Your search keyword '"Lebedeva, Maria A."' showing total 7 results

1. Cytokinin biosynthesis genes expressed during nodule organogenesis are directly regulated by the KNOX3 protein in Medicago truncatula.

Author

Azarakhsh M, Rumyantsev AM, Lebedeva MA, and Lutova LA

Subjects

Gene Expression Regulation, Developmental, Homeodomain Proteins genetics, Medicago truncatula growth & development, Plant Proteins genetics, Promoter Regions, Genetic, Transcription Factors genetics, Cytokinins biosynthesis, Gene Expression Regulation, Plant, Homeodomain Proteins metabolism, Medicago truncatula genetics, Plant Proteins metabolism, Transcription Factors metabolism

Abstract

Cytokinin is an important regulator of symbiotic nodule development. Recently, KNOTTED1-LIKE HOMEOBOX 3 transcription factor (TF) was shown to regulate symbiotic nodule development possibly via the activation of cytokinin biosynthesis genes. However, the direct interaction between the KNOX3 TF and its target genes has not been investigated up to date. Here, using EMSA analysis and SPR-based assay, we found that MtKNOX3 homeodomain directly binds to the regulatory sequences of the MtLOG1, MtLOG2, and MtIPT3 genes involved in nodulation in Medicago truncatula. Moreover, we showed that MtLOG2 and MtIPT3 expression patterns partially overlap with MtKNOX3 expression in developing nodules as it was shown by promoter:GUS analysis. Our data suggest that MtKNOX3 TF may directly activate the MtLOG1, MtLOG2, and MtIPT3 genes during nodulation thereby increasing cytokinin biosynthesis in developing nodules., Competing Interests: The authors have declared that no competing interests exist.

Published

2020

2. Transforming growth factor-beta1 inhibition of vascular smooth muscle cell activation is mediated via Smad3.

Author

Feinberg MW, Watanabe M, Lebedeva MA, Depina AS, Hanai J, Mammoto T, Frederick JP, Wang XF, Sukhatme VP, and Jain MK

Subjects

Animals, Arteriosclerosis etiology, Arteriosclerosis metabolism, CCAAT-Enhancer-Binding Protein-delta, CCAAT-Enhancer-Binding Proteins biosynthesis, DNA-Binding Proteins genetics, Inflammation metabolism, Nitric Oxide Synthase biosynthesis, Nitric Oxide Synthase Type II, Rats, Signal Transduction physiology, Smad3 Protein, Trans-Activators genetics, Transforming Growth Factor beta1, DNA-Binding Proteins metabolism, Muscle, Smooth, Vascular physiology, Trans-Activators metabolism, Transcription Factors, Transforming Growth Factor beta metabolism

Abstract

Activation of vascular smooth muscle cells (VSMCs) by proinflammatory cytokines is a key feature of atherosclerotic lesion formation. Transforming growth factor (TGF)-beta1 is a pleiotropic growth factor that can modulate the inflammatory response in diverse cell types including VSMCs. However, the mechanisms by which TGF-beta1 is able to mediate these effects remains incompletely understood. We demonstrate here that the ability of TGF-beta1 to inhibit markers of VSMC activation, inducible nitric-oxide synthase (iNOS) and interleukin (IL)-6, is mediated through its downstream effector Smad3. In reporter gene transfection studies, we found that among a panel of Smads, Smad3 could inhibit iNOS induction in an analogous manner as exogenous TGF-beta1. Adenoviral overexpression of Smad3 potently repressed inducible expression of endogenous iNOS and IL-6. Conversely, TGF-beta1 inhibition of cytokine-mediated induction of iNOS and IL-6 expression was completely blocked in Smad3-deficient VSMCs. Previous studies demonstrate that CCAAT/enhancer-binding protein (C/EBP) and NF-kappaB sites are critical for cytokine induction of both the iNOS and IL-6 promoters. We demonstrate that the inhibitory effect of Smad3 occurs via a novel antagonistic effect of Smad3 on C/EBP DNA-protein binding and activity. Smad3 mediates this effect in part by inhibiting C/EBP-beta and C/EBP-delta through distinct mechanisms. Furthermore, we find that Smad3 prevents the cooperative induction of the iNOS promoter by C/EBP and NF-kappaB. These data demonstrate that Smad3 plays an essential role in mediating TGF-beta1 anti-inflammatory response in VSMCs.

