Your search keyword '"Grimes, H. Leighton"' showing total 7 results

1. Lsd1 as a therapeutic target in Gfi1-activated medulloblastoma.

Author

Lee, Catherine, Lee, Catherine, Rudneva, Vasilisa A, Erkek, Serap, Zapatka, Marc, Chau, Lianne Q, Tacheva-Grigorova, Silvia K, Garancher, Alexandra, Rusert, Jessica M, Aksoy, Ozlem, Lea, Robin, Mohammad, Helai P, Wang, Jianxun, Weiss, William A, Grimes, H Leighton, Pfister, Stefan M, Northcott, Paul A, Wechsler-Reya, Robert J, Lee, Catherine, Lee, Catherine, Rudneva, Vasilisa A, Erkek, Serap, Zapatka, Marc, Chau, Lianne Q, Tacheva-Grigorova, Silvia K, Garancher, Alexandra, Rusert, Jessica M, Aksoy, Ozlem, Lea, Robin, Mohammad, Helai P, Wang, Jianxun, Weiss, William A, Grimes, H Leighton, Pfister, Stefan M, Northcott, Paul A, and Wechsler-Reya, Robert J

Abstract

Drugs that modify the epigenome are powerful tools for treating cancer, but these drugs often have pleiotropic effects, and identifying patients who will benefit from them remains a major clinical challenge. Here we show that medulloblastomas driven by the transcription factor Gfi1 are exquisitely dependent on the enzyme lysine demethylase 1 (Kdm1a/Lsd1). We demonstrate that Lsd1 physically associates with Gfi1, and that these proteins cooperate to inhibit genes involved in neuronal commitment and differentiation. We also show that Lsd1 is essential for Gfi1-mediated transformation: Gfi1 proteins that cannot recruit Lsd1 are unable to drive tumorigenesis, and genetic ablation of Lsd1 markedly impairs tumor growth in vivo. Finally, pharmacological inhibitors of Lsd1 potently inhibit growth of Gfi1-driven tumors. These studies provide important insight into the mechanisms by which Gfi1 contributes to tumorigenesis, and identify Lsd1 inhibitors as promising therapeutic agents for Gfi1-driven medulloblastoma.

Published

2019

2. Lsd1 as a therapeutic target in Gfi1-activated medulloblastoma.

Author

Lee, Catherine, Lee, Catherine, Rudneva, Vasilisa A, Erkek, Serap, Zapatka, Marc, Chau, Lianne Q, Tacheva-Grigorova, Silvia K, Garancher, Alexandra, Rusert, Jessica M, Aksoy, Ozlem, Lea, Robin, Mohammad, Helai P, Wang, Jianxun, Weiss, William A, Grimes, H Leighton, Pfister, Stefan M, Northcott, Paul A, Wechsler-Reya, Robert J, Lee, Catherine, Lee, Catherine, Rudneva, Vasilisa A, Erkek, Serap, Zapatka, Marc, Chau, Lianne Q, Tacheva-Grigorova, Silvia K, Garancher, Alexandra, Rusert, Jessica M, Aksoy, Ozlem, Lea, Robin, Mohammad, Helai P, Wang, Jianxun, Weiss, William A, Grimes, H Leighton, Pfister, Stefan M, Northcott, Paul A, and Wechsler-Reya, Robert J

Abstract

Drugs that modify the epigenome are powerful tools for treating cancer, but these drugs often have pleiotropic effects, and identifying patients who will benefit from them remains a major clinical challenge. Here we show that medulloblastomas driven by the transcription factor Gfi1 are exquisitely dependent on the enzyme lysine demethylase 1 (Kdm1a/Lsd1). We demonstrate that Lsd1 physically associates with Gfi1, and that these proteins cooperate to inhibit genes involved in neuronal commitment and differentiation. We also show that Lsd1 is essential for Gfi1-mediated transformation: Gfi1 proteins that cannot recruit Lsd1 are unable to drive tumorigenesis, and genetic ablation of Lsd1 markedly impairs tumor growth in vivo. Finally, pharmacological inhibitors of Lsd1 potently inhibit growth of Gfi1-driven tumors. These studies provide important insight into the mechanisms by which Gfi1 contributes to tumorigenesis, and identify Lsd1 inhibitors as promising therapeutic agents for Gfi1-driven medulloblastoma.

Published

2019

3. miR-196b target screen reveals mechanisms maintaining leukemia stemness with therapeutic potential.

