Ingrid Grummt - Academia.edu (original) (raw)

Papers by Ingrid Grummt

Nucleic acids research, Jan 30, 2016

Attenuation of ribosome biogenesis in suboptimal growth environments is crucial for cellular home... more Attenuation of ribosome biogenesis in suboptimal growth environments is crucial for cellular homeostasis and genetic integrity. Here, we show that shutdown of rRNA synthesis in response to elevated temperature is brought about by mechanisms that target both the RNA polymerase I (Pol I) transcription machinery and the epigenetic signature of the rDNA promoter. Upon heat shock, the basal transcription factor TIF-IA is inactivated by inhibition of CK2-dependent phosphorylations at Ser170/172. Attenuation of pre-rRNA synthesis in response to heat stress is accompanied by upregulation of PAPAS, a long non-coding RNA (lncRNA) that is transcribed in antisense orientation to pre-rRNA. PAPAS interacts with CHD4, the adenosine triphosphatase subunit of NuRD, leading to deacetylation of histones and movement of the promoter-bound nucleosome into a position that is refractory to transcription initiation. The results exemplify how stress-induced inactivation of TIF-IA and lncRNA-dependent change...

Genes & Development, 2006

We investigated the role of SIRT7, one of the seven members of the mammalian sirtuin family. We s... more We investigated the role of SIRT7, one of the seven members of the mammalian sirtuin family. We show that SIRT7 is a widely expressed nucleolar protein that is associated with active rRNA genes (rDNA), where it interacts with RNA polymerase I (Pol I) as well as with histones. Overexpression of SIRT7 increases Pol I-mediated transcription, whereas knockdown of SIRT7 or inhibition of the catalytic activity results in decreased association of Pol I with rDNA and a reduction of Pol I transcription. Depletion of SIRT7 stops cell proliferation and triggers apoptosis. Our findings suggest that SIRT7 is a positive regulator of Pol I transcription and is required for cell viability in mammals.

Genes & Development, 2003

Nucleic Acids Research, 2007

The nucleolus is the site of ribosome synthesis in the nucleus, whose integrity is essential. Epi... more The nucleolus is the site of ribosome synthesis in the nucleus, whose integrity is essential. Epigenetic mechanisms are thought to regulate the activity of the ribosomal RNA (rRNA) gene copies, which are part of the nucleolus. Here we show that human cells lacking DNA methyltransferase 1 (Dnmt1), but not Dnmt33b, have a loss of DNA methylation and an increase in the acetylation level of lysine 16 histone H4 at the rRNA genes. Interestingly, we observed that SirT1, a NADþ-dependent histone deacetylase with a preference for lysine 16 H4, interacts with Dnmt1; and SirT1 recruitment to the rRNA genes is abrogated in Dnmt1 knockout cells. The DNA methylation and chromatin changes at ribosomal DNA observed are associated with a structurally disorganized nucleolus, which is fragmented into small nuclear masses. Prominent nucleolar proteins, such as Fibrillarin and Ki-67, and the rRNA genes are scattered throughout the nucleus in Dnmt1 deficient cells. These findings suggest a role for Dnmt1 as an epigenetic caretaker for the maintenance of nucleolar structure.

Molecular and cellular biology, 2005

Epigenetic control mechanisms silence about half of the rRNA genes in eukaryotes. Previous studie... more Epigenetic control mechanisms silence about half of the rRNA genes in eukaryotes. Previous studies have demonstrated that recruitment of NoRC, a SNF2h-containing remodeling complex, silences rRNA gene transcription. NoRC mediates histone H4 deacetylation, histone H3-Lys9 dimethylation, and de novo DNA methylation, thus establishing heterochromatic features at the rRNA gene promoter. Here we show that inhibition of any of these activities alleviates NoRC-dependent silencing, indicating that these processes are intimately linked. We have studied the temporal order of epigenetic events at the rRNA gene promoter during gene silencing and demonstrate that recruitment of NoRC by TTF-I is a prerequisite for the deacetylation of histone H4 and the dimethylation of histone H3-Lys9. Inhibition of histone deacetylation prevents DNA methylation, while inhibition of DNA methylation does not affect histone modification. Importantly, ATP-dependent chromatin remodeling is required for methylation o...

