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Your search keyword '"Reddy, E. Premkumar"' showing total 8 results
Start Over Author "Reddy, E. Premkumar" Publisher national academy of sciences
8 results on '"Reddy, E. Premkumar"'

1. Conditional c-myb knockout in adult hematopoietic stem cells leads to loss of self-renewal due to impaired proliferation and accelerated differentiation

Author

Lieu, Yen K. and Reddy, E. Premkumar

Subjects
Hematopoietic stem cells -- Properties, Cell differentiation -- Research, Science and technology
Abstract

Hematopoietic stem cells (HSCs) have a unique capacity to undergo self-renewal and multi-lineage differentiation to provide a lifetime supply of mature blood cells. By using conditional knockout technology, we disrupted the c-myb proto-oncogene specifically in adult bone marrow (BM) to demonstrate that this transcription factor is a regulator of self-renewal and multi-lineage differentiation of adult HSCs. Targeted disruption of the c-myb gene resulted in a critical depletion of the HSC pool. In addition, BM hematopoiesis in adult mice was impaired, resulting in profound reductions of various hematopoietic lineages including neutrophilic, monocytic, B lymphoid, erythroid, and, unexpectedly, megakaryocytic cells. Serial BM transplantation into lethally irradiated recipient mice indicated an essential role for c-myb in the self-renewal process. Furthermore, in vitro functional assays demonstrated that deletion of the c-myb gene leads to a slightly reduced proliferative capacity and an aberrant and accelerated differentiation of HSCs. In addition to long-term HSCs, functional studies also show that c-myb plays a critical role in short-term HSCs and multi-potential progenitors. Collectively, our data indicate a critical role for c-myb in adult BM hematopoiesis and in self-renewal and multi-lineage differentiation of adult HSCs. hematopoiesis | proto-oncogene | development | bone marrow doi/10.1073/pnas.0907623106

Published
2009

2. A non-ATP-competitive inhibitor of BCR-ABL overrides imatinib resistance

Author

Gumireddy, Kiranmai, Baker, Stacey J., Cosenza, Stephen C., John, Premila, Kang, Anthony D., Robell, Kimberly A., Reddy, M.V. Ramana, and Reddy, E. Premkumar

Subjects
Chronic myeloid leukemia -- Care and treatment, Chronic myeloid leukemia -- Research, Science and technology
Abstract

Imatinib, which is an inhibitor of the BCR-ABL tyrosine kinase, has been a remarkable success for the treatment of Philadelphia chromosome-positive ([Ph.sup.+]) chronic myelogenous leukemias (CMLs). However, a significant proportion of patients chronically treated with imatinib develop resistance because of the acquisition of mutations in the kinase domain of BCR-ABL. Mutations occur at residues directly implicated in imatinib binding or, more commonly, at residues important for the ability of the kinase to adopt the specific closed (inactive) conformation to which imatinib binds. In our quest to develop new BCR-ABL inhibitors, we chose to target regions outside the ATP-binding site of this enzyme because these compounds offer the potential to be unaffected by mutations that make CML cells resistant to imatinib. Here we describe the activity of one compound, ON012380, that can specifically inhibit BCR-ABL and induce cell death of [Ph.sup.+] CML cells at a concentration of 100 mg/kg concentration of this agent is well tolerated in rodents, without any hematotoxicity. ON012380 | substrate-competitive | Gleevec

Published
2005

3. Requirement of c-myb in T cell development and in mature T cell function

Author

Lieu, Yen K., Kumar, Atul, Pajerowski, Anthony G., Rogers, Thomas J., and Reddy, E. Premkumar

Subjects
T cells -- Research, Science and technology
Abstract

Previous reports have suggested that the protooncogene c-myb participates in T cell development in the thymus and mature T cell proliferation. We have generated two T cell-specific c-myb knockout mouse models, myb/LckCre and myb/CD4Cre. We have demonstrated that c-myb is required for the development of thymocytes at the DN3 stage, for survival and proliferation of double-positive thymocytes, for differentiation of single-positive CD4 and CD8 T cells, and for the proliferative responses of mature T cells. In addition, our data show that c-myb is directly involved in the formation of double-positive CD4+CDS+CD25+, CD4+CD25+, and CD8+CD25+ T cells, developmental processes that may imply a role for c-myb in autoimmune dysfunction.

