E. N. Grineva scite author profile

Using RNA-seq, RT-qPCR, and bioinformatics we have studied the influence of a wide spectrum of chemotherapeutic drugs on transcription of AKR1B10 , AKR1C1 , ALDH1A1 , and ALDH1A3 genes, which encode the major aldehyde-metabolizing enzymes. The strongest alterations were detected in case of AKR1B10 mRNA that was significantly upregulated in wild type p53 cancer cells, but downregulated in mutant p53 cancer cells. Subsequent experiments demonstrated the significant and consistent decrease in the AKR1B10 mRNA content in sera of colon cancer patients, as compared to sera of healthy donors (p<0.0001, SPE=92.9%, SNE=79.3%, AUC=0.889), which implies that this RNA is a valuable marker for serological diagnosis of colorectal cancer. Moreover, we have found that ALDH1A3 protein is a key inactivator of ROS-generated aldehydes, which is a perspective target for the development of new chemotherapeutic drugs.

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Functional analysis of Debaryomyces hansenii Rpn4 on a genetic background of Saccharomyces cerevisiae

Карпов

Grineva

Leinsoo

et al. 2016

FEMS Yeast Research

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The transcription factor ScRpn4 coordinates the expression of Saccharomyces cerevisiae proteasomal genes. ScRpn4 orthologues are found in a number of other Saccharomycetes yeasts. Their functions, however, have not yet been characterised experimentally in vivo . We expressed the Debaryomyces hansenii DEHA2D12848 gene encoding an ScRpn4 orthologue (DhRpn4), in an S. cerevisiae strain lacking RPN4 . We showed that DhRpn4 activates transcription of proteasomal genes using ScRpn4 binding site and provides resistance to various stresses. The 43-238 aa segment of DhRpn4 contains an unique portable transactivation domain. Similar to the ScRpn4 N-terminus, this domain lacks a compact structure Moreover, upon overexpression in D. hansenii , DhRpn4 upregulates protesomal genes. Thus, we show that DhRpn4 is the activator for proteasomal genes.

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Treatment with anti-cancer agents results in profound changes in lncRNA expression in colon cancer cells

et al. 2017

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LINC00973 Induces Proliferation Arrest of Drug-Treated Cancer Cells by Preventing p21 Degradation

Карпов

Spirin

Zheltukhin

et al. 2020

IJMS

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Overcoming drug resistance of cancer cells is the major challenge in molecular oncology. Here, we demonstrate that long non-coding RNA LINC00973 is up-regulated in normal and cancer cells of different origins upon treatment with different chemotherapeutics. Bioinformatics analysis shows that this is a consequence of DNA damage response pathway activation or mitotic arrest. Knockdown of LINC0973 decreases p21 levels, activates cellular proliferation of cancer cells, and suppresses apoptosis of drug-treated cells. We have found that LINC00973 strongly increases p21 protein content, possibly by blocking its degradation. Besides, we have found that ectopic over-expression of LINC00973 inhibits formation of the pro-survival p53-Ser15-P isoform, which preserves chromosome integrity. These results might open a new approach to the development of more efficient anti-cancer drugs.

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E. N. Grineva

Expression of long non-coding RNA LINC00973 is consistently increased upon treatment of colon cancer cells with different chemotherapeutic drugs

Treatment of cancer cells with chemotherapeutic drugs results in profound changes in expression of genes encoding aldehyde-metabolizing enzymes

Functional analysis of Debaryomyces hansenii Rpn4 on a genetic background of Saccharomyces cerevisiae

Treatment with anti-cancer agents results in profound changes in lncRNA expression in colon cancer cells

LINC00973 Induces Proliferation Arrest of Drug-Treated Cancer Cells by Preventing p21 Degradation

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