Nucleic acids research, 2004

The transcription termination factor (TTF)-I is a multifunctional nucleolar protein that terminat... more The transcription termination factor (TTF)-I is a multifunctional nucleolar protein that terminates ribosomal gene transcription, mediates replication fork arrest and regulates RNA polymerase I transcription on chromatin. TTF-I plays a dual role in rDNA regulation, being involved in both activation and silencing of rDNA transcription. The N-terminal part of TTF-I contains a negative regulatory domain (NRD) that inhibits DNA binding. Here we show that interactions between the NRD and the C-terminal part of TTF-I mask the DNA-binding domain of TTF-I. However, interaction with TIP5, a subunit of the nucleolar chromatin remodeling complex, NoRC, recovers DNA-binding activity. We have mapped the protein domains that mediate the interaction between TTF-I and TIP5. The association of TIP5 with the NRD facilitates DNA binding of TTF-I and leads to the recruitment of NoRC to the rDNA promoter. Thus, TTF-I and NoRC act in concert to silence rDNA transcription.

Annual Review of Cell and Developmental Biology, 2008

In eukaryotes, the genes encoding ribosomal RNAs (rDNA) exist in two distinct epigenetic states t... more In eukaryotes, the genes encoding ribosomal RNAs (rDNA) exist in two distinct epigenetic states that can be distinguished by a specific chromatin structure that is maintained throughout the cell cycle and is inherited from one cell to another. The fact that even in proliferating cells with a high demand of protein synthesis a fraction of rDNA is silenced provides a unique possibility to decipher the mechanism underlying epigenetic regulation of rDNA. This chapter summarizes our knowledge of the molecular mechanisms that establish and propagate the epigenetic state of rRNA genes, unraveling a complex interplay of DNA methyltransferases and histone-modifying enzymes that act in concert with chromatin remodeling complexes and RNA-guided mechanisms to define the transcriptional state of rDNA. We also review the critical role of the RNA polymerase I transcription factor UBF in the formation of active nucleolar organizer regions (NORs) and maintenance of the euchromatic state of rRNA genes.

EMBO reports, 2000

Cells carefully modulate the rate of rRNA transcription in order to prevent an overinvestment in ... more Cells carefully modulate the rate of rRNA transcription in order to prevent an overinvestment in ribosome synthesis under less favorable nutritional conditions. In mammals, growthdependent regulation of RNA polymerase I (Pol I) transcription is mediated by TIF-IA, an essential initiation factor that is active in extracts from growing but not starved or cycloheximidetreated mammalian cells. Here we report the molecular cloning and functional characterization of recombinant TIF-IA, which turns out to be the mammalian homolog of the yeast factor Rrn3p. We demonstrate that TIF-IA interacts with Pol I in the absence of template DNA, augments Pol I transcription in vivo and rescues transcription in extracts from growtharrested cells in vitro.

Nature communications, Jan 12, 2016

SIRT7 is an NAD(+)-dependent protein deacetylase with important roles in ribosome biogenesis and ... more SIRT7 is an NAD(+)-dependent protein deacetylase with important roles in ribosome biogenesis and cell proliferation. Previous studies have established that SIRT7 is associated with RNA polymerase I, interacts with pre-ribosomal RNA (rRNA) and promotes rRNA synthesis. Here we show that SIRT7 is also associated with small nucleolar RNP (snoRNPs) that are involved in pre-rRNA processing and rRNA maturation. Knockdown of SIRT7 impairs U3 snoRNA dependent early cleavage steps that are necessary for generation of 18S rRNA. Mechanistically, SIRT7 deacetylates U3-55k, a core component of the U3 snoRNP complex, and reversible acetylation of U3-55k modulates the association of U3-55k with U3 snoRNA. Deacetylation by SIRT7 enhances U3-55k binding to U3 snoRNA, which is a prerequisite for pre-rRNA processing. Under stress conditions, SIRT7 is released from nucleoli, leading to hyperacetylation of U3-55k and attenuation of pre-rRNA processing. The results reveal a multifaceted role of SIRT7 in r...

