Genetically heterozygous - transcriptionally homozygous IRF7 deficiency underlies herpesvirus CNS infections in humans

Marvin Werner; Jonas Holst Wolff; Justin Taft; Thomas Zillinger; Daniëla M. Hinke; Toke S. Barfod; Kerstin De Keukeleere; Franziska Winzig; Bettina Bundgaard; Ryo Narita; Thomas Wisbech Skov; Julie A. Jensen; Sofie E. Jørgensen; Charlotte S. Jørgensen; Morten K. Skouboe; Ria Lassaunière; Joke H. de Boer; Martin R. Jakobsen; Jacob G. Mikkelsen; Dusan Bogunovic; Søren R. Paludan; Renée M. van der Sluis; Trine H. Mogensen

doi:10.1084/jem.20250492

Genetically heterozygous - transcriptionally homozygous IRF7 deficiency underlies herpesvirus CNS infections in humans

Marvin Werner
, Jonas Holst Wolff
, Justin Taft
, Thomas Zillinger
, Daniëla M. Hinke
, Toke S. Barfod
, Kerstin De Keukeleere
, Franziska Winzig
, Bettina Bundgaard
, Ryo Narita
, Thomas Wisbech Skov
, Julie A. Jensen
, Sofie E. Jørgensen
, Charlotte S. Jørgensen
, Morten K. Skouboe
, Ria Lassaunière
, Joke H. de Boer
, Martin R. Jakobsen
, Jacob G. Mikkelsen
, Dusan Bogunovic

Søren R. Paludan, Renée M. van der Sluis, Trine H. Mogensen

Infection & Immunity

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

Abstract

Inborn errors of immunity (IEI) impairing brain-intrinsic immune defenses can underlie herpes simplex virus encephalitis. By whole-exome sequencing of cohorts of herpesvirus-associated recurrent lymphocytic meningitis and acute retinal necrosis, we identified two patients heterozygous for variants in interferon (IFN) regulatory factor 7 (IRF7). The expression of the Q185X (patient 1, P1) and A86Rfs23X (P2) IRF7 variants in HEK293T cells resulted in truncated IRF7 proteins that lacked IFN-transactivating ability. Peripheral blood mononuclear cells from P1 exhibited reduced type I IFN responses to HSV-2 infection. Genetic knock-in of the IRF7 Q185X variant in THP-1 cells and stem cell-derived plasmacytoid dendritic cells (pDC) confirmed the disrupted IFN expression, resulting in impaired paracrine antiviral protection of meningeal fibroblasts. Strikingly, genetically heterozygous index patient pDC, but not those of healthy carrier family members, showed expression of only the pathogenic IRF7 Q185X allele, resulting in a homozygous transcriptotype. Collectively, this study identifies genetically heterozygous but transcriptionally homozygous IRF7 deficiency as an IEI underlying herpesvirus central nervous system infection.

Original language	English
Article number	e20250492
Journal	The Journal of experimental medicine
Volume	223
Issue number	1
DOIs	https://doi.org/10.1084/jem.20250492
Publication status	Published - 5 Jan 2026

Keywords

Human disease genetics
Immunodeficiency
Infectious disease and host defense

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10.1084/jem.20250492

jem_20250492Final published version, 7.32 MBLicence: Taverne

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Werner, M., Wolff, J. H., Taft, J., Zillinger, T., Hinke, D. M., Barfod, T. S., De Keukeleere, K., Winzig, F., Bundgaard, B., Narita, R., Skov, T. W., Jensen, J. A., Jørgensen, S. E., Jørgensen, C. S., Skouboe, M. K., Lassaunière, R., de Boer, J. H., Jakobsen, M. R., Mikkelsen, J. G., ... Mogensen, T. H. (2026). Genetically heterozygous - transcriptionally homozygous IRF7 deficiency underlies herpesvirus CNS infections in humans. The Journal of experimental medicine, 223(1), Article e20250492. https://doi.org/10.1084/jem.20250492

@article{5662f3478acf422ab43a40f03473e9e4,

title = "Genetically heterozygous - transcriptionally homozygous IRF7 deficiency underlies herpesvirus CNS infections in humans",

abstract = "Inborn errors of immunity (IEI) impairing brain-intrinsic immune defenses can underlie herpes simplex virus encephalitis. By whole-exome sequencing of cohorts of herpesvirus-associated recurrent lymphocytic meningitis and acute retinal necrosis, we identified two patients heterozygous for variants in interferon (IFN) regulatory factor 7 (IRF7). The expression of the Q185X (patient 1, P1) and A86Rfs23X (P2) IRF7 variants in HEK293T cells resulted in truncated IRF7 proteins that lacked IFN-transactivating ability. Peripheral blood mononuclear cells from P1 exhibited reduced type I IFN responses to HSV-2 infection. Genetic knock-in of the IRF7 Q185X variant in THP-1 cells and stem cell-derived plasmacytoid dendritic cells (pDC) confirmed the disrupted IFN expression, resulting in impaired paracrine antiviral protection of meningeal fibroblasts. Strikingly, genetically heterozygous index patient pDC, but not those of healthy carrier family members, showed expression of only the pathogenic IRF7 Q185X allele, resulting in a homozygous transcriptotype. Collectively, this study identifies genetically heterozygous but transcriptionally homozygous IRF7 deficiency as an IEI underlying herpesvirus central nervous system infection.",

keywords = "Human disease genetics, Immunodeficiency, Infectious disease and host defense",

