Human tra2-beta1 autoregulates its protein concentration by infuencing alternative splicing of its pre-mRNA

Peter Stoilov; Rosette Dauod; Oliver Nayler; Stefan Stamm

doi:10.1093/hmg/ddh051

Human tra2-beta1 autoregulates its protein concentration by infuencing alternative splicing of its pre-mRNA

Peter Stoilov
, Rosette Dauod
, Oliver Nayler
, Stefan Stamm

Producción científica: Article › revisión exhaustiva

154 Citas (Scopus)

Resumen

HTRA2-BETA1 is an SR-like protein that regulates alternative splice site selection in a concentration-dependent manner. Its proper concentration is important as several pathological states are associated with its change. We investigated the mechanism that controls the cellular HTRA2-BETA1 concentration and found it utilizes a negative feedback loop to regulate the splicing of its exon 2. TRA2-BETA1 binds to four enhancers present in exon 2, which activates its inclusion. Inclusion of exon 2 generates mRNAs that are not translated into proteins. Mutations of exon 2 enhancers demonstrate that TRA2-BETA1 binds a degenerate sequence GHVVGANR, which is found more frequently in exons than in introns. Hyperphosphorylation of TRA2-BETA1 strongly reduces its binding to RNA. Presence of the CLK2 kinase prevents the usage of exons 2 and 3, generating the htra2-beta3 mRNA. The resulting HTRA2-BETA3 protein lacks the first RS domain of HTRA2-BETA1, is expressed in several tissues and has no influence on tra2-beta splice site selection. HTRA2-BETA1 interacting proteins promote exon 2 skipping by sequestering it, which upregulates the HTRA2-BETA1 protein synthesis. We propose that the regulation of the tra2-beta pre-mRNA alternative splicing provides a robust and sensitive molecular sensor that measures the ratio between HTRA2-BETA1 and its interacting proteins.

Idioma original	English
Páginas (desde-hasta)	509-524
Número de páginas	16
Publicación	Human Molecular Genetics
Volumen	13
N.º	5
DOI	https://doi.org/10.1093/hmg/ddh051
Estado	Published - mar 1 2004

Nota bibliográfica

Funding Information:
We are grateful to Dr Javier Caceres for providing the SF2/ ASF-FF/DD clone, to Professor Albrecht Bindereif for helpful discussion, to Dr Andreas Pahl for his assistance in performing the quantitative real time PCR experiments and Guiseppe Biamonti for the full length SAF-B clone. We thank Juan Valcarcel and Douglas Black for critical reading of the manuscript. This work was supported by the Deutsche Forschungsgemeinschaft and the European Union (QLK3-CT-2002-02062).

Financiación

We are grateful to Dr Javier Caceres for providing the SF2/ ASF-FF/DD clone, to Professor Albrecht Bindereif for helpful discussion, to Dr Andreas Pahl for his assistance in performing the quantitative real time PCR experiments and Guiseppe Biamonti for the full length SAF-B clone. We thank Juan Valcarcel and Douglas Black for critical reading of the manuscript. This work was supported by the Deutsche Forschungsgemeinschaft and the European Union (QLK3-CT-2002-02062).

Financiadores	Número del financiador
European Commission	QLK3-CT-2002-02062
Deutsche Forschungsgemeinschaft

ASJC Scopus subject areas

Molecular Biology
Genetics
Genetics(clinical)

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10.1093/hmg/ddh051

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title = "Human tra2-beta1 autoregulates its protein concentration by infuencing alternative splicing of its pre-mRNA",

abstract = "HTRA2-BETA1 is an SR-like protein that regulates alternative splice site selection in a concentration-dependent manner. Its proper concentration is important as several pathological states are associated with its change. We investigated the mechanism that controls the cellular HTRA2-BETA1 concentration and found it utilizes a negative feedback loop to regulate the splicing of its exon 2. TRA2-BETA1 binds to four enhancers present in exon 2, which activates its inclusion. Inclusion of exon 2 generates mRNAs that are not translated into proteins. Mutations of exon 2 enhancers demonstrate that TRA2-BETA1 binds a degenerate sequence GHVVGANR, which is found more frequently in exons than in introns. Hyperphosphorylation of TRA2-BETA1 strongly reduces its binding to RNA. Presence of the CLK2 kinase prevents the usage of exons 2 and 3, generating the htra2-beta3 mRNA. The resulting HTRA2-BETA3 protein lacks the first RS domain of HTRA2-BETA1, is expressed in several tissues and has no influence on tra2-beta splice site selection. HTRA2-BETA1 interacting proteins promote exon 2 skipping by sequestering it, which upregulates the HTRA2-BETA1 protein synthesis. We propose that the regulation of the tra2-beta pre-mRNA alternative splicing provides a robust and sensitive molecular sensor that measures the ratio between HTRA2-BETA1 and its interacting proteins.",