Nucleic Acids Research, 1990

The EMBO journal, Jan 15, 1995

Termination of mouse ribosomal gene transcription by RNA polymerase I (Pol I) requires the specif... more Termination of mouse ribosomal gene transcription by RNA polymerase I (Pol I) requires the specific interaction of a DNA binding protein, mTTF-I, with an 18 bp sequence element located downstream of the rRNA coding region. Here we describe the molecular cloning and functional characterization of the cDNA encoding this transcription termination factor. Recombinant mTTF-I binds specifically to the murine terminator elements and terminates Pol I transcription in a reconstituted in vitro system. Deletion analysis has defined a modular structure of mTTF-I comprising a dispensable N-terminal half, a large C-terminal DNA binding region and an internal domain which is required for transcription termination. Significantly, the C-terminal region of mTTF-I reveals striking homology to the DNA binding domains of the proto-oncogene c-Myb and the yeast transcription factor Reb1p. Site-directed mutagenesis of one of the tryptophan residues that is conserved in the homology region of c-Myb, Reb1p a...

The EMBO journal, 1983

We have placed a 225-bp fragment from the 5' end of the mouse rDNA transcription unit (from -... more We have placed a 225-bp fragment from the 5' end of the mouse rDNA transcription unit (from -169 to +56) in front of the SV40 tumor antigen coding sequence. After microinjection of this chimeric plasmid into nuclei of mouse L-cells expression of SV40 large T antigen has been observed. The expression of T antigen was dependent on the correct orientation of the rDNA fragment relative to the T antigen-coding region and was seen only in mouse cells. This indicates that the 225-bp rDNA fragment contains the sequence information required for pre-rRNA transcription and demonstrates for the first time that a protein-coding gene can be transcribed and expressed under the control of an RNA polymerase I promoter.

The EMBO journal, 1988

The structural requirements for 3' end formation of mouse pre-rRNA have been studied. Three s... more The structural requirements for 3' end formation of mouse pre-rRNA have been studied. Three sequence elements are shown to be required for accurate and efficient transcription termination by RNA polymerase I (pol I) assayed both in a cell-free transcription system and in vivo after transfection of rDNA minigene constructs into 3T6 cells. The essential termination signal is the previously identified 18-bp conserved element (AGGTCGACCAGATTANTCCG) that contains a SalI restriction site. This sequence motif (the 'Sal box') interacts with a specific nuclear protein that directs transcription termination. Here we demonstrate that the 'Sal box' sequence motif is sufficient for termination of pol I transcripts and the release of the nascent RNA chains from the template. However, in addition to this termination signal, pyrimidine-rich sequences flanking the box at the 5' and 3' side play a role in the efficient and correct formation of authentic pre-rRNA termini. D...

The Journal of biological chemistry, Jan 25, 1991

We have used purified transcription factors and RNA polymerase I (pol I) to analyze the individua... more We have used purified transcription factors and RNA polymerase I (pol I) to analyze the individual steps involved in the formation of transcription initiation complexes at the mouse ribosomal gene promoter in vitro. Complete assembly of transcription complexes requires pol I and at least four auxiliary factors, termed TIF-IA, TIF-IB, TIF-IC, and UBF. Preincubation and template commitment, as well as order of addition protocols, were used to discriminate between various intermediate complexes generated during assembly of the initiation complex. As a first step, TIF-IB binds to the core promoter, a process that is facilitated by the upstream control element and the upstream binding factor (UBF). Binding of TIF-IB to the rDNA promoter results in the formation of a functional preinitiation complex (complex 1), which is stable for many rounds of transcription. UBF, which on its own does not stably associate with the rDNA promoter, triggers a 5-10-fold increase in the overall amount of th...

Journal of Neuroscience, 2008

Transcription of rRNA genes is essential for maintaining nucleolar integrity, a hallmark for the ... more Transcription of rRNA genes is essential for maintaining nucleolar integrity, a hallmark for the healthy state and proliferation rate of a cell. Inhibition of rRNA synthesis leads to disintegration of the nucleolus, elevated levels of p53, and induction of cell suicide, identifying the nucleolus as a critical stress sensor. Whether deregulation of rRNA synthesis is causally involved in neurodegeneration by promoting cell death and/or by inhibiting cellular growth has however not been addressed. The transcription factor TIF-IA plays a central role in mammalian rRNA synthesis, regulating the transcriptional activity of RNA polymerase I. To investigate the consequences of nucleolar perturbation in the nervous system, we have chosen to specifically ablate the gene encoding the transcription factor TIF-IA in two different contexts: neural progenitors and hippocampal neurons. Here, we show that ablation of TIF-IA leads to impaired nucleolar activity and results in increased levels of the proapoptotic transcription factor p53 in both neural progenitors and hippocampal neurons but induces rapid apoptosis only in neural progenitors. Nondividing cells of the adult hippocampus are more refractory to loss of rRNA transcription and face a protracted degeneration. Our study provides an unexploited strategy to initiate neurodegeneration based on perturbation of nucleolar function and underscores a novel perspective to study the cellular and molecular changes involved in the neurodegenerative processes.

Proceedings of the National Academy of Sciences, 1986

A purified transcription factor (TIF-IB) binds to essential sequences of the mouse rDNA promoter ... more A purified transcription factor (TIF-IB) binds to essential sequences of the mouse rDNA promoter (cell-free transcription systems/RNA polymerase I/transcription factors/DNA-protein interactions)

Nucleic Acids Research, 1987

The rat rDNA transcription unit extends 560-565 bp into the spacer downstream of the 28S rRNA cod... more The rat rDNA transcription unit extends 560-565 bp into the spacer downstream of the 28S rRNA coding region. The site of 3' end formation is located in front of a conserved 18 bp sequence element which is repeated eight times in the 3' spacer between nucleotides +582 and +1767 relative to the 3' terminus of 28S rRNA. These sequence motifs are almost identical to the RNA polymerase I transcription termination signal (the Sal I box) that has previously been identified in the 3' terminal spacer of mouse rDNA. Interestingly, each of the single rat elements contains one or more base substitutions as compared to the murine Sal I box. Individual rat Sal I boxes were cloned and tested for their ability to interact with the murine termination factor and to direct transcription termination. It is shown that five of the eight boxes represent genuine transcription terminators, while three elements contain certain point mutations which are not recognized by the nuclear Sal I box-binding protein and therefore are functionally inactive.

Molecular Cell, 2006

Transcripts originating from the intergenic spacer (IGS) that separates rRNA genes (rDNA) have be... more Transcripts originating from the intergenic spacer (IGS) that separates rRNA genes (rDNA) have been known for two decades; their biological role, however, is largely unknown. Here we show that IGS transcripts are required for establishing and maintaining a specific heterochromatic configuration at the promoter of a subset of rDNA arrays. The mechanism of action appears to be mediated through the interaction of TIP5, the large subunit of the chromatin remodeling complex NoRC, with 150-300 nucleotide RNAs that are complementary in sequence to the rDNA promoter. Mutations that abrogate RNA binding of TIP5 impair the association of NoRC with rDNA and fail to promote H3K9&H4K20 methylation and HP1 recruitment. Knockdown of IGS transcripts abolishes the nucleolar localization of NoRC, decreases DNA methylation, and enhances rDNA transcription. The results reveal an important contribution of processed IGS transcripts in chromatin structure and epigenetic control of the rDNA locus.

Nucleic acids research, Jan 30, 2016

Attenuation of ribosome biogenesis in suboptimal growth environments is crucial for cellular home... more Attenuation of ribosome biogenesis in suboptimal growth environments is crucial for cellular homeostasis and genetic integrity. Here, we show that shutdown of rRNA synthesis in response to elevated temperature is brought about by mechanisms that target both the RNA polymerase I (Pol I) transcription machinery and the epigenetic signature of the rDNA promoter. Upon heat shock, the basal transcription factor TIF-IA is inactivated by inhibition of CK2-dependent phosphorylations at Ser170/172. Attenuation of pre-rRNA synthesis in response to heat stress is accompanied by upregulation of PAPAS, a long non-coding RNA (lncRNA) that is transcribed in antisense orientation to pre-rRNA. PAPAS interacts with CHD4, the adenosine triphosphatase subunit of NuRD, leading to deacetylation of histones and movement of the promoter-bound nucleosome into a position that is refractory to transcription initiation. The results exemplify how stress-induced inactivation of TIF-IA and lncRNA-dependent change...

Genes & Development, 2006

We investigated the role of SIRT7, one of the seven members of the mammalian sirtuin family. We s... more We investigated the role of SIRT7, one of the seven members of the mammalian sirtuin family. We show that SIRT7 is a widely expressed nucleolar protein that is associated with active rRNA genes (rDNA), where it interacts with RNA polymerase I (Pol I) as well as with histones. Overexpression of SIRT7 increases Pol I-mediated transcription, whereas knockdown of SIRT7 or inhibition of the catalytic activity results in decreased association of Pol I with rDNA and a reduction of Pol I transcription. Depletion of SIRT7 stops cell proliferation and triggers apoptosis. Our findings suggest that SIRT7 is a positive regulator of Pol I transcription and is required for cell viability in mammals.

Genes & Development, 2003

Nucleic Acids Research, 2007

The nucleolus is the site of ribosome synthesis in the nucleus, whose integrity is essential. Epi... more The nucleolus is the site of ribosome synthesis in the nucleus, whose integrity is essential. Epigenetic mechanisms are thought to regulate the activity of the ribosomal RNA (rRNA) gene copies, which are part of the nucleolus. Here we show that human cells lacking DNA methyltransferase 1 (Dnmt1), but not Dnmt33b, have a loss of DNA methylation and an increase in the acetylation level of lysine 16 histone H4 at the rRNA genes. Interestingly, we observed that SirT1, a NADþ-dependent histone deacetylase with a preference for lysine 16 H4, interacts with Dnmt1; and SirT1 recruitment to the rRNA genes is abrogated in Dnmt1 knockout cells. The DNA methylation and chromatin changes at ribosomal DNA observed are associated with a structurally disorganized nucleolus, which is fragmented into small nuclear masses. Prominent nucleolar proteins, such as Fibrillarin and Ki-67, and the rRNA genes are scattered throughout the nucleus in Dnmt1 deficient cells. These findings suggest a role for Dnmt1 as an epigenetic caretaker for the maintenance of nucleolar structure.

Molecular and cellular biology, 2005

Epigenetic control mechanisms silence about half of the rRNA genes in eukaryotes. Previous studie... more Epigenetic control mechanisms silence about half of the rRNA genes in eukaryotes. Previous studies have demonstrated that recruitment of NoRC, a SNF2h-containing remodeling complex, silences rRNA gene transcription. NoRC mediates histone H4 deacetylation, histone H3-Lys9 dimethylation, and de novo DNA methylation, thus establishing heterochromatic features at the rRNA gene promoter. Here we show that inhibition of any of these activities alleviates NoRC-dependent silencing, indicating that these processes are intimately linked. We have studied the temporal order of epigenetic events at the rRNA gene promoter during gene silencing and demonstrate that recruitment of NoRC by TTF-I is a prerequisite for the deacetylation of histone H4 and the dimethylation of histone H3-Lys9. Inhibition of histone deacetylation prevents DNA methylation, while inhibition of DNA methylation does not affect histone modification. Importantly, ATP-dependent chromatin remodeling is required for methylation o...

