Sequence variation in PPP1R13L results in a novel form of cardio‐cutaneous syndrome

Tzipora C Falik‐Zaccai; Yiftah Barsheshet; Hanna Mandel; Meital Segev; Avraham Lorber; Shachaf Gelberg; Limor Kalfon; Shani Ben Haroush; Adel Shalata; Liat Gelernter‐Yaniv; Sarah Chaim; Dorith Raviv Shay; Morad Khayat; Michal Werbner; Inbar Levi; Yishay Shoval; Galit Tal; Stavit Shalev; Eli Reuveni; Emily Avitan‐Hersh; Eugene Vlodavsky; Liat Appl‐Sarid; Dorit Goldsher; Reuven Bergman; Zvi Segal; Ora Bitterman‐Deutsch; Orly Avni

doi:10.15252/emmm.201606523

EMBO Molecular Medicine (Mar 2017)

Sequence variation in PPP1R13L results in a novel form of cardio‐cutaneous syndrome

Tzipora C Falik‐Zaccai,
Yiftah Barsheshet,
Hanna Mandel,
Meital Segev,
Avraham Lorber,
Shachaf Gelberg,
Limor Kalfon,
Shani Ben Haroush,
Adel Shalata,
Liat Gelernter‐Yaniv,
Sarah Chaim,
Dorith Raviv Shay,
Morad Khayat,
Michal Werbner,
Inbar Levi,
Yishay Shoval,
Galit Tal,
Stavit Shalev,
Eli Reuveni,
Emily Avitan‐Hersh,
Eugene Vlodavsky,
Liat Appl‐Sarid,
Dorit Goldsher,
Reuven Bergman,
Zvi Segal,
Ora Bitterman‐Deutsch,
Orly Avni

Affiliations

Tzipora C Falik‐Zaccai: Institute of Human Genetics Galilee Medical Center Nahariya Israel
Yiftah Barsheshet: Faculty of Medicine in the Galilee Bar‐Ilan University Safed Israel
Hanna Mandel: Metabolic Disease Unit Rambam Health Care Campus Haifa Israel
Meital Segev: Faculty of Medicine in the Galilee Bar‐Ilan University Safed Israel
Avraham Lorber: Rappaport Faculty of Medicine Technion, Israel Institute of Technology Haifa Israel
Shachaf Gelberg: Faculty of Medicine in the Galilee Bar‐Ilan University Safed Israel
Limor Kalfon: Institute of Human Genetics Galilee Medical Center Nahariya Israel
Shani Ben Haroush: Institute of Human Genetics Galilee Medical Center Nahariya Israel
Adel Shalata: The Winter Genetic Institute Bnei Zion Medical Center Haifa Israel
Liat Gelernter‐Yaniv: Pediatric Cardiology Clinic Bnei Zion Medical Center Haifa Israel
Sarah Chaim: Institute of Human Genetics Galilee Medical Center Nahariya Israel
Dorith Raviv Shay: Institute of Human Genetics Galilee Medical Center Nahariya Israel
Morad Khayat: The Genetic Institute Ha'emek Medical Center Afula Israel
Michal Werbner: Faculty of Medicine in the Galilee Bar‐Ilan University Safed Israel
Inbar Levi: Institute of Human Genetics Galilee Medical Center Nahariya Israel
Yishay Shoval: Institute of Human Genetics Galilee Medical Center Nahariya Israel
Galit Tal: Metabolic Disease Unit Rambam Health Care Campus Haifa Israel
Stavit Shalev: Rappaport Faculty of Medicine Technion, Israel Institute of Technology Haifa Israel
Eli Reuveni: Faculty of Medicine in the Galilee Bar‐Ilan University Safed Israel
Emily Avitan‐Hersh: Department of Dermatology Rambam Health Care Campus Haifa Israel
Eugene Vlodavsky: Rappaport Faculