scite author profile

Ran-binding protein M (RanBPM) is a nucleocytoplasmic protein previously implicated in various signaling pathways, but whose function remains enigmatic. Here, we provide evidence that RanBPM functions as an activator of apoptotic pathways induced by DNA damage. First, transient expression of RanBPM in HeLa cells induced cell death through caspase activation, and in the long-term, forced expression of RanBPM impaired cell viability. RanBPM COOH-terminal domain stimulated the ability of RanBPM to induce caspase activation, whereas this activity was negatively regulated by the central SPRY domain. Second, small interfering RNA-directed knockdown of RanBPM prevented DNA damage-induced apoptosis, as evidenced by the marked reduction in caspase-3 and caspase-2 activation. This correlated with a magnitude fold increase in the survival of RanBPM-depleted cells. Following ionizing radiation treatment, we observed a progressive relocalization of RanBPM from the nucleus to the cytoplasm, suggesting that the activation of apoptotic pathways by RanBPM in response to ionizing radiation may be regulated by nucleocytoplasmic trafficking. Finally, RanBPM downregulation was associated with a marked decrease of mitochondria-associated Bax, whereas Bcl-2 overall levels were dramatically upregulated. Overall, our results reveal a novel proapoptotic function for RanBPM in DNA damage-induced apoptosis through the regulation of factors involved in the mitochondrial apoptotic pathway.

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Impaired Hair Follicle Morphogenesis and Polarized Keratinocyte Movement upon Conditional Inactivation of Integrin-linked Kinase in the Epidermis

Nakrieko

Welch

Dupuis

et al. 2008

MBoC

101

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Integrin-linked kinase (ILK) is key for cell survival, migration, and adhesion, but little is known about its role in epidermal development and homeostasis in vivo. We generated mice with conditional inactivation of the Ilk gene in squamous epithelia. These mice die perinatally and exhibit skin blistering and severe defects in hair follicle morphogenesis, including greatly reduced follicle numbers, failure to progress beyond very early developmental stages, and pronounced defects in follicular keratinocyte proliferation. ILK-deficient epidermis shows abnormalities in adhesion to the basement membrane and in differentiation. ILK-deficient cultured keratinocytes fail to attach and spread efficiently and exhibit multiple abnormalities in actin cytoskeletal organization. Ilk gene inactivation in cultured keratinocytes causes impaired ability to form stable lamellipodia, to directionally migrate, and to polarize. These defects are accompanied by abnormal distribution of active Cdc42 to cell protrusions, as well as reduced activation of Rac1 upon induction of cell migration in scraped keratinocyte monolayers. Significantly, alterations in cell spreading and forward movement in single cells can be rescued by expression of constitutively active Rac1 or RhoG. Our studies underscore a central and distinct role for ILK in hair follicle development and in polarized cell movements, two key aspects of epithelial morphogenesis and function.

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Characterization and developmental expression of Tlx-1, the murine homolog of HOX11

Raju

Tang

Dubé

et al. 1993

Mechanisms of Development

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A model for spontaneous B-lineage lymphomas inIgH_μ-HOX11transgenic mice

Hough

Reis

Singaraja

et al. 1998

Proc. Natl. Acad. Sci. U.S.A.

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HOX11, a divergent homeodomain-containing transcription factor, was isolated from the breakpoint of the nonrandom t(10;14)(q24;q11) chromosome translocation found in human T cell acute lymphoblastic leukemias. The translocation places the HOX11 coding sequence under the transcriptional control of TCR ␣͞␦ regulatory elements, resulting in ectopic expression of a normal HOX11 protein in thymocytes. To investigate the oncogenic potential of HOX11, we targeted its expression in lymphocytes of transgenic mice by placing the human cellular DNA under the transcriptional control of Ig heavy chain or LCK regulatory sequences. Only IgH -HOX11 mice expressing low levels of HOX11 were viable. During their second year of life, all HOX11 transgenic mice became terminally ill with more than 75% developing large cell lymphomas in the spleen, which frequently disseminated to thymus, lymph nodes, and other nonhematopoietic tissues. Lymphoma cells were predominantly clonal IgM ؉ IgD ؉ mature B cells. Repopulation of severe combined immunodeficient mice with cells from hyperplastic spleens indicated that the HOX11 tumor phenotype was transplantable. Before tumor development, expression of the transgene did not result in perturbations in lymphopoiesis; however, lymphoid hyperplasia involving the splenic marginal zones was present in 20% of spleens. Our studies provide direct evidence that expression of HOX11 in lymphocytes leads to malignant transformation. These mice are a useful model system to study mechanisms involved in transformation from B-lineage hyperplasia to malignant lymphoma and for testing novel approaches to therapy. They represent a novel animal model for non-Hodgkin's lymphoma of peripheral mature B cell origin.

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Dawn M. Bryce

RanBPM Has Proapoptotic Activities That Regulate Cell Death Pathways in Response to DNA Damage

Impaired Hair Follicle Morphogenesis and Polarized Keratinocyte Movement upon Conditional Inactivation of Integrin-linked Kinase in the Epidermis

Characterization and developmental expression of Tlx-1, the murine homolog of HOX11

A model for spontaneous B-lineage lymphomas inIgH_μ-HOX11transgenic mice

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Dawn M. Bryce

RanBPM Has Proapoptotic Activities That Regulate Cell Death Pathways in Response to DNA Damage

Impaired Hair Follicle Morphogenesis and Polarized Keratinocyte Movement upon Conditional Inactivation of Integrin-linked Kinase in the Epidermis

Characterization and developmental expression of Tlx-1, the murine homolog of HOX11

A model for spontaneous B-lineage lymphomas inIgHμ-HOX11transgenic mice

Contact Info

Product

Resources

About

A model for spontaneous B-lineage lymphomas inIgH_μ-HOX11transgenic mice