Nucleic acids research, 2004

The transcription termination factor (TTF)-I is a multifunctional nucleolar protein that terminat... more The transcription termination factor (TTF)-I is a multifunctional nucleolar protein that terminates ribosomal gene transcription, mediates replication fork arrest and regulates RNA polymerase I transcription on chromatin. TTF-I plays a dual role in rDNA regulation, being involved in both activation and silencing of rDNA transcription. The N-terminal part of TTF-I contains a negative regulatory domain (NRD) that inhibits DNA binding. Here we show that interactions between the NRD and the C-terminal part of TTF-I mask the DNA-binding domain of TTF-I. However, interaction with TIP5, a subunit of the nucleolar chromatin remodeling complex, NoRC, recovers DNA-binding activity. We have mapped the protein domains that mediate the interaction between TTF-I and TIP5. The association of TIP5 with the NRD facilitates DNA binding of TTF-I and leads to the recruitment of NoRC to the rDNA promoter. Thus, TTF-I and NoRC act in concert to silence rDNA transcription.

Annual Review of Cell and Developmental Biology, 2008

In eukaryotes, the genes encoding ribosomal RNAs (rDNA) exist in two distinct epigenetic states t... more In eukaryotes, the genes encoding ribosomal RNAs (rDNA) exist in two distinct epigenetic states that can be distinguished by a specific chromatin structure that is maintained throughout the cell cycle and is inherited from one cell to another. The fact that even in proliferating cells with a high demand of protein synthesis a fraction of rDNA is silenced provides a unique possibility to decipher the mechanism underlying epigenetic regulation of rDNA. This chapter summarizes our knowledge of the molecular mechanisms that establish and propagate the epigenetic state of rRNA genes, unraveling a complex interplay of DNA methyltransferases and histone-modifying enzymes that act in concert with chromatin remodeling complexes and RNA-guided mechanisms to define the transcriptional state of rDNA. We also review the critical role of the RNA polymerase I transcription factor UBF in the formation of active nucleolar organizer regions (NORs) and maintenance of the euchromatic state of rRNA genes.

EMBO reports, 2000

Cells carefully modulate the rate of rRNA transcription in order to prevent an overinvestment in ... more Cells carefully modulate the rate of rRNA transcription in order to prevent an overinvestment in ribosome synthesis under less favorable nutritional conditions. In mammals, growthdependent regulation of RNA polymerase I (Pol I) transcription is mediated by TIF-IA, an essential initiation factor that is active in extracts from growing but not starved or cycloheximidetreated mammalian cells. Here we report the molecular cloning and functional characterization of recombinant TIF-IA, which turns out to be the mammalian homolog of the yeast factor Rrn3p. We demonstrate that TIF-IA interacts with Pol I in the absence of template DNA, augments Pol I transcription in vivo and rescues transcription in extracts from growtharrested cells in vitro.

Nature communications, Jan 12, 2016

SIRT7 is an NAD(+)-dependent protein deacetylase with important roles in ribosome biogenesis and ... more SIRT7 is an NAD(+)-dependent protein deacetylase with important roles in ribosome biogenesis and cell proliferation. Previous studies have established that SIRT7 is associated with RNA polymerase I, interacts with pre-ribosomal RNA (rRNA) and promotes rRNA synthesis. Here we show that SIRT7 is also associated with small nucleolar RNP (snoRNPs) that are involved in pre-rRNA processing and rRNA maturation. Knockdown of SIRT7 impairs U3 snoRNA dependent early cleavage steps that are necessary for generation of 18S rRNA. Mechanistically, SIRT7 deacetylates U3-55k, a core component of the U3 snoRNP complex, and reversible acetylation of U3-55k modulates the association of U3-55k with U3 snoRNA. Deacetylation by SIRT7 enhances U3-55k binding to U3 snoRNA, which is a prerequisite for pre-rRNA processing. Under stress conditions, SIRT7 is released from nucleoli, leading to hyperacetylation of U3-55k and attenuation of pre-rRNA processing. The results reveal a multifaceted role of SIRT7 in r...

