Vérene Stierle - Academia.edu (original) (raw)

Papers by Vérene Stierle

Oncotarget, 2018

The earliest step in the mRNA degradation process is deadenylation, a progressive shortening of t... more The earliest step in the mRNA degradation process is deadenylation, a progressive shortening of the mRNA poly(A) tail by deadenylases. The question of when deadenylation takes place remains open. MYC mRNA is one of the rare examples for which it was proposed a shortening of the poly(A) tail during ongoing translation. In this study, we analyzed the poly(A) tail length distribution of various mRNAs, including MYC mRNA. The mRNAs were isolated from the polysomal fractions of polysome profiling experiments and analyzed using ligase-mediated poly(A) test analysis. We show that, for all the mRNAs tested with the only exception of MYC, the poly(A) tail length distribution does not change in accordance with the number of ribosomes carried by the mRNA. Conversely, for MYC mRNA, we observed a poly(A) tail length decrease in the fractions containing the largest polysomes. Because the fractions with the highest number of ribosomes are also those for which translation termination is more frequent, we analyzed the poly(A) tail length distribution in polysomal fractions of cells depleted in translation termination factor eRF3. Our results show that the shortening of MYC mRNA poly(A) tail is alleviated by the silencing of translation termination factor eRF3. These findings suggest that MYC mRNA is co-translationally deadenylated and that the deadenylation process requires translation termination to proceed.

Anticancer research, 2010

AIM/ BACKGROUND: Various interactions between Caveolae membrane domains, multidrug resistance tra... more AIM/ BACKGROUND: Various interactions between Caveolae membrane domains, multidrug resistance transporter P-glycoprotein (P-gp) and cholesterol have been suggested. We tested the assumption that anthracycline-induced P-gp and Caveolin-1 have correlated effects on cholesterol distribution in plasma membrane. The present study was performed in four lymphoblastic K562 cell lines expressing none (KS), one (Cav and KR cells) or both P-gp and caveolin-1 proteins (CavKR cells). The CavKR cell line exhibits a significantly higher free cholesterol content than the other cell lines. Cholesterol distribution at the outer leaflet was distinct from the total cellular cholesterol by its accessibility to cholesterol oxidase (COase). When cells were ATP-deprived, cholesterol accessibility to oxidation was significantly delayed in CavKR cells. Caveolin-1 or P-gp expression did not induce detectable changes in membrane cholesterol accessibility to COase. Combination of functional P-gp, caveolae prese...

FEBS Journal, 2007

The multidrug resistance-associated protein transporter ABCC1 (MRP1) is an integral plasma membra... more The multidrug resistance-associated protein transporter ABCC1 (MRP1) is an integral plasma membrane protein involved in the multidrug resistance phenotype. It actively expels a number of cytotoxic molecules from cells. To gain insight into the modulation of the functional properties of this integral membrane protein by cholesterol, a main component of the lipid bilayer, we used multidrug-resistant GLC4/ADR cells, which overexpress MRP1. Upon altering the plasma membrane cholesterol content of these cells, membrane localization and the activity of MRP1 were analyzed. A detergent-free methodology was used to separate "light" and "heavy" plasma membrane fractions. Our data show that MRP1 was exclusively found in "light" fractions known as L0 phase membrane microdomains, together with 23% of gangliosides GM1 and 40% of caveolin-1. Depletion of the membrane cholesterol level to 40% by treatment with the cholesterol-chelating agent methyl-beta-cyclodextrin did not modify MRP1 activity, as evidenced either by the rate of efflux of pirarubicin or that of glutathione. Further cholesterol depletion below 40% yielded both a partial shift of MRP1 to the high-density fraction and a decrease of its functionality. Taken together, these data suggest that MRP1 functionality depends on its localization in cholesterol-rich membrane microdomains.

