Transcriptional repressor Capicua is a gatekeeper of cell-intrinsic interferon responses

Senthamizharasi Manivasagam; Julianna Han; Athmane Teghanemt; Henry Keen; Boopathi Sownthirarajan; Boyang Cheng; Abhiraj Singh; Abigail Lewis; Olivia A. Vogel; Gayathri Loganathan; Lei Huang; Maryline Panis; David K. Meyerholz; Benjamin tenOever; Jasmine T. Perez; Santhakumar Manicassamy; Priya D. Issuree; Balaji Manicassamy

doi:10.1016/j.chom.2025.02.017

Transcriptional repressor Capicua is a gatekeeper of cell-intrinsic interferon responses

Senthamizharasi Manivasagam, Julianna Han, Athmane Teghanemt, Henry Keen, Boopathi Sownthirarajan, Boyang Cheng, Abhiraj Singh, Abigail Lewis, Olivia A. Vogel, Gayathri Loganathan, Lei Huang, Maryline Panis, David K. Meyerholz, Benjamin tenOever, Jasmine T. Perez, Santhakumar Manicassamy, Priya D. Issuree, Balaji Manicassamy

Research output: Contribution to journal › Article › peer-review

Abstract

Early detection of viral infection and rapid activation of host antiviral defenses through transcriptional upregulation of interferons (IFNs) and IFN-stimulated genes (ISGs) are critical for controlling infection. However, aberrant production of IFN in the absence of viral infection leads to auto-inflammation and can be detrimental to the host. Here, we show that the DNA-binding transcriptional repressor complex composed of Capicua (CIC) and Ataxin-1 like (ATXN1L) binds to an 8-nucleotide motif near IFN and ISG promoters and prevents erroneous expression of inflammatory genes under homeostasis in humans and mice. By contrast, during respiratory viral infection, activation of the mitogen-activated protein kinase (MAPK) pathway results in rapid degradation of the CIC-ATXN1L complex, thereby relieving repression and allowing for robust induction of IFN and ISGs. Together, our studies define a new paradigm for host regulation of IFN and ISGs through the evolutionarily conserved CIC-ATXN1L transcriptional repressor complex during homeostasis and viral infection.

Original language	English
Journal	Cell Host and Microbe
DOIs	https://doi.org/10.1016/j.chom.2025.02.017
State	Accepted/In press - 2025
Externally published	Yes

Keywords

ATXN1L
cell-intrinsic antiviral responses
CIC
IAV
IFN
influenza virus
interferon
interferon-stimulated genes
ISG
virus-host interactions

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10.1016/j.chom.2025.02.017

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Manivasagam, S., Han, J., Teghanemt, A., Keen, H., Sownthirarajan, B., Cheng, B., Singh, A., Lewis, A., Vogel, O. A., Loganathan, G., Huang, L., Panis, M., Meyerholz, D. K., tenOever, B., Perez, J. T., Manicassamy, S., Issuree, P. D., & Manicassamy, B. (Accepted/In press). Transcriptional repressor Capicua is a gatekeeper of cell-intrinsic interferon responses. Cell Host and Microbe. https://doi.org/10.1016/j.chom.2025.02.017

@article{83d05927ffb74a6ba6a077d502c68dee,

title = "Transcriptional repressor Capicua is a gatekeeper of cell-intrinsic interferon responses",

abstract = "Early detection of viral infection and rapid activation of host antiviral defenses through transcriptional upregulation of interferons (IFNs) and IFN-stimulated genes (ISGs) are critical for controlling infection. However, aberrant production of IFN in the absence of viral infection leads to auto-inflammation and can be detrimental to the host. Here, we show that the DNA-binding transcriptional repressor complex composed of Capicua (CIC) and Ataxin-1 like (ATXN1L) binds to an 8-nucleotide motif near IFN and ISG promoters and prevents erroneous expression of inflammatory genes under homeostasis in humans and mice. By contrast, during respiratory viral infection, activation of the mitogen-activated protein kinase (MAPK) pathway results in rapid degradation of the CIC-ATXN1L complex, thereby relieving repression and allowing for robust induction of IFN and ISGs. Together, our studies define a new paradigm for host regulation of IFN and ISGs through the evolutionarily conserved CIC-ATXN1L transcriptional repressor complex during homeostasis and viral infection.",

keywords = "ATXN1L, cell-intrinsic antiviral responses, CIC, IAV, IFN, influenza virus, interferon, interferon-stimulated genes, ISG, virus-host interactions",