Nucleic Acids Research, 1990

The EMBO journal, Jan 15, 1995

Termination of mouse ribosomal gene transcription by RNA polymerase I (Pol I) requires the specif... more Termination of mouse ribosomal gene transcription by RNA polymerase I (Pol I) requires the specific interaction of a DNA binding protein, mTTF-I, with an 18 bp sequence element located downstream of the rRNA coding region. Here we describe the molecular cloning and functional characterization of the cDNA encoding this transcription termination factor. Recombinant mTTF-I binds specifically to the murine terminator elements and terminates Pol I transcription in a reconstituted in vitro system. Deletion analysis has defined a modular structure of mTTF-I comprising a dispensable N-terminal half, a large C-terminal DNA binding region and an internal domain which is required for transcription termination. Significantly, the C-terminal region of mTTF-I reveals striking homology to the DNA binding domains of the proto-oncogene c-Myb and the yeast transcription factor Reb1p. Site-directed mutagenesis of one of the tryptophan residues that is conserved in the homology region of c-Myb, Reb1p a...

The EMBO journal, 1983

We have placed a 225-bp fragment from the 5' end of the mouse rDNA transcription unit (from -... more We have placed a 225-bp fragment from the 5' end of the mouse rDNA transcription unit (from -169 to +56) in front of the SV40 tumor antigen coding sequence. After microinjection of this chimeric plasmid into nuclei of mouse L-cells expression of SV40 large T antigen has been observed. The expression of T antigen was dependent on the correct orientation of the rDNA fragment relative to the T antigen-coding region and was seen only in mouse cells. This indicates that the 225-bp rDNA fragment contains the sequence information required for pre-rRNA transcription and demonstrates for the first time that a protein-coding gene can be transcribed and expressed under the control of an RNA polymerase I promoter.

The EMBO journal, 1988

The structural requirements for 3' end formation of mouse pre-rRNA have been studied. Three s... more The structural requirements for 3' end formation of mouse pre-rRNA have been studied. Three sequence elements are shown to be required for accurate and efficient transcription termination by RNA polymerase I (pol I) assayed both in a cell-free transcription system and in vivo after transfection of rDNA minigene constructs into 3T6 cells. The essential termination signal is the previously identified 18-bp conserved element (AGGTCGACCAGATTANTCCG) that contains a SalI restriction site. This sequence motif (the 'Sal box') interacts with a specific nuclear protein that directs transcription termination. Here we demonstrate that the 'Sal box' sequence motif is sufficient for termination of pol I transcripts and the release of the nascent RNA chains from the template. However, in addition to this termination signal, pyrimidine-rich sequences flanking the box at the 5' and 3' side play a role in the efficient and correct formation of authentic pre-rRNA termini. D...

The Journal of biological chemistry, Jan 25, 1991

We have used purified transcription factors and RNA polymerase I (pol I) to analyze the individua... more We have used purified transcription factors and RNA polymerase I (pol I) to analyze the individual steps involved in the formation of transcription initiation complexes at the mouse ribosomal gene promoter in vitro. Complete assembly of transcription complexes requires pol I and at least four auxiliary factors, termed TIF-IA, TIF-IB, TIF-IC, and UBF. Preincubation and template commitment, as well as order of addition protocols, were used to discriminate between various intermediate complexes generated during assembly of the initiation complex. As a first step, TIF-IB binds to the core promoter, a process that is facilitated by the upstream control element and the upstream binding factor (UBF). Binding of TIF-IB to the rDNA promoter results in the formation of a functional preinitiation complex (complex 1), which is stable for many rounds of transcription. UBF, which on its own does not stably associate with the rDNA promoter, triggers a 5-10-fold increase in the overall amount of th...