Oligonucleotides, 2004

Small interfering RNAs (siRNAs) are powerful tools in specifically silencing gene expression. Nev... more Small interfering RNAs (siRNAs) are powerful tools in specifically silencing gene expression. Nevertheless, their efficiency can be limited when targeting proteins with an unusually long half-life, such as P-glycoprotein (P-gp), which is involved in the multidrug resistance phenomenon. P-gp is characterized by a long half-life, which may vary depending on the cell line and, for some of them, on serum deprivation or high cell density. In the present paper, involvement of an exponential cell growth phase in the improvement of siRNA efficiency has been suggested. The doxorubicin-selected human line MCF7-R was shown to be a more adapted model than NIH-MDR-G185 cells stably transfected with human mdr1. Nonspecific effects occurring at moderate (100 nM) siRNA concentration have been shown. Two efficient siRNAs led to a very satisfactory P-gp extinction (only 20% P-gp expression remaining) with siRNA concentration as low as 20 nM.

Nature Communications, 2013

Auxin is a major plant hormone that controls most aspects of plant growth and development. Auxin ... more Auxin is a major plant hormone that controls most aspects of plant growth and development. Auxin is perceived by two distinct classes of receptors: transport inhibitor response 1 (TIR1, or auxin-related F-box (AFB)) and auxin/indole-3-acetic acid (AUX/IAA) coreceptors, that control transcriptional responses to auxin, and the auxin-binding protein 1 (ABP1), that controls a wide variety of growth and developmental processes. To date, the mode of action of ABP1 is still poorly understood and its functional interaction with TIR1/AFB-AUX/IAA coreceptors remains elusive. Here we combine genetic and biochemical approaches to gain insight into the integration of these two pathways. We find that ABP1 is genetically upstream of TIR1/AFBs; ABP1 knockdown leads to an enhanced degradation of AUX/IAA repressors, independently of its effects on endocytosis, through the SCF TIR1/AFB E3 ubiquitin ligase pathway. Combining positive and negative regulation of SCF ubiquitin-dependent pathways might be a common mechanism conferring tight control of hormone-mediated responses.

Molecular Pharmacology, 2008

Reversal of the multidrug resistant (MDR) phenotype is very important for chemotherapy success. I... more Reversal of the multidrug resistant (MDR) phenotype is very important for chemotherapy success. In fact, the expression of the MDR1 gene-encoded P-gp actively expels antitumor agents such as daunomycin (DNM) out of the cells, resulting in drug resistance. We show that upon conjugation to triplex-forming oligonucleotides it is possible to address DNM in resistant cells (MCF7-R and NIH-MDR-G185). The oligonucleotide moiety of the conjugate changes the cellular penetration properties of the antitumor agent that is no more the target of P-gp in resistant cells. We observe an accumulation of conjugated DNM in cells up to 72h. For more efficient delivery in the cells nuclei, tranfectant agents must be used. In addition, the conjugate recognizes a sequence located in exon 3 of MDR1 and inhibits its gene expression as measured both by Western blot and RT PCR.

Biochimie, 2007

Effective silencing of MDR1, one of the genes involved in the multidrug resistance phenotype, can... more Effective silencing of MDR1, one of the genes involved in the multidrug resistance phenotype, can be achieved by the use of an efficient siRNA transfected into the doxorubicin-selected MCF7-R human cell line, alone or combined with a moderately efficient siRNA. On the contrary, there is no MDR1 silencing when it is co-transfected with a control siRNA that does not target the human genome. This results from the limited amount of RISC (RNA-Induced Silencing Complex) in human cells, leading to competition between siRNAs. In the case where the energy difference between the extremities of one of the siRNAs is largely superior to that of the other one, competition between the siRNAs appear to be favorable for the former. It is suggested that designing efficient siRNAs from thermodynamic characteristics is favored when siRNAs are incorporated into the RISC Loading Complex (RLC) rather than directly loaded into RISC.