Published

2004

3. Functional Modules in the Meristems: "Tinkering" in Action.

Author

Kuznetsova, Ksenia, Efremova, Elena, Dodueva, Irina, Lebedeva, Maria, and Lutova, Ludmila

Subjects

MERISTEMS, PHASE transitions, PLANT breeding, PEPTIDES, TRANSCRIPTION factors

Abstract

Background: A feature of higher plants is the modular principle of body organisation. One of these conservative morphological modules that regulate plant growth, histogenesis and organogenesis is meristems—structures that contain pools of stem cells and are generally organised according to a common principle. Basic content: The development of meristems is under the regulation of molecular modules that contain conservative interacting components and modulate the expression of target genes depending on the developmental context. In this review, we focus on two molecular modules that act in different types of meristems. The WOX-CLAVATA module, which includes the peptide ligand, its receptor and the target transcription factor, is responsible for the formation and control of the activity of all meristem types studied, but it has its own peculiarities in different meristems. Another regulatory module is the so-called florigen-activated complex, which is responsible for the phase transition in the shoot vegetative meristem (e.g., from the vegetative shoot apical meristem to the inflorescence meristem). Conclusions: The review considers the composition and functions of these two functional modules in different developmental programmes, as well as their appearance, evolution and use in plant breeding. [ABSTRACT FROM AUTHOR]

Published

2023

4. Loss of p53 causes mitochondrial DNA depletion and altered mitochondrial reactive oxygen species homeostasis

Author

Lebedeva, Maria A., Eaton, Jana S., and Shadel, Gerald S.

Subjects

*TUMOR suppressor proteins, *CELLULAR signal transduction, *MITOCHONDRIAL DNA, *TRANSCRIPTION factors, *REACTIVE oxygen species, *MUTAGENESIS, *HOMEOSTASIS

Abstract

Abstract: In addition to its central role in cellular stress signaling, the tumor suppressor p53 modulates mitochondrial respiration through its nuclear transcription factor activity and localizes to mitochondria, where it enhances apoptosis and suppresses mitochondrial DNA (mtDNA) mutagenesis. Here we demonstrate a new conserved role for p53 in mtDNA copy number maintenance and mitochondrial reactive oxygen species (ROS) homeostasis. In mammals, mtDNA is present at thousands of copies per cell and is essential for normal development and cell function. We show that p53 null mouse and p53 knockdown human primary fibroblasts exhibit mtDNA depletion and decreased mitochondrial mass under normal culture growth conditions. This is accompanied by a reduction of the p53R2 subunit of ribonucleotide reductase mRNA and protein and of mitochondrial transcription factor A (mtTFA) at the protein level only. Finally, p53-depleted cells exhibit significant disruption of cellular ROS homeostasis, characterized by reduced mitochondrial and cellular superoxide levels and increased cellular hydrogen peroxide. Altogether, these results elucidate additional mitochondria-related functions for p53 and implicate mtDNA depletion and ROS alterations as potentially relevant to cellular transformation, cancer cell phenotypes, and the Warburg Effect. [Copyright &y& Elsevier]

Published

2009

5. At the Root of Nodule Organogenesis: Conserved Regulatory Pathways Recruited by Rhizobia.

Author

Lebedeva, Maria, Azarakhsh, Mahboobeh, Sadikova, Darina, and Lutova, Lyudmila

Subjects

ROOT-tubercles, ROOT development, MORPHOGENESIS, ATMOSPHERIC nitrogen, PLANT roots, TRANSCRIPTION factors

