JRK binds satellite III DNA and is necessary for the heat shock response
JRK is a DNA‐binding protein of the pogo superfamily of transposons, which includes the well‐known centromere binding protein B (CENP‐B). Jrk null mice exhibit epilepsy, and growth and reproductive disorders, consistent with its relatively high expression in the brain and reproductive tissues. Human...
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Published in | Cell biology international Vol. 48; no. 8; pp. 1212 - 1222 |
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Main Authors | , , , , , , |
Format | Journal Article |
Language | English |
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01.08.2024
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Abstract | JRK is a DNA‐binding protein of the pogo superfamily of transposons, which includes the well‐known centromere binding protein B (CENP‐B). Jrk null mice exhibit epilepsy, and growth and reproductive disorders, consistent with its relatively high expression in the brain and reproductive tissues. Human JRK DNA variants and gene expression levels are implicated in cancers and neuropsychiatric disorders. JRK protein modulates β‐catenin–TCF activity but little is known of its cellular functions. Based on its homology to CENP‐B, we determined whether JRK binds centromeric or other satellite DNAs. We show that human JRK binds satellite III DNA, which is abundant at the chromosome 9q12 juxtacentromeric region and on Yq12, both sites of nuclear stress body assembly. Human JRK‐GFP overexpressed in HeLa cells strongly localises to 9q12. Using an anti‐JRK antiserum we show that endogenous JRK co‐localises with a subset of centromeres in non‐stressed cells, and with heat shock factor 1 following heat shock. Knockdown of JRK in HeLa cells proportionately reduces heat shock protein gene expression in heat‐shocked cells. A role for JRK in regulating the heat shock response is consistent with the mouse Jrk null phenotype and suggests that human JRK may act as a modifier of diseases with a cellular stress component. |
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AbstractList | JRK is a DNA‐binding protein of the pogo superfamily of transposons, which includes the well‐known centromere binding protein B (CENP‐B). Jrk null mice exhibit epilepsy, and growth and reproductive disorders, consistent with its relatively high expression in the brain and reproductive tissues. Human JRK DNA variants and gene expression levels are implicated in cancers and neuropsychiatric disorders. JRK protein modulates β‐catenin–TCF activity but little is known of its cellular functions. Based on its homology to CENP‐B, we determined whether JRK binds centromeric or other satellite DNAs. We show that human JRK binds satellite III DNA, which is abundant at the chromosome 9q12 juxtacentromeric region and on Yq12, both sites of nuclear stress body assembly. Human JRK‐GFP overexpressed in HeLa cells strongly localises to 9q12. Using an anti‐JRK antiserum we show that endogenous JRK co‐localises with a subset of centromeres in non‐stressed cells, and with heat shock factor 1 following heat shock. Knockdown of JRK in HeLa cells proportionately reduces heat shock protein gene expression in heat‐shocked cells. A role for JRK in regulating the heat shock response is consistent with the mouse Jrk null phenotype and suggests that human JRK may act as a modifier of diseases with a cellular stress component. JRK is a DNA-binding protein of the pogo superfamily of transposons, which includes the well-known centromere binding protein B (CENP-B). Jrk null mice exhibit epilepsy, and growth and reproductive disorders, consistent with its relatively high expression in the brain and reproductive tissues. Human JRK DNA variants and gene expression levels are implicated in cancers and neuropsychiatric disorders. JRK protein modulates β-catenin-TCF activity but little is known of its cellular functions. Based on its homology to CENP-B, we determined whether JRK binds centromeric or other satellite DNAs. We show that human JRK binds satellite III DNA, which is abundant at the chromosome 9q12 juxtacentromeric region and on Yq12, both sites of nuclear stress body assembly. Human