Published
2004

4. JLP: a scaffolding protein that tethers JNK/p38MAPK signaling modules and transcription factors

Author

Lee, Clement M., Onesime, Djamila, Reddy, C. Damodara, Dhanasekaran, N., and Reddy, E. Premkumar

Subjects
Protein kinases -- Physiological aspects, Leucine -- Physiological aspects, Science and technology
Abstract

Extracellular signals are transduced into cells through mitogenactivated protein kinases (MAPKs), which are activated by their upstream kinases. Recently, families of scaffolding proteins have been identified to tether specific combinations of these kinases along specific signaling pathways. Here we describe a protein, JLP (c-Jun NH2-terminal kinase-associated leucine zipper protein), which acts as a scaffolding protein to bring together Max and c-Myc along with JNK (c-Jun NH2-terminal kinase) and p38MAPK, as well as their upstream kinases MKK4 (MAPK kinase 4) and MEKK3 (MAPK kinase kinase 3). Thus, JLP defines a family of scaffolding proteins that bring MAPKs and their target transcription factors together for the execution of specific signaling pathways.

Published
2002

5. Myb and Ets proteins cooperate in transcriptional activation of the mim-1 promoter

Author

Dudek, Henryk, Tantravahi, Ramana V., Rao, Veena N., Reddy, E. Shyam P., and Reddy, E. Premkumar

Subjects
Genetic transcription -- Regulation, Carcinogenesis -- Genetic aspects, Science and technology
Abstract

The mim-1 gene contains a Myb-binding site in its promoter and is transcriptionally trans-activated by v-Myb protein. In the acutely transformingavian retrovirus E26, the association of Myb and Ets proteins has been shown. In studying the regulation of the mim-1 promoter, the Myb protein was not sufficient for trans-activation, although the truncated form of the protein was. However, the presence of Ets-2 with Myb significantly increased promoter activation. The results indicate that Myb and Ets act cooperatively to activatetranscription of mim-1, and the truncated Myb has a reduced requirement for Ets.

Published
1992

6. Requirement of c-myb in I cell development and in mature I cell function.

Author

Lieu, Yen K., Kumar, Atul, Pajerowski, Anthony G., Rogers, Thomas J., and Reddy, E. Premkumar

Subjects
ENDOCRINE glands, LYMPHOID tissue, CELL proliferation, CELL growth, LYMPHOCYTES, T cells
Abstract

Previous reports have suggested that the protooncogene c-myb participates in T cell development in the thymus and mature T cell proliferation. We have generated two T cell-specific c-myb knockout mouse models, myb/Lckcre and myb/CD4Cre. We have demonstrated that c-myb is required for the development of thymocytes at the DN3 stage, for survival and proliferation of double-positive thymocytes, for differentiation of single-positive CD4 and CD8 T cells, and for the proliferative responses of mature T cells. In addition, our data show that c-myb is directly involved in the formation of double-positive CD4+CD8+CD25+, CD4+CD25+, and CD8+CD25+ T cells, developmental processes that may imply a role for c-myb in autoimmune dysfunction. [ABSTRACT FROM AUTHOR]

Published
2004
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7. B-myb is an essential regulator of hematopoietic stem cell and myeloid progenitor cell development.

Author

Baker SJ, Ma'ayan A, Lieu YK, John P, Reddy MV, Chen EY, Duan Q, Snoeck HW, and Reddy EP

Subjects
Animals, Bone Marrow Transplantation, Crosses, Genetic, DNA Primers genetics, Flow Cytometry, Immunoblotting, Mice, Mice, Inbred C57BL, Microarray Analysis, Reverse Transcriptase Polymerase Chain Reaction, Cell Cycle Proteins metabolism, Cell Differentiation physiology, Hematopoiesis physiology, Hematopoietic Stem Cells physiology, Myeloid Progenitor Cells physiology, Trans-Activators metabolism
Abstract

The B-myb (MYBL2) gene is a member of the MYB family of transcription factors and is involved in cell cycle regulation, DNA replication, and maintenance of genomic integrity. However, its function during adult development and hematopoiesis is unknown. We show here that conditional inactivation of B-myb in vivo results in depletion of the hematopoietic stem cell (HSC) pool, leading to profound reductions in mature lymphoid, erythroid, and myeloid cells. This defect is autonomous to the bone marrow and is first evident in stem cells, which accumulate in the S and G2/M phases. B-myb inactivation also causes defects in the myeloid progenitor compartment, consisting of depletion of common myeloid progenitors but relative sparing of granulocyte-macrophage progenitors. Microarray studies indicate that B-myb-null LSK(+) cells differentially express genes that direct myeloid lineage development and commitment, suggesting that B-myb is a key player in controlling cell fate. Collectively, these studies demonstrate that B-myb is essential for HSC and progenitor maintenance and survival during hematopoiesis.

Published
2014
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