author = "Peter Stoilov and Rosette Dauod and Oliver Nayler and Stefan Stamm",

note = "Funding Information: We are grateful to Dr Javier Caceres for providing the SF2/ ASF-FF/DD clone, to Professor Albrecht Bindereif for helpful discussion, to Dr Andreas Pahl for his assistance in performing the quantitative real time PCR experiments and Guiseppe Biamonti for the full length SAF-B clone. We thank Juan Valcarcel and Douglas Black for critical reading of the manuscript. This work was supported by the Deutsche Forschungsgemeinschaft and the European Union (QLK3-CT-2002-02062).",

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AU - Nayler, Oliver

AU - Stamm, Stefan

N1 - Funding Information: We are grateful to Dr Javier Caceres for providing the SF2/ ASF-FF/DD clone, to Professor Albrecht Bindereif for helpful discussion, to Dr Andreas Pahl for his assistance in performing the quantitative real time PCR experiments and Guiseppe Biamonti for the full length SAF-B clone. We thank Juan Valcarcel and Douglas Black for critical reading of the manuscript. This work was supported by the Deutsche Forschungsgemeinschaft and the European Union (QLK3-CT-2002-02062).

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N2 - HTRA2-BETA1 is an SR-like protein that regulates alternative splice site selection in a concentration-dependent manner. Its proper concentration is important as several pathological states are associated with its change. We investigated the mechanism that controls the cellular HTRA2-BETA1 concentration and found it utilizes a negative feedback loop to regulate the splicing of its exon 2. TRA2-BETA1 binds to four enhancers present in exon 2, which activates its inclusion. Inclusion of exon 2 generates mRNAs that are not translated into proteins. Mutations of exon 2 enhancers demonstrate that TRA2-BETA1 binds a degenerate sequence GHVVGANR, which is found more frequently in exons than in introns. Hyperphosphorylation of TRA2-BETA1 strongly reduces its binding to RNA. Presence of the CLK2 kinase prevents the usage of exons 2 and 3, generating the htra2-beta3 mRNA. The resulting HTRA2-BETA3 protein lacks the first RS domain of HTRA2-BETA1, is expressed in several tissues and has no influence on tra2-beta splice site selection. HTRA2-BETA1 interacting proteins promote exon 2 skipping by sequestering it, which upregulates the HTRA2-BETA1 protein synthesis. We propose that the regulation of the tra2-beta pre-mRNA alternative splicing provides a robust and sensitive molecular sensor that measures the ratio between HTRA2-BETA1 and its interacting proteins.

AB - HTRA2-BETA1 is an SR-like protein that regulates alternative splice site selection in a concentration-dependent manner. Its proper concentration is important as several pathological states are associated with its change. We investigated the mechanism that controls the cellular HTRA2-BETA1 concentration and found it utilizes a negative feedback loop to regulate the splicing of its exon 2. TRA2-BETA1 binds to four enhancers present in exon 2, which activates its inclusion. Inclusion of exon 2 generates mRNAs that are not translated into proteins. Mutations of exon 2 enhancers demonstrate that TRA2-BETA1 binds a degenerate sequence GHVVGANR, which is found more frequently in exons than in introns. Hyperphosphorylation of TRA2-BETA1 strongly reduces its binding to RNA. Presence of the CLK2 kinase prevents the usage of exons 2 and 3, generating the htra2-beta3 mRNA. The resulting HTRA2-BETA3 protein lacks the first RS domain of HTRA2-BETA1, is expressed in several tissues and has no influence on tra2-beta splice site selection. HTRA2-BETA1 interacting proteins promote exon 2 skipping by sequestering it, which upregulates the HTRA2-BETA1 protein synthesis. We propose that the regulation of the tra2-beta pre-mRNA alternative splicing provides a robust and sensitive molecular sensor that measures the ratio between HTRA2-BETA1 and its interacting proteins.

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DO - 10.1093/hmg/ddh051

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SP - 509

EP - 524

JO - Human Molecular Genetics

JF - Human Molecular Genetics

IS - 5

ER -

Human tra2-beta1 autoregulates its protein concentration by infuencing alternative splicing of its pre-mRNA

Resumen

Nota bibliográfica

Financiación

ASJC Scopus subject areas

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