Abstract

The interaction between legume plants and soil bacteria rhizobia results in the formation of new organs on the plant roots, symbiotic nodules, where rhizobia fix atmospheric nitrogen. Symbiotic nodules represent a perfect model to trace how the pre-existing regulatory pathways have been recruited and modified to control the development of evolutionary "new" organs. In particular, genes involved in the early stages of lateral root development have been co-opted to regulate nodule development. Other regulatory pathways, including the players of the KNOX-cytokinin module, the homologues of the miR172-AP2 module, and the players of the systemic response to nutrient availability, have also been recruited to a unique regulatory program effectively governing symbiotic nodule development. The role of the NIN transcription factor in the recruitment of such regulatory modules to nodulation is discussed in more details. [ABSTRACT FROM AUTHOR]

Published

2021

6. The Kruppel-like factor KLF4 is a critical regulator of monocyte differentiation.

Author

Feinberg, Mark W., Wara, Akm Khyrul, Zhuoxiao Cao, Lebedeva, Maria A., Rosenbauer, Frank, Iwasaki, Hiromi, Hirai, Hideyo, Katz, Jonathan P., Haspel, Richard L., Gray, Susan, Akashi, Koichi, Segre, Julie, Kaestner, Klaus H., Tenen, Daniel G., and Jain, Mukesh K.

Subjects

HEMATOPOIETIC system, MONOCYTES, CELL differentiation, TRANSCRIPTION factors, ERYTHROCYTES, T cells, HEMATOPOIETIC stem cells

Abstract

Monocyte differentiation involves the participation of lineage-restricted transcription factors, although the mechanisms by which this process occurs are incompletely defined. Within the hematopoietic system, members of the Kruppel-like family of factors (KLFs) play essential roles in erythrocyte and T lymphocyte development. Here we show that KLF4/GKLF is expressed in a monocyte-restricted and stage-specific pattern during myelopoiesis and functions to promote monocyte differentiation. Overexpression of KLF4 in HL-60 cells confers the characteristics of mature monocytes. Conversely, KLF4 knockdown blocked phorbol ester-induced monocyte differentiation. Forced expression of KLF4 in primary common myeloid progenitors (CMPs) or hematopoietic stem cells (HSCs) induced exclusive monocyte differentiation in clonogenic assays, whereas KLF4 deficiency inhibited monocyte but increased granulocyte differentiation. Mechanistic studies demonstrate that KLF4 is a target gene of PU.1. Consistently, KLF4 can rescue PU.1−/− fetal liver cells along the monocytic lineage and can activate the monocytic-specific CD14 promoter. Thus, KLF4 is a critical regulator in the transcriptional network controlling monocyte differentiation. [ABSTRACT FROM AUTHOR]

Published

2007

7. CLAVATA3 / EMBRYO   SURROUNDING   REGION (CLE) Gene Family in Potato (Solanum   tuberosum L.): Identification and Expression Analysis.

Author

Gancheva, Maria, Dodueva, Irina, Lebedeva, Maria, Lutova, Ludmila, and Cañas, Rafael A.

Subjects

POTATOES, PLANT cell differentiation, GENE families, TRANSCRIPTION factors, TUBERS

Abstract

CLE genes encode a group of small secretory peptides, which regulate cell proliferation and differentiation in plants. CLE genes have been studied in many plants; however, little is known about this gene family in potato. In this study, we characterized members of the CLE gene family in potato Solanum tuberosum (StCLE) and comprehensively analyzed their phylogenetic relationships, structure, and expression patterns. Using available transcriptomic data, we found a relative high expression level of StCLE8, StCLE12, and StCLE13 in stolons and tubers. Real-time PCR analysis showed that the StCLE23 gene was upregulated by water deficiency, whereas the expression of StCLE4 and StCLE10 was induced by nitrogen supply. Besides that, using data from transcriptomic studies obtained previously for plants with the induction the StBEL5 gene, a positive regulator of tuber development, we found that StCLE4 was among genes upregulated in response to StBEL5 induction, suggesting that StCLE4 could be a target of StBEL5 transcription factor. However, we did not reveal a direct binding of StBEL5 to the regulatory sequences of StCLE4 using yeast one-hybrid assay. Taken together, our data provide basic information for future functional studies of CLE peptides in potato growth and tuberization and in response to various environmental stimuli. [ABSTRACT FROM AUTHOR]

Published

2021