author = "Marvin Werner and Wolff, \{Jonas Holst\} and Justin Taft and Thomas Zillinger and Hinke, \{Dani{\"e}la M.\} and Barfod, \{Toke S.\} and \{De Keukeleere\}, Kerstin and Franziska Winzig and Bettina Bundgaard and Ryo Narita and Skov, \{Thomas Wisbech\} and Jensen, \{Julie A.\} and J{\o}rgensen, \{Sofie E.\} and J{\o}rgensen, \{Charlotte S.\} and Skouboe, \{Morten K.\} and Ria Lassauni{\`e}re and \{de Boer\}, \{Joke H.\} and Jakobsen, \{Martin R.\} and Mikkelsen, \{Jacob G.\} and Dusan Bogunovic and Paludan, \{S{\o}ren R.\} and \{van der Sluis\}, \{Ren{\'e}e M.\} and Mogensen, \{Trine H.\}",

note = "Publisher Copyright: {\textcopyright} 2025 Werner et al.",

year = "2026",

month = jan,

day = "5",

doi = "10.1084/jem.20250492",

language = "English",

volume = "223",

journal = "The Journal of experimental medicine",

issn = "0022-1007",

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Werner, M, Wolff, JH, Taft, J, Zillinger, T, Hinke, DM, Barfod, TS, De Keukeleere, K, Winzig, F, Bundgaard, B, Narita, R, Skov, TW, Jensen, JA, Jørgensen, SE, Jørgensen, CS, Skouboe, MK, Lassaunière, R, de Boer, JH, Jakobsen, MR, Mikkelsen, JG, Bogunovic, D, Paludan, SR, van der Sluis, RM & Mogensen, TH 2026, 'Genetically heterozygous - transcriptionally homozygous IRF7 deficiency underlies herpesvirus CNS infections in humans', The Journal of experimental medicine, vol. 223, no. 1, e20250492. https://doi.org/10.1084/jem.20250492

TY - JOUR

T1 - Genetically heterozygous - transcriptionally homozygous IRF7 deficiency underlies herpesvirus CNS infections in humans

AU - Werner, Marvin

AU - Wolff, Jonas Holst

AU - Taft, Justin

AU - Zillinger, Thomas

AU - Hinke, Daniëla M.

AU - Barfod, Toke S.

AU - De Keukeleere, Kerstin

AU - Winzig, Franziska

AU - Bundgaard, Bettina

AU - Narita, Ryo

AU - Skov, Thomas Wisbech

AU - Jensen, Julie A.

AU - Jørgensen, Sofie E.

AU - Jørgensen, Charlotte S.

AU - Skouboe, Morten K.

AU - Lassaunière, Ria

AU - de Boer, Joke H.

AU - Jakobsen, Martin R.

AU - Mikkelsen, Jacob G.

AU - Bogunovic, Dusan

AU - Paludan, Søren R.

AU - van der Sluis, Renée M.

AU - Mogensen, Trine H.

PY - 2026/1/5

Y1 - 2026/1/5

N2 - Inborn errors of immunity (IEI) impairing brain-intrinsic immune defenses can underlie herpes simplex virus encephalitis. By whole-exome sequencing of cohorts of herpesvirus-associated recurrent lymphocytic meningitis and acute retinal necrosis, we identified two patients heterozygous for variants in interferon (IFN) regulatory factor 7 (IRF7). The expression of the Q185X (patient 1, P1) and A86Rfs23X (P2) IRF7 variants in HEK293T cells resulted in truncated IRF7 proteins that lacked IFN-transactivating ability. Peripheral blood mononuclear cells from P1 exhibited reduced type I IFN responses to HSV-2 infection. Genetic knock-in of the IRF7 Q185X variant in THP-1 cells and stem cell-derived plasmacytoid dendritic cells (pDC) confirmed the disrupted IFN expression, resulting in impaired paracrine antiviral protection of meningeal fibroblasts. Strikingly, genetically heterozygous index patient pDC, but not those of healthy carrier family members, showed expression of only the pathogenic IRF7 Q185X allele, resulting in a homozygous transcriptotype. Collectively, this study identifies genetically heterozygous but transcriptionally homozygous IRF7 deficiency as an IEI underlying herpesvirus central nervous system infection.

AB - Inborn errors of immunity (IEI) impairing brain-intrinsic immune defenses can underlie herpes simplex virus encephalitis. By whole-exome sequencing of cohorts of herpesvirus-associated recurrent lymphocytic meningitis and acute retinal necrosis, we identified two patients heterozygous for variants in interferon (IFN) regulatory factor 7 (IRF7). The expression of the Q185X (patient 1, P1) and A86Rfs23X (P2) IRF7 variants in HEK293T cells resulted in truncated IRF7 proteins that lacked IFN-transactivating ability. Peripheral blood mononuclear cells from P1 exhibited reduced type I IFN responses to HSV-2 infection. Genetic knock-in of the IRF7 Q185X variant in THP-1 cells and stem cell-derived plasmacytoid dendritic cells (pDC) confirmed the disrupted IFN expression, resulting in impaired paracrine antiviral protection of meningeal fibroblasts. Strikingly, genetically heterozygous index patient pDC, but not those of healthy carrier family members, showed expression of only the pathogenic IRF7 Q185X allele, resulting in a homozygous transcriptotype. Collectively, this study identifies genetically heterozygous but transcriptionally homozygous IRF7 deficiency as an IEI underlying herpesvirus central nervous system infection.

KW - Human disease genetics

KW - Immunodeficiency

KW - Infectious disease and host defense

UR - https://www.scopus.com/pages/publications/105020356306

U2 - 10.1084/jem.20250492

DO - 10.1084/jem.20250492

M3 - Article

C2 - 41159916

AN - SCOPUS:105020356306

SN - 0022-1007

VL - 223

JO - The Journal of experimental medicine

JF - The Journal of experimental medicine

IS - 1

M1 - e20250492

ER -

Genetically heterozygous - transcriptionally homozygous IRF7 deficiency underlies herpesvirus CNS infections in humans

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