Biochemical Pharmacology, 2005

MDR1 overexpression is one form of the multidrug resistance (MDR) phenotype, which can be acquire... more MDR1 overexpression is one form of the multidrug resistance (MDR) phenotype, which can be acquired by patients initially responsive to chemotherapy. Because of the high toxicity of the inhibitors of P-glycoprotein (P-gp), the protein encoded by MDR1, attention has been focused on selective modulation of the MDR1 gene. Small interfering RNAs (siRNAs) were shown to be powerful tools for such a purpose, even when used at low concentrations (20 nM) in order to avoid sequence nonspecific effects. Two siRNAs used at 20 nM were shown to lead to efficient down-regulation of MDR1 at the protein level (only ca. 20% total P-gp expression remaining) in the doxorubicin selected MCF7-R human cell line. Cell surface expression of P-gp was inhibited, leading to reversal of the drug efflux phenotype (about 40% reversal with the most efficient siRNA) and enhancement of chemosensitivity (about 35%). At the mRNA level, the down-regulation of MDR1 obtained with the most efficient siRNA increased from about 50% (5 nM siRNA) to 60% (10 or 20 nM). The advantage of using a combination of siRNAs instead of a single one has been suggested.

Biochemistry, 2003

Lamins A and C are intermediate filament proteins which polymerize into the nucleus to form the n... more Lamins A and C are intermediate filament proteins which polymerize into the nucleus to form the nuclear lamina network. The lamina is apposed to the inner nuclear membrane and functions in tethering chromatin to the nuclear envelope and in maintaining nuclear shape. We have recently characterized a globular domain that adopts an immunoglobulin fold in the carboxyl-terminal tail common to lamins A and C. Using an electrophoretic mobility shift assay (EMSA), we show that a peptide containing this domain interacts in vitro with DNA after dimerization through a disulfide bond, but does not interact with the core particle or the dinucleosome. The covalent dimer binds a 30-40 bp DNA fragment with a micromolar affinity and no sequence specificity. Using nuclear magnetic resonance (NMR) and an EMSA, we observed that two peptide regions participate in the DNA binding: the unstructured amino-terminal part containing the nuclear localization signal and a large positively charged region centered around amino acid R482 at the surface of the immunoglobulin-like domain. Mutations R482Q and -W, which are responsible for Dunnigan-type partial lipodystrophy, lower the affinity of the peptide for DNA. We conclude that the carboxyl-terminal end of lamins A and C binds DNA and suggest that alterations in lamin-DNA interactions may play a role in the pathophysiology of some lamin-linked diseases.

Oncotarget, 2018

The earliest step in the mRNA degradation process is deadenylation, a progressive shortening of t... more The earliest step in the mRNA degradation process is deadenylation, a progressive shortening of the mRNA poly(A) tail by deadenylases. The question of when deadenylation takes place remains open. MYC mRNA is one of the rare examples for which it was proposed a shortening of the poly(A) tail during ongoing translation. In this study, we analyzed the poly(A) tail length distribution of various mRNAs, including MYC mRNA. The mRNAs were isolated from the polysomal fractions of polysome profiling experiments and analyzed using ligase-mediated poly(A) test analysis. We show that, for all the mRNAs tested with the only exception of MYC, the poly(A) tail length distribution does not change in accordance with the number of ribosomes carried by the mRNA. Conversely, for MYC mRNA, we observed a poly(A) tail length decrease in the fractions containing the largest polysomes. Because the fractions with the highest number of ribosomes are also those for which translation termination is more frequent, we analyzed the poly(A) tail length distribution in polysomal fractions of cells depleted in translation termination factor eRF3. Our results show that the shortening of MYC mRNA poly(A) tail is alleviated by the silencing of translation termination factor eRF3. These findings suggest that MYC mRNA is co-translationally deadenylated and that the deadenylation process requires translation termination to proceed.

Anticancer research, 2010

AIM/ BACKGROUND: Various interactions between Caveolae membrane domains, multidrug resistance tra... more AIM/ BACKGROUND: Various interactions between Caveolae membrane domains, multidrug resistance transporter P-glycoprotein (P-gp) and cholesterol have been suggested. We tested the assumption that anthracycline-induced P-gp and Caveolin-1 have correlated effects on cholesterol distribution in plasma membrane. The present study was performed in four lymphoblastic K562 cell lines expressing none (KS), one (Cav and KR cells) or both P-gp and caveolin-1 proteins (CavKR cells). The CavKR cell line exhibits a significantly higher free cholesterol content than the other cell lines. Cholesterol distribution at the outer leaflet was distinct from the total cellular cholesterol by its accessibility to cholesterol oxidase (COase). When cells were ATP-deprived, cholesterol accessibility to oxidation was significantly delayed in CavKR cells. Caveolin-1 or P-gp expression did not induce detectable changes in membrane cholesterol accessibility to COase. Combination of functional P-gp, caveolae prese...