Journal of Neuroscience, 2008

Transcription of rRNA genes is essential for maintaining nucleolar integrity, a hallmark for the ... more Transcription of rRNA genes is essential for maintaining nucleolar integrity, a hallmark for the healthy state and proliferation rate of a cell. Inhibition of rRNA synthesis leads to disintegration of the nucleolus, elevated levels of p53, and induction of cell suicide, identifying the nucleolus as a critical stress sensor. Whether deregulation of rRNA synthesis is causally involved in neurodegeneration by promoting cell death and/or by inhibiting cellular growth has however not been addressed. The transcription factor TIF-IA plays a central role in mammalian rRNA synthesis, regulating the transcriptional activity of RNA polymerase I. To investigate the consequences of nucleolar perturbation in the nervous system, we have chosen to specifically ablate the gene encoding the transcription factor TIF-IA in two different contexts: neural progenitors and hippocampal neurons. Here, we show that ablation of TIF-IA leads to impaired nucleolar activity and results in increased levels of the proapoptotic transcription factor p53 in both neural progenitors and hippocampal neurons but induces rapid apoptosis only in neural progenitors. Nondividing cells of the adult hippocampus are more refractory to loss of rRNA transcription and face a protracted degeneration. Our study provides an unexploited strategy to initiate neurodegeneration based on perturbation of nucleolar function and underscores a novel perspective to study the cellular and molecular changes involved in the neurodegenerative processes.

Proceedings of the National Academy of Sciences, 1986

A purified transcription factor (TIF-IB) binds to essential sequences of the mouse rDNA promoter ... more A purified transcription factor (TIF-IB) binds to essential sequences of the mouse rDNA promoter (cell-free transcription systems/RNA polymerase I/transcription factors/DNA-protein interactions)

Nucleic Acids Research, 1987

The rat rDNA transcription unit extends 560-565 bp into the spacer downstream of the 28S rRNA cod... more The rat rDNA transcription unit extends 560-565 bp into the spacer downstream of the 28S rRNA coding region. The site of 3' end formation is located in front of a conserved 18 bp sequence element which is repeated eight times in the 3' spacer between nucleotides +582 and +1767 relative to the 3' terminus of 28S rRNA. These sequence motifs are almost identical to the RNA polymerase I transcription termination signal (the Sal I box) that has previously been identified in the 3' terminal spacer of mouse rDNA. Interestingly, each of the single rat elements contains one or more base substitutions as compared to the murine Sal I box. Individual rat Sal I boxes were cloned and tested for their ability to interact with the murine termination factor and to direct transcription termination. It is shown that five of the eight boxes represent genuine transcription terminators, while three elements contain certain point mutations which are not recognized by the nuclear Sal I box-binding protein and therefore are functionally inactive.

Molecular Cell, 2006

Transcripts originating from the intergenic spacer (IGS) that separates rRNA genes (rDNA) have be... more Transcripts originating from the intergenic spacer (IGS) that separates rRNA genes (rDNA) have been known for two decades; their biological role, however, is largely unknown. Here we show that IGS transcripts are required for establishing and maintaining a specific heterochromatic configuration at the promoter of a subset of rDNA arrays. The mechanism of action appears to be mediated through the interaction of TIP5, the large subunit of the chromatin remodeling complex NoRC, with 150-300 nucleotide RNAs that are complementary in sequence to the rDNA promoter. Mutations that abrogate RNA binding of TIP5 impair the association of NoRC with rDNA and fail to promote H3K9&H4K20 methylation and HP1 recruitment. Knockdown of IGS transcripts abolishes the nucleolar localization of NoRC, decreases DNA methylation, and enhances rDNA transcription. The results reveal an important contribution of processed IGS transcripts in chromatin structure and epigenetic control of the rDNA locus.