Rescue of STAT3 Function in Hyper-IgE Syndrome Using Adenine Base Editing

Andreas C. Eberherr; Andre Maaske; Christine Wolf; Florian Giesert; Riccardo Berutti; Ejona Rusha; Anna Pertek; Miriam T. Kastlmeier; Carola Voss; Michelle Plummer; Amina Sayed; Elisabeth Graf; Renate Effner; Thomas Volz; Micha Drukker; Tim M. Strom; Thomas Meitinger; Tobias Stoeger; Alena M. Buyx; Beate Hagl; Ellen D. Renner

doi:10.1089/crispr.2020.0111

Rescue of STAT3 Function in Hyper-IgE Syndrome Using Adenine Base Editing

Andreas C. Eberherr, Andre Maaske, Christine Wolf, Florian Giesert, Riccardo Berutti, Ejona Rusha, Anna Pertek, Miriam T. Kastlmeier, Carola Voss, Michelle Plummer, Amina Sayed, Elisabeth Graf, Renate Effner, Thomas Volz, Micha Drukker, Tim M. Strom, Thomas Meitinger, Tobias Stoeger, Alena M. Buyx, Beate HaglEllen D. Renner

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

13 Scopus citations

Abstract

STAT3-hyper IgE syndrome (STAT3-HIES) is a primary immunodeficiency presenting with destructive lung disease along with other symptoms. CRISPR-Cas9-mediated adenine base editors (ABEs) have the potential to correct one of the most common STAT3-HIES causing heterozygous STAT3 mutations (c.1144C>T/p.R382W). As a proof-of-concept, we successfully applied ABEs to correct STAT3 p.R382W in patient fibroblasts and induced pluripotent stem cells (iPSCs). Treated primary STAT3-HIES patient fibroblasts showed a correction efficiency of 29% ± 7% without detectable off-target effects evaluated through whole-genome and high-throughput sequencing. Compared with untreated patient fibroblasts, corrected single-cell clones showed functional rescue of STAT3 signaling with significantly increased STAT3 DNA-binding activity and target gene expression of CCL2 and SOCS3. Patient-derived iPSCs were corrected with an efficiency of 30% ± 6% and differentiated to alveolar organoids showing preserved plasticity in treated cells. In conclusion, our results are supportive for ABE-based gene correction as a potential causative treatment of STAT3-HIES.

Original language	English
Pages (from-to)	178-190
Number of pages	13
Journal	CRISPR Journal
Volume	4
Issue number	2
DOIs	https://doi.org/10.1089/crispr.2020.0111
State	Published - 1 Apr 2021

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Eberherr, A. C., Maaske, A., Wolf, C., Giesert, F., Berutti, R., Rusha, E., Pertek, A., Kastlmeier, M. T., Voss, C., Plummer, M., Sayed, A., Graf, E., Effner, R., Volz, T., Drukker, M., Strom, T. M., Meitinger, T., Stoeger, T., Buyx, A. M., ... Renner, E. D. (2021). Rescue of STAT3 Function in Hyper-IgE Syndrome Using Adenine Base Editing. CRISPR Journal, 4(2), 178-190. https://doi.org/10.1089/crispr.2020.0111

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title = "Rescue of STAT3 Function in Hyper-IgE Syndrome Using Adenine Base Editing",

abstract = "STAT3-hyper IgE syndrome (STAT3-HIES) is a primary immunodeficiency presenting with destructive lung disease along with other symptoms. CRISPR-Cas9-mediated adenine base editors (ABEs) have the potential to correct one of the most common STAT3-HIES causing heterozygous STAT3 mutations (c.1144C>T/p.R382W). As a proof-of-concept, we successfully applied ABEs to correct STAT3 p.R382W in patient fibroblasts and induced pluripotent stem cells (iPSCs). Treated primary STAT3-HIES patient fibroblasts showed a correction efficiency of 29% ± 7% without detectable off-target effects evaluated through whole-genome and high-throughput sequencing. Compared with untreated patient fibroblasts, corrected single-cell clones showed functional rescue of STAT3 signaling with significantly increased STAT3 DNA-binding activity and target gene expression of CCL2 and SOCS3. Patient-derived iPSCs were corrected with an efficiency of 30% ± 6% and differentiated to alveolar organoids showing preserved plasticity in treated cells. In conclusion, our results are supportive for ABE-based gene correction as a potential causative treatment of STAT3-HIES.",

author = "Eberherr, {Andreas C.} and Andre Maaske and Christine Wolf and Florian Giesert and Riccardo Berutti and Ejona Rusha and Anna Pertek and Kastlmeier, {Miriam T.} and Carola Voss and Michelle Plummer and Amina Sayed and Elisabeth Graf and Renate Effner and Thomas Volz and Micha Drukker and Strom, {Tim M.} and Thomas Meitinger and Tobias Stoeger and Buyx, {Alena M.} and Beate Hagl and Renner, {Ellen D.}",