FEBS Journal, 2007

The multidrug resistance-associated protein transporter ABCC1 (MRP1) is an integral plasma membra... more The multidrug resistance-associated protein transporter ABCC1 (MRP1) is an integral plasma membrane protein involved in the multidrug resistance phenotype. It actively expels a number of cytotoxic molecules from cells. To gain insight into the modulation of the functional properties of this integral membrane protein by cholesterol, a main component of the lipid bilayer, we used multidrug-resistant GLC4/ADR cells, which overexpress MRP1. Upon altering the plasma membrane cholesterol content of these cells, membrane localization and the activity of MRP1 were analyzed. A detergent-free methodology was used to separate "light" and "heavy" plasma membrane fractions. Our data show that MRP1 was exclusively found in "light" fractions known as L0 phase membrane microdomains, together with 23% of gangliosides GM1 and 40% of caveolin-1. Depletion of the membrane cholesterol level to 40% by treatment with the cholesterol-chelating agent methyl-beta-cyclodextrin did not modify MRP1 activity, as evidenced either by the rate of efflux of pirarubicin or that of glutathione. Further cholesterol depletion below 40% yielded both a partial shift of MRP1 to the high-density fraction and a decrease of its functionality. Taken together, these data suggest that MRP1 functionality depends on its localization in cholesterol-rich membrane microdomains.

Oligonucleotides, 2004

Small interfering RNAs (siRNAs) are powerful tools in specifically silencing gene expression. Nev... more Small interfering RNAs (siRNAs) are powerful tools in specifically silencing gene expression. Nevertheless, their efficiency can be limited when targeting proteins with an unusually long half-life, such as P-glycoprotein (P-gp), which is involved in the multidrug resistance phenomenon. P-gp is characterized by a long half-life, which may vary depending on the cell line and, for some of them, on serum deprivation or high cell density. In the present paper, involvement of an exponential cell growth phase in the improvement of siRNA efficiency has been suggested. The doxorubicin-selected human line MCF7-R was shown to be a more adapted model than NIH-MDR-G185 cells stably transfected with human mdr1. Nonspecific effects occurring at moderate (100 nM) siRNA concentration have been shown. Two efficient siRNAs led to a very satisfactory P-gp extinction (only 20% P-gp expression remaining) with siRNA concentration as low as 20 nM.

Nature Communications, 2013

Auxin is a major plant hormone that controls most aspects of plant growth and development. Auxin ... more Auxin is a major plant hormone that controls most aspects of plant growth and development. Auxin is perceived by two distinct classes of receptors: transport inhibitor response 1 (TIR1, or auxin-related F-box (AFB)) and auxin/indole-3-acetic acid (AUX/IAA) coreceptors, that control transcriptional responses to auxin, and the auxin-binding protein 1 (ABP1), that controls a wide variety of growth and developmental processes. To date, the mode of action of ABP1 is still poorly understood and its functional interaction with TIR1/AFB-AUX/IAA coreceptors remains elusive. Here we combine genetic and biochemical approaches to gain insight into the integration of these two pathways. We find that ABP1 is genetically upstream of TIR1/AFBs; ABP1 knockdown leads to an enhanced degradation of AUX/IAA repressors, independently of its effects on endocytosis, through the SCF TIR1/AFB E3 ubiquitin ligase pathway. Combining positive and negative regulation of SCF ubiquitin-dependent pathways might be a common mechanism conferring tight control of hormone-mediated responses.

