Your search keyword '"Klefstrom, P."' showing total 9 results

1. 3D view to tumor suppression: lkb1, polarity and the arrest of oncogenic c-myc

Author

Partanen, Johanna I., Nieminen, Anni I., and Klefstrom, Juha

Abstract

Machiavelli wrote, in his famous political treatise Il Principe, about disrupting organization by planting seeds of dissension or by eliminating necessary support elements. Tumor cells do exactly that by disrupting the organized architecture of epithelial cell layers during progression from contained benign tumor to full-blown invasive cancer. However, it is still unclear whether tumor cells primarily break free by activating oncogenes powerful enough to cause chaos or by eliminating tumor suppressor genes guarding the order of the epithelial organization. Studies in Drosophila have exposed genes that encode key regulators of the epithelial apicobasal polarity and which, upon inactivation, cause disorganization of the epithelial layers and promote unscheduled cell proliferation. These polarity regulator/tumor suppressor proteins, which include products of neoplastic tumor suppressor genes (nTSGs), are carefully positioned in polarized epithelial cells to maintain the order of epithelial structures and to impose a restraint on cell proliferation. In this review, we have explored the presence and prevalence of somatic mutations in the human counterparts of Drosophila polarity regulator/tumor suppressor genes across the human cancers. The screen points out LKB1, which is a causal genetic lesion in Peutz-Jeghers cancer syndrome, a gene mutated in certain sporadic cancers and a human homologue of the fly polarity gene par-4. We review the evidence linking Lkb1 to polarity regulation in the scope of our recent results suggesting a coupled role for Lkb1 as an architect of organized acinar structures and a suppressor of oncogenic c-Myc. We finally present models to explain how Lkb1-dependent formation of epithelial architecture is coupled to suppression of normal and oncogene-induced proliferation.

Published

2009

2. c-Myc Blazing a Trail of Death: Coupling of the Mitochondrial and Death Receptor Apoptosis Pathways by c-Myc

Author

Nieminen, Anni I., Partanen, Johanna I., and Klefstrom, Juha

Abstract

TRAIL ligand induces selectively apoptosis in tumor cells by binding to two death receptors (DR4 and DR5) and holds promise as a potential therapeutic agent against cancer. While it has been known for long time that TRAIL receptors are commonly expressed in wide variety of normal tissues, it is not well understood why TRAIL kills tumor cells but leaves normal cells unharmed. The prototypic oncogene c-Myc promotes the cell cycle and simultaneously primes activation of the Bcl-2 family controlled mitochondria apoptosis pathway. A striking reflection of the c-Myc-dependent apoptotic sensitization is the dramatic c-Myc-induced vulnerability of cells to TRAIL and other death receptor ligands. Here we summarize the recent findings regarding the death mechanisms of TRAIL/TRAIL receptor system and the connection of c-Myc to the mitochondrial apoptosis pathway, focusing on our work that couples c-Myc via Bak to the TRAIL death receptor pathway. Finally, we present a mitochondria-priming model to explain how c-Myc-Bak interaction amplifies the TRAIL-induced caspase 8-Bid pathway to induce fullblown apoptosis. We discuss the implications of these findings for understanding the selective cytotoxicity of TRAIL and for the therapeutic exploitation of the death receptor pathway.

Published

2007

3. c-Myc augments the apoptotic activity of cytosolic death receptor signaling proteins by engaging the mitochondrial apoptotic pathway.

Author

Klefstrom, Juha, Verschuren, Emmy W, and Evan, Gerard

Abstract

Activation of c-Myc sensitizes cells to apoptosis induction by ligand-activated death receptors. Such sensitization to death receptors by oncogenes may well be the mechanism underlying tumor cell sensitivity to tumor necrosis factor (TNF) or TNF-related apoptosis-inducing ligand (TRAIL). The mechanism by which this c-Myc-induced sensitization occurs is unclear but could involve modulation of expression of death receptors or their ligands or potentiation of the sensitivity of mitochondria to release pro-apoptotic effectors such as holocytochrome c. Here, we show that ectopic expression of the death receptor signaling protein RIP (receptor-interactive protein) triggers apoptosis via a FAS-associated death domain protein (FADD) and caspase 8-dependent pathway. Induction of apoptosis by this intracellular activation of the death receptor signaling pathway is significantly augmented by c-Myc expression. Moreover, c-Myc expression strongly promotes the potential of RIP to induce cytochrome c release from mitochondria. This implicates the mitochondrial apoptotic pathway in this synergy, a notion confirmed by the inability of c-Myc to sensitize to RIP killing in cells lacking the obligate mitochondrial apoptotic effectors Bax and Bak. We conclude that the lethality of the RIP-activated cytosolic caspase 8 pathway is augmented by c-Myc priming mitochondria to release cytochrome c. This places the intersection of apoptotic synergy between c-Myc and death receptor signaling downstream of the death receptors.

Published

2002

4. c‐Myc induces cellular susceptibility to the cytotoxic action of TNF‐alpha.