JRK-GFP overexpressed in HeLa cells strongly localises to 9q12. Using an anti-JRK antiserum we show that endogenous JRK co-localises with a subset of centromeres in non-stressed cells, and with heat shock factor 1 following heat shock. Knockdown of JRK in HeLa cells proportionately reduces heat shock protein gene expression in heat-shocked cells. A role for JRK in regulating the heat shock response is consistent with the mouse Jrk null phenotype and suggests that human JRK may act as a modifier of diseases with a cellular stress component.JRK is a DNA-binding protein of the pogo superfamily of transposons, which includes the well-known centromere binding protein B (CENP-B). Jrk null mice exhibit epilepsy, and growth and reproductive disorders, consistent with its relatively high expression in the brain and reproductive tissues. Human JRK DNA variants and gene expression levels are implicated in cancers and neuropsychiatric disorders. JRK protein modulates β-catenin-TCF activity but little is known of its cellular functions. Based on its homology to CENP-B, we determined whether JRK binds centromeric or other satellite DNAs. We show that human JRK binds satellite III DNA, which is abundant at the chromosome 9q12 juxtacentromeric region and on Yq12, both sites of nuclear stress body assembly. Human JRK-GFP overexpressed in HeLa cells strongly localises to 9q12. Using an anti-JRK antiserum we show that endogenous JRK co-localises with a subset of centromeres in non-stressed cells, and with heat shock factor 1 following heat shock. Knockdown of JRK in HeLa cells proportionately reduces heat shock protein gene expression in heat-shocked cells. A role for JRK in regulating the heat shock response is consistent with the mouse Jrk null phenotype and suggests that human JRK may act as a modifier of diseases with a cellular stress component. |
Author | Lindsay, Andrew Ahmed, Abrar Williams, John M. Ning, Zhenfei Waldron, Rosalie Rodriguez, Maria de los Angeles Becerra Moore, Tom |
Author_xml | – sequence: 1 givenname: Rosalie surname: Waldron fullname: Waldron, Rosalie organization: University College Cork – sequence: 2 givenname: Maria de los Angeles Becerra surname: Rodriguez fullname: Rodriguez, Maria de los Angeles Becerra organization: University College Cork – sequence: 3 givenname: John M. surname: Williams fullname: Williams, John M. organization: University College Cork – sequence: 4 givenname: Zhenfei surname: Ning fullname: Ning, Zhenfei organization: University College Cork – sequence: 5 givenname: Abrar surname: Ahmed fullname: Ahmed, Abrar organization: University College Cork – sequence: 6 givenname: Andrew orcidid: 0000-0001-9693-7022 surname: Lindsay fullname: Lindsay, Andrew organization: University College Cork – sequence: 7 givenname: Tom orcidid: 0000-0001-9712-9625 surname: Moore fullname: Moore, Tom email: t.moore@ucc.ie organization: University College Cork |
BackLink | https://www.ncbi.nlm.nih.gov/pubmed/38946594$$D View this record in MEDLINE/PubMed |
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Keywords | satellite DNA centromere heat shock protein heat shock factor protein 1 CENP‐B TIGGER |
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Snippet | JRK is a DNA‐binding protein of the pogo superfamily of transposons, which includes the well‐known centromere binding protein B (CENP‐B). Jrk null mice exhibit... JRK is a DNA-binding protein of the pogo superfamily of transposons, which includes the well-known centromere binding protein B (CENP-B). Jrk null mice exhibit... |
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SubjectTerms | Antisera CENP‐B centromere Centromeres Chromosome 9 Epilepsy Gene expression heat shock factor protein 1 Heat shock factors heat shock protein Heat shock proteins Homology Mental disorders Phenotypes Protein B Proteins Satellite DNA Tcf protein TIGGER Transposons |
Title | JRK binds satellite III DNA and is necessary for the heat shock response |
URI | https://onlinelibrary.wiley.com/doi/abs/10.1002%2Fcbin.12216 https://www.ncbi.nlm.nih.gov/pubmed/38946594 https://www.proquest.com/docview/3080013297 https://www.proquest.com/docview/3074133818 |
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