Molecular Pharmacology, 2008

Reversal of the multidrug resistant (MDR) phenotype is very important for chemotherapy success. I... more Reversal of the multidrug resistant (MDR) phenotype is very important for chemotherapy success. In fact, the expression of the MDR1 gene-encoded P-gp actively expels antitumor agents such as daunomycin (DNM) out of the cells, resulting in drug resistance. We show that upon conjugation to triplex-forming oligonucleotides it is possible to address DNM in resistant cells (MCF7-R and NIH-MDR-G185). The oligonucleotide moiety of the conjugate changes the cellular penetration properties of the antitumor agent that is no more the target of P-gp in resistant cells. We observe an accumulation of conjugated DNM in cells up to 72h. For more efficient delivery in the cells nuclei, tranfectant agents must be used. In addition, the conjugate recognizes a sequence located in exon 3 of MDR1 and inhibits its gene expression as measured both by Western blot and RT PCR.

Biochimie, 2007

Effective silencing of MDR1, one of the genes involved in the multidrug resistance phenotype, can... more Effective silencing of MDR1, one of the genes involved in the multidrug resistance phenotype, can be achieved by the use of an efficient siRNA transfected into the doxorubicin-selected MCF7-R human cell line, alone or combined with a moderately efficient siRNA. On the contrary, there is no MDR1 silencing when it is co-transfected with a control siRNA that does not target the human genome. This results from the limited amount of RISC (RNA-Induced Silencing Complex) in human cells, leading to competition between siRNAs. In the case where the energy difference between the extremities of one of the siRNAs is largely superior to that of the other one, competition between the siRNAs appear to be favorable for the former. It is suggested that designing efficient siRNAs from thermodynamic characteristics is favored when siRNAs are incorporated into the RISC Loading Complex (RLC) rather than directly loaded into RISC.

Biochemical Pharmacology, 2005

MDR1 overexpression is one form of the multidrug resistance (MDR) phenotype, which can be acquire... more MDR1 overexpression is one form of the multidrug resistance (MDR) phenotype, which can be acquired by patients initially responsive to chemotherapy. Because of the high toxicity of the inhibitors of P-glycoprotein (P-gp), the protein encoded by MDR1, attention has been focused on selective modulation of the MDR1 gene. Small interfering RNAs (siRNAs) were shown to be powerful tools for such a purpose, even when used at low concentrations (20 nM) in order to avoid sequence nonspecific effects. Two siRNAs used at 20 nM were shown to lead to efficient down-regulation of MDR1 at the protein level (only ca. 20% total P-gp expression remaining) in the doxorubicin selected MCF7-R human cell line. Cell surface expression of P-gp was inhibited, leading to reversal of the drug efflux phenotype (about 40% reversal with the most efficient siRNA) and enhancement of chemosensitivity (about 35%). At the mRNA level, the down-regulation of MDR1 obtained with the most efficient siRNA increased from about 50% (5 nM siRNA) to 60% (10 or 20 nM). The advantage of using a combination of siRNAs instead of a single one has been suggested.

Biochemistry, 2003

Lamins A and C are intermediate filament proteins which polymerize into the nucleus to form the n... more Lamins A and C are intermediate filament proteins which polymerize into the nucleus to form the nuclear lamina network. The lamina is apposed to the inner nuclear membrane and functions in tethering chromatin to the nuclear envelope and in maintaining nuclear shape. We have recently characterized a globular domain that adopts an immunoglobulin fold in the carboxyl-terminal tail common to lamins A and C. Using an electrophoretic mobility shift assay (EMSA), we show that a peptide containing this domain interacts in vitro with DNA after dimerization through a disulfide bond, but does not interact with the core particle or the dinucleosome. The covalent dimer binds a 30-40 bp DNA fragment with a micromolar affinity and no sequence specificity. Using nuclear magnetic resonance (NMR) and an EMSA, we observed that two peptide regions participate in the DNA binding: the unstructured amino-terminal part containing the nuclear localization signal and a large positively charged region centered around amino acid R482 at the surface of the immunoglobulin-like domain. Mutations R482Q and -W, which are responsible for Dunnigan-type partial lipodystrophy, lower the affinity of the peptide for DNA. We conclude that the carboxyl-terminal end of lamins A and C binds DNA and suggest that alterations in lamin-DNA interactions may play a role in the pathophysiology of some lamin-linked diseases.