author = "Senthamizharasi Manivasagam and Julianna Han and Athmane Teghanemt and Henry Keen and Boopathi Sownthirarajan and Boyang Cheng and Abhiraj Singh and Abigail Lewis and Vogel, {Olivia A.} and Gayathri Loganathan and Lei Huang and Maryline Panis and Meyerholz, {David K.} and Benjamin tenOever and Perez, {Jasmine T.} and Santhakumar Manicassamy and Issuree, {Priya D.} and Balaji Manicassamy",

note = "Publisher Copyright: {\textcopyright} 2025 The Author(s)",

year = "2025",

doi = "10.1016/j.chom.2025.02.017",

language = "English",

journal = "Cell Host and Microbe",

issn = "1931-3128",

publisher = "Cell Press",

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Manivasagam, S, Han, J, Teghanemt, A, Keen, H, Sownthirarajan, B, Cheng, B, Singh, A, Lewis, A, Vogel, OA, Loganathan, G, Huang, L, Panis, M, Meyerholz, DK, tenOever, B, Perez, JT, Manicassamy, S, Issuree, PD & Manicassamy, B 2025, 'Transcriptional repressor Capicua is a gatekeeper of cell-intrinsic interferon responses', Cell Host and Microbe. https://doi.org/10.1016/j.chom.2025.02.017

TY - JOUR

T1 - Transcriptional repressor Capicua is a gatekeeper of cell-intrinsic interferon responses

AU - Manivasagam, Senthamizharasi

AU - Han, Julianna

AU - Teghanemt, Athmane

AU - Keen, Henry

AU - Sownthirarajan, Boopathi

AU - Cheng, Boyang

AU - Singh, Abhiraj

AU - Lewis, Abigail

AU - Vogel, Olivia A.

AU - Loganathan, Gayathri

AU - Huang, Lei

AU - Panis, Maryline

AU - Meyerholz, David K.

AU - tenOever, Benjamin

AU - Perez, Jasmine T.

AU - Manicassamy, Santhakumar

AU - Issuree, Priya D.

AU - Manicassamy, Balaji

PY - 2025

Y1 - 2025

N2 - Early detection of viral infection and rapid activation of host antiviral defenses through transcriptional upregulation of interferons (IFNs) and IFN-stimulated genes (ISGs) are critical for controlling infection. However, aberrant production of IFN in the absence of viral infection leads to auto-inflammation and can be detrimental to the host. Here, we show that the DNA-binding transcriptional repressor complex composed of Capicua (CIC) and Ataxin-1 like (ATXN1L) binds to an 8-nucleotide motif near IFN and ISG promoters and prevents erroneous expression of inflammatory genes under homeostasis in humans and mice. By contrast, during respiratory viral infection, activation of the mitogen-activated protein kinase (MAPK) pathway results in rapid degradation of the CIC-ATXN1L complex, thereby relieving repression and allowing for robust induction of IFN and ISGs. Together, our studies define a new paradigm for host regulation of IFN and ISGs through the evolutionarily conserved CIC-ATXN1L transcriptional repressor complex during homeostasis and viral infection.

AB - Early detection of viral infection and rapid activation of host antiviral defenses through transcriptional upregulation of interferons (IFNs) and IFN-stimulated genes (ISGs) are critical for controlling infection. However, aberrant production of IFN in the absence of viral infection leads to auto-inflammation and can be detrimental to the host. Here, we show that the DNA-binding transcriptional repressor complex composed of Capicua (CIC) and Ataxin-1 like (ATXN1L) binds to an 8-nucleotide motif near IFN and ISG promoters and prevents erroneous expression of inflammatory genes under homeostasis in humans and mice. By contrast, during respiratory viral infection, activation of the mitogen-activated protein kinase (MAPK) pathway results in rapid degradation of the CIC-ATXN1L complex, thereby relieving repression and allowing for robust induction of IFN and ISGs. Together, our studies define a new paradigm for host regulation of IFN and ISGs through the evolutionarily conserved CIC-ATXN1L transcriptional repressor complex during homeostasis and viral infection.

KW - ATXN1L

KW - cell-intrinsic antiviral responses

KW - CIC

KW - IAV

KW - IFN

KW - influenza virus

KW - interferon

KW - interferon-stimulated genes

KW - ISG

KW - virus-host interactions

UR - http://www.scopus.com/inward/record.url?scp=105000847369&partnerID=8YFLogxK

U2 - 10.1016/j.chom.2025.02.017

DO - 10.1016/j.chom.2025.02.017

M3 - Article

AN - SCOPUS:105000847369

SN - 1931-3128

JO - Cell Host and Microbe

JF - Cell Host and Microbe

ER -

Transcriptional repressor Capicua is a gatekeeper of cell-intrinsic interferon responses

Abstract

Keywords

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