Raksha Devi scite author profile

The tumor microenvironment is characterized by nutrient-deprived conditions in which the cancer cells have to adapt for survival. Serum starvation resembles the growth factor deprivation characteristic of the poorly vascularized tumor microenvironment and has aided in the discovery of key growth regulatory genes and microRNAs (miRNAs) that have a role in the oncogenic transformation. We report here that miR-874 down-regulates the major G/S phase cyclin, cyclin E1 (CCNE1), during serum starvation. Because the adaptation of cancer cells to the tumor microenvironment is vital for subsequent oncogenesis, we tested for miR-874 and CCNE1 interdependence in osteosarcoma cells. We observed that miR-874 inhibits CCNE1 expression in primary osteoblasts, but in aggressive osteosarcomas, miR-874 is down-regulated, leading to elevated CCNE1 expression and appearance of cancer-associated phenotypes. We established that loss of miR-874-mediated control of cyclin E1 is a general feature of osteosarcomas. The down-regulation of CCNE1 by miR-874 is independent of E2F transcription factors. Restoration of miR-874 expression impeded S phase progression, suppressing aggressive growth phenotypes, such as cell invasion, migration, and xenograft tumors, in nude mice. In summary, we report that miR-874 inhibits CCNE1 expression during growth factor deprivation and that miR-874 down-regulation in osteosarcomas leads to CCNE1 up-regulation and more aggressive growth phenotypes.

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Charting the complex composite nature of centrosomes, primary cilia and centriolar satellites

Devi

Pelletier

Prosser

2021

Current Opinion in Structural Biology

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Sld5 Ensures Centrosomal Resistance to Congression Forces by Preserving Centriolar Satellites

Kaur

Devi

Ghosh

et al. 2018

Molecular and Cellular Biology

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The migration of chromosomes during mitosis is mediated primarily by kinesins that bind to the chromosomes and move along the microtubules, exerting pulling and pushing forces on the centrosomes. We report that a DNA replication protein, Sld5, localizes to the centrosomes, resisting the microtubular pulling forces experienced during chromosome congression. In the absence of Sld5, centriolar satellites, which normally cluster around the centrosomes, are dissipated throughout the cytoplasm, resulting in the loss of their known function of recruiting the centrosomal protein, pericentrin. We observed that Sld5-deficient centrosomes lacking pericentrin were unable to endure the CENP-E- and Kid-mediated microtubular forces that converge on the centrosomes during chromosome congression, resulting in monocentriolar and acentriolar spindle poles. The minus-end-directed kinesin-14 motor protein, HSET, sustains the traction forces that mediate centrosomal fragmentation in Sld5-depleted cells. Thus, we report that a DNA replication protein has an as yet unknown function of ensuring spindle pole resistance to traction forces exerted during chromosome congression.

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Approximation of solution for generalized Basset equation with finite delay using Rothe's approach

Devi

Pandey

2023

Malaya J. Mat.

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This study focuses on the use of the Riemann-Liouville fractional (R-L) derivative to address an initial boundary value problem for a fractional order differential equation with finite delay (FDDE). Rothe's methodology is used to prove the existence and uniqueness of the strong solution and classical solution to the restated abstract FDDE. Some examples based on abstract theory and numerical solutions of FDDEs arising in fluid dynamics are presented.

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Raksha Devi

MicroRNA-874–mediated inhibition of the major G1/S phase cyclin, CCNE1, is lost in osteosarcomas

Charting the complex composite nature of centrosomes, primary cilia and centriolar satellites

Sld5 Ensures Centrosomal Resistance to Congression Forces by Preserving Centriolar Satellites

Approximation of solution for generalized Basset equation with finite delay using Rothe's approach

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