note = "Publisher Copyright: Copyright {\textcopyright} 2021, Mary Ann Liebert, Inc.",

year = "2021",

month = apr,

day = "1",

doi = "10.1089/crispr.2020.0111",

language = "English",

volume = "4",

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journal = "CRISPR Journal",

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Eberherr, AC, Maaske, A, Wolf, C, Giesert, F, Berutti, R, Rusha, E, Pertek, A, Kastlmeier, MT, Voss, C, Plummer, M, Sayed, A, Graf, E, Effner, R, Volz, T, Drukker, M, Strom, TM, Meitinger, T, Stoeger, T, Buyx, AM, Hagl, B & Renner, ED 2021, 'Rescue of STAT3 Function in Hyper-IgE Syndrome Using Adenine Base Editing', CRISPR Journal, vol. 4, no. 2, pp. 178-190. https://doi.org/10.1089/crispr.2020.0111

TY - JOUR

T1 - Rescue of STAT3 Function in Hyper-IgE Syndrome Using Adenine Base Editing

AU - Eberherr, Andreas C.

AU - Maaske, Andre

AU - Wolf, Christine

AU - Giesert, Florian

AU - Berutti, Riccardo

AU - Rusha, Ejona

AU - Pertek, Anna

AU - Kastlmeier, Miriam T.

AU - Voss, Carola

AU - Plummer, Michelle

AU - Sayed, Amina

AU - Graf, Elisabeth

AU - Effner, Renate

AU - Volz, Thomas

AU - Drukker, Micha

AU - Strom, Tim M.

AU - Meitinger, Thomas

AU - Stoeger, Tobias

AU - Buyx, Alena M.

AU - Hagl, Beate

AU - Renner, Ellen D.

PY - 2021/4/1

Y1 - 2021/4/1

N2 - STAT3-hyper IgE syndrome (STAT3-HIES) is a primary immunodeficiency presenting with destructive lung disease along with other symptoms. CRISPR-Cas9-mediated adenine base editors (ABEs) have the potential to correct one of the most common STAT3-HIES causing heterozygous STAT3 mutations (c.1144C>T/p.R382W). As a proof-of-concept, we successfully applied ABEs to correct STAT3 p.R382W in patient fibroblasts and induced pluripotent stem cells (iPSCs). Treated primary STAT3-HIES patient fibroblasts showed a correction efficiency of 29% ± 7% without detectable off-target effects evaluated through whole-genome and high-throughput sequencing. Compared with untreated patient fibroblasts, corrected single-cell clones showed functional rescue of STAT3 signaling with significantly increased STAT3 DNA-binding activity and target gene expression of CCL2 and SOCS3. Patient-derived iPSCs were corrected with an efficiency of 30% ± 6% and differentiated to alveolar organoids showing preserved plasticity in treated cells. In conclusion, our results are supportive for ABE-based gene correction as a potential causative treatment of STAT3-HIES.

AB - STAT3-hyper IgE syndrome (STAT3-HIES) is a primary immunodeficiency presenting with destructive lung disease along with other symptoms. CRISPR-Cas9-mediated adenine base editors (ABEs) have the potential to correct one of the most common STAT3-HIES causing heterozygous STAT3 mutations (c.1144C>T/p.R382W). As a proof-of-concept, we successfully applied ABEs to correct STAT3 p.R382W in patient fibroblasts and induced pluripotent stem cells (iPSCs). Treated primary STAT3-HIES patient fibroblasts showed a correction efficiency of 29% ± 7% without detectable off-target effects evaluated through whole-genome and high-throughput sequencing. Compared with untreated patient fibroblasts, corrected single-cell clones showed functional rescue of STAT3 signaling with significantly increased STAT3 DNA-binding activity and target gene expression of CCL2 and SOCS3. Patient-derived iPSCs were corrected with an efficiency of 30% ± 6% and differentiated to alveolar organoids showing preserved plasticity in treated cells. In conclusion, our results are supportive for ABE-based gene correction as a potential causative treatment of STAT3-HIES.

UR - http://www.scopus.com/inward/record.url?scp=85104807802&partnerID=8YFLogxK

U2 - 10.1089/crispr.2020.0111

DO - 10.1089/crispr.2020.0111

M3 - Article

C2 - 33876960

AN - SCOPUS:85104807802

SN - 2573-1599

VL - 4

SP - 178

EP - 190

JO - CRISPR Journal

JF - CRISPR Journal

IS - 2

ER -

Rescue of STAT3 Function in Hyper-IgE Syndrome Using Adenine Base Editing

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