Author

Klefstrom, J., Västrik, I., Saksela, E., Valle, J., Eilers, M., and Alitalo, K.

Abstract

Tumor necrosis factor‐alpha (TNF) is a multifunctional cytokine which is cytotoxic for some tumor cells and transformed cells. The molecular mechanisms which render transformed and tumor cells sensitive to the cytotoxic action of TNF are unclear. We show here that an increased expression of the c‐Myc oncoprotein strongly increases cellular sensitivity to TNF cytotoxicity. In Rat1A fibroblasts, which are resistant to TNF, the addition of TNF with a concomitant activation of a hormone‐inducible c‐Myc‐estrogen receptor chimera (MycER) resulted in apoptotic cell death. Similarly, c‐Myc overexpression enhanced the sensitivity of NIH3T3 fibroblasts to TNF‐induced death. The c‐Myc and TNF‐induced apoptosis was inhibited by ectopic expression of the Bcl2 oncoprotein and by the free oxygen radical scavenging enzyme Mn superoxide dismutase. Furthermore, in highly TNF‐sensitive fibrosarcoma cells, antisense c‐myc oligodeoxynucleotides caused a specific inhibition of TNF cytotoxicity. Our results suggest that the deregulation of c‐Myc, which is common in human tumors and tumor cell lines is one reason why these cells are TNF sensitive.

Published

1994

5. BCL2 Overexpression Associated With Chromosomal Amplification in Diffuse Large B-Cell Lymphoma

Author

Monni, Outi, Joensuu, Heikki, Franssila, Kaarle, Klefstrom, Juha, Alitalo, Kari, and Knuutila, Sakari

Abstract

Gene activation by translocation between an oncogene and an immunoglobulin heavy-chain gene, which leads to increased expression of the oncoprotein, is a well-known mechanism in the genesis of B-cell lymphomas. In contrast, the role of gene amplification in activation of oncogenes in non-Hodgkin's lymphomas is poorly characterized. To study the BCL2 amplification we performed comparative genomic hybridization (CGH), Southern blot hybridization, Western analysis, immunohistochemistry, metaphase fluorescence in situ hybridization, and chromosome analysis on 26 cases of diffuse large B-cell lymphoma (large noncleaved cell lymphoma). The gain or high-level amplification of 18q was found in eight tumors (31%) by CGH, and Southern analysis revealed BCL2 amplification in these cases, but not in the cases with normal chromosome 18 or t(14; 18)(q32; q21). Western immunoblot analysis and immunohistochemistry revealed a high-level expression of BCL2 protein in the cases with BCL2 amplification and t(14; 18)(q32; q21). However, translocation (14; 18)(q32; q21) was not detected in any of the cases with BCL2 amplification. Therefore, our results suggest that amplification of the BCL2 gene is an important mechanism for BCL2 protein overexpression in diffuse large B-cell lymphoma.

Published

1997

6. Similarities between TNF and exogenous oxidants on the cytotoxic response of c-Myc-expressing fibroblasts in vitro

Author

Kinnula, V. L., Aito, H., Klefstrom, J., Alitalo, K., and Raivio, K. O.

Published

1998

7. c‐Myc induces cellular susceptibility to the cytotoxic action of TNF‐alpha.

Author

Klefstrom, J., Västrik, I., Saksela, E., Valle, J., Eilers, M., and Alitalo, K.

Abstract

Tumor necrosis factor‐alpha (TNF) is a multifunctional cytokine which is cytotoxic for some tumor cells and transformed cells. The molecular mechanisms which render transformed and tumor cells sensitive to the cytotoxic action of TNF are unclear. We show here that an increased expression of the c‐Myc oncoprotein strongly increases cellular sensitivity to TNF cytotoxicity. In Rat1A fibroblasts, which are resistant to TNF, the addition of TNF with a concomitant activation of a hormone‐inducible c‐Myc‐estrogen receptor chimera (MycER) resulted in apoptotic cell death. Similarly, c‐Myc overexpression enhanced the sensitivity of NIH3T3 fibroblasts to TNF‐induced death. The c‐Myc and TNF‐induced apoptosis was inhibited by ectopic expression of the Bcl2 oncoprotein and by the free oxygen radical scavenging enzyme Mn superoxide dismutase. Furthermore, in highly TNF‐sensitive fibrosarcoma cells, antisense c‐myc oligodeoxynucleotides caused a specific inhibition of TNF cytotoxicity. Our results suggest that the deregulation of c‐Myc, which is common in human tumors and tumor cell lines is one reason why these cells are TNF sensitive.

Published

1994

8. Major and minor breakpoint sites of chromosomal translocation t(14;18) in subtypes of non-Hodgkin's lymphomas

Author

Klefstrom, J., Franssila, K., Peltomaeki, P., and Kaartinen, M.

Published

1994

9. Levamisole in the treatment of stage II breast cancer Five-year follow-up of a randomized double-blind study

Author

Klefstrom, P

Published

1986