Author

Meyer, Sara E., Muench, David E., Rogers, Andrew M., Newkold, Tess J., Orr, Emily, O'Brien, Eric, Perentesis, John P., Doench, John G., Lal, Ashish, Morris, Patrick J., Thomas, Craig J., Lieberman, Judy, McGlinn, Edwina, Aronow, Bruce J., Salomonis, Nathan, Grimes, H. Leighton, Meyer, Sara E., Muench, David E., Rogers, Andrew M., Newkold, Tess J., Orr, Emily, O'Brien, Eric, Perentesis, John P., Doench, John G., Lal, Ashish, Morris, Patrick J., Thomas, Craig J., Lieberman, Judy, McGlinn, Edwina, Aronow, Bruce J., Salomonis, Nathan, and Grimes, H. Leighton

Abstract

We have shown that antagomiR inhibition of miRNA miR-21 and miR-196b activity is sufficient to ablate MLL-AF9 leukemia stem cells (LSC) in vivo. Here, we used an shRNA screening approach to mimic miRNA activity on experimentally verified miR-196b targets to identify functionally important and therapeutically relevant pathways downstream of oncogenic miRNA in MLL-r AML. We found Cdkn1b (p27Kip1) is a direct miR-196b target whose repression enhanced an embryonic stem cell–like signature associated with decreased leukemia latency and increased numbers of leukemia stem cells in vivo. Conversely, elevation of p27Kip1 significantly reduced MLL-r leukemia self-renewal, promoted monocytic differentiation of leukemic blasts, and induced cell death. Antagonism of miR-196b activity or pharmacologic inhibition of the Cks1-Skp2–containing SCF E3-ubiquitin ligase complex increased p27Kip1 and inhibited human AML growth. This work illustrates that understanding oncogenic miRNA target pathways can identify actionable targets in leukemia.

Published

2018

4. DNMT3A Haploinsufficiency Transforms FLT3ITD Myeloproliferative Disease into a Rapid, Spontaneous, and Fully Penetrant Acute Myeloid Leukemia.

Author

Meyer, Sara E, Meyer, Sara E, Qin, Tingting, Muench, David E, Masuda, Kohei, Venkatasubramanian, Meenakshi, Orr, Emily, Suarez, Lauren, Gore, Steven D, Delwel, Ruud, Paietta, Elisabeth, Tallman, Martin S, Fernandez, Hugo, Melnick, Ari, Le Beau, Michelle M, Kogan, Scott, Salomonis, Nathan, Figueroa, Maria E, Grimes, H Leighton, Meyer, Sara E, Meyer, Sara E, Qin, Tingting, Muench, David E, Masuda, Kohei, Venkatasubramanian, Meenakshi, Orr, Emily, Suarez, Lauren, Gore, Steven D, Delwel, Ruud, Paietta, Elisabeth, Tallman, Martin S, Fernandez, Hugo, Melnick, Ari, Le Beau, Michelle M, Kogan, Scott, Salomonis, Nathan, Figueroa, Maria E, and Grimes, H Leighton

Abstract

UnlabelledCytogenetically normal acute myeloid leukemia (CN-AML) represents nearly 50% of human AML. Co-occurring mutations in the de novo DNA methyltransferase DNMT3A and the FMS related tyrosine kinase 3 (FLT3) are common in CN-AML and confer a poorer prognosis. We demonstrate that mice with Flt3-internal tandem duplication (Flt3(ITD)) and inducible deletion of Dnmt3a spontaneously develop a rapidly lethal, completely penetrant, and transplantable AML of normal karyotype. AML cells retain a single Dnmt3a floxed allele, revealing the oncogenic potential of Dnmt3a haploinsufficiency. FLT3(ITD)/DNMT3A-mutant primary human and murine AML exhibit a similar pattern of global DNA methylation associated with changes in the expression of nearby genes. In the murine model, rescuing Dnmt3a expression was accompanied by DNA remethylation and loss of clonogenic potential, suggesting that Dnmt3a-mutant oncogenic effects are reversible. Dissection of the cellular architecture of the AML model using single-cell assays, including single-cell RNA sequencing, identified clonogenic subpopulations that express genes sensitive to the methylation of nearby genomic loci and responsive to DNMT3A levels. Thus, Dnmt3a haploinsufficiency transforms Flt3(ITD) myeloproliferative disease by modulating methylation-sensitive gene expression within a clonogenic AML subpopulation.SignificanceDNMT3A haploinsufficiency results in reversible epigenetic alterations that transform FLT3(ITD)-mutant myeloproliferative neoplasm into AML. Cancer Discov; 6(5); 501-15. ©2016 AACR.This article is highlighted in the In This Issue feature, p. 461.

Published

2016

5. DNMT3A Haploinsufficiency Transforms FLT3ITD Myeloproliferative Disease into a Rapid, Spontaneous, and Fully Penetrant Acute Myeloid Leukemia

Author

Meyer, Sara E, Meyer, Sara E, Qin, Tingting, Muench, David E, Masuda, Kohei, Venkatasubramanian, Meenakshi, Orr, Emily, Suarez, Lauren, Gore, Steven D, Delwel, Ruud, Paietta, Elisabeth, Tallman, Martin S, Fernandez, Hugo, Melnick, Ari, Le Beau, Michelle M, Kogan, Scott, Salomonis, Nathan, Figueroa, Maria E, Grimes, H Leighton, Meyer, Sara E, Meyer, Sara E, Qin, Tingting, Muench, David E, Masuda, Kohei, Venkatasubramanian, Meenakshi, Orr, Emily, Suarez, Lauren, Gore, Steven D, Delwel, Ruud, Paietta, Elisabeth, Tallman, Martin S, Fernandez, Hugo, Melnick, Ari, Le Beau, Michelle M, Kogan, Scott, Salomonis, Nathan, Figueroa, Maria E, and Grimes, H Leighton

Abstract

UnlabelledCytogenetically normal acute myeloid leukemia (CN-AML) represents nearly 50% of human AML. Co-occurring mutations in the de novo DNA methyltransferase DNMT3A and the FMS related tyrosine kinase 3 (FLT3) are common in CN-AML and confer a poorer prognosis. We demonstrate that mice with Flt3-internal tandem duplication (Flt3(ITD)) and inducible deletion of Dnmt3a spontaneously develop a rapidly lethal, completely penetrant, and transplantable AML of normal karyotype. AML cells retain a single Dnmt3a floxed allele, revealing the oncogenic potential of Dnmt3a haploinsufficiency. FLT3(ITD)/DNMT3A-mutant primary human and murine AML exhibit a similar pattern of global DNA methylation associated with changes in the expression of nearby genes. In the murine model, rescuing Dnmt3a expression was accompanied by DNA remethylation and loss of clonogenic potential, suggesting that Dnmt3a-mutant oncogenic effects are reversible. Dissection of the cellular architecture of the AML model using single-cell assays, including single-cell RNA sequencing, identified clonogenic subpopulations that express genes sensitive to the methylation of nearby genomic loci and responsive to DNMT3A levels. Thus, Dnmt3a haploinsufficiency transforms Flt3(ITD) myeloproliferative disease by modulating methylation-sensitive gene expression within a clonogenic AML subpopulation.SignificanceDNMT3A haploinsufficiency results in reversible epigenetic alterations that transform FLT3(ITD)-mutant myeloproliferative neoplasm into AML. Cancer Discov; 6(5); 501-15. ©2016 AACR.This article is highlighted in the In This Issue feature, p. 461.

Published

2016

6. Loss of T cell and B cell quiescence precedes the onset of microbial flora-dependent wasting disease and intestinal inflammation in Gimap5-deficient mice

Author

Barnes, Michael J, Aksoylar, Halil, Krebs, Philippe, Bourdeau, Tristan, Arnold, Carrie N, Xia, Yu, Khovananth, Kevin, Engel, Isaac, Sovath, Sosathya, Lampe, Kristin, Laws, Eleana, Saunders, Amy, Butcher, Geoffrey W, Kronenberg, Mitchell, Steinbrecher, Kris, Hildeman, David, Grimes, H Leighton, Beutler, Bruce, Hoebe, Kasper, Barnes, Michael J, Aksoylar, Halil, Krebs, Philippe, Bourdeau, Tristan, Arnold, Carrie N, Xia, Yu, Khovananth, Kevin, Engel, Isaac, Sovath, Sosathya, Lampe, Kristin, Laws, Eleana, Saunders, Amy, Butcher, Geoffrey W, Kronenberg, Mitchell, Steinbrecher, Kris, Hildeman, David, Grimes, H Leighton, Beutler, Bruce, and Hoebe, Kasper

Abstract

Homeostatic control of the immune system involves mechanisms that ensure the self-tolerance, survival and quiescence of hematopoietic-derived cells. In this study, we demonstrate that the GTPase of immunity associated protein (Gimap)5 regulates these processes in lymphocytes and hematopoietic progenitor cells. As a consequence of a recessive N-ethyl-N-nitrosourea-induced germline mutation in the P-loop of Gimap5, lymphopenia, hepatic extramedullary hematopoiesis, weight loss, and intestinal inflammation occur in homozygous mutant mice. Irradiated fetal liver chimeric mice reconstituted with Gimap5-deficient cells lose weight and become lymphopenic, demonstrating a hematopoietic cell-intrinsic function for Gimap5. Although Gimap5-deficient CD4(+) T cells and B cells appear to undergo normal development, they fail to proliferate upon Ag-receptor stimulation although NF-kappaB, MAP kinase and Akt activation occur normally. In addition, in Gimap5-deficient mice, CD4(+) T cells adopt a CD44(high)CD62L(low)CD69(low) phenotype and show reduced IL-7ralpha expression, and T-dependent and T-independent B cell responses are abrogated. Thus, Gimap5-deficiency affects a noncanonical signaling pathway required for Ag-receptor-induced proliferation and lymphocyte quiescence. Antibiotic-treatment or the adoptive transfer of Rag-sufficient splenocytes ameliorates intestinal inflammation and weight loss, suggesting that immune responses triggered by microbial flora causes the morbidity in Gimap5-deficient mice. These data establish Gimap5 as a key regulator of hematopoietic integrity and lymphocyte homeostasis.

Published

2010

7. Loss of T cell and B cell quiescence precedes the onset of microbial flora-dependent wasting disease and intestinal inflammation in Gimap5-deficient mice

Author

Barnes, Michael J, Aksoylar, Halil, Krebs, Philippe, Bourdeau, Tristan, Arnold, Carrie N, Xia, Yu, Khovananth, Kevin, Engel, Isaac, Sovath, Sosathya, Lampe, Kristin, Laws, Eleana, Saunders, Amy, Butcher, Geoffrey W, Kronenberg, Mitchell, Steinbrecher, Kris, Hildeman, David, Grimes, H Leighton, Beutler, Bruce, Hoebe, Kasper, Barnes, Michael J, Aksoylar, Halil, Krebs, Philippe, Bourdeau, Tristan, Arnold, Carrie N, Xia, Yu, Khovananth, Kevin, Engel, Isaac, Sovath, Sosathya, Lampe, Kristin, Laws, Eleana, Saunders, Amy, Butcher, Geoffrey W, Kronenberg, Mitchell, Steinbrecher, Kris, Hildeman, David, Grimes, H Leighton, Beutler, Bruce, and Hoebe, Kasper

Abstract

Homeostatic control of the immune system involves mechanisms that ensure the self-tolerance, survival and quiescence of hematopoietic-derived cells. In this study, we demonstrate that the GTPase of immunity associated protein (Gimap)5 regulates these processes in lymphocytes and hematopoietic progenitor cells. As a consequence of a recessive N-ethyl-N-nitrosourea-induced germline mutation in the P-loop of Gimap5, lymphopenia, hepatic extramedullary hematopoiesis, weight loss, and intestinal inflammation occur in homozygous mutant mice. Irradiated fetal liver chimeric mice reconstituted with Gimap5-deficient cells lose weight and become lymphopenic, demonstrating a hematopoietic cell-intrinsic function for Gimap5. Although Gimap5-deficient CD4(+) T cells and B cells appear to undergo normal development, they fail to proliferate upon Ag-receptor stimulation although NF-kappaB, MAP kinase and Akt activation occur normally. In addition, in Gimap5-deficient mice, CD4(+) T cells adopt a CD44(high)CD62L(low)CD69(low) phenotype and show reduced IL-7ralpha expression, and T-dependent and T-independent B cell responses are abrogated. Thus, Gimap5-deficiency affects a noncanonical signaling pathway required for Ag-receptor-induced proliferation and lymphocyte quiescence. Antibiotic-treatment or the adoptive transfer of Rag-sufficient splenocytes ameliorates intestinal inflammation and weight loss, suggesting that immune responses triggered by microbial flora causes the morbidity in Gimap5-deficient mice. These data establish Gimap5 as a key regulator of hematopoietic integrity and lymphocyte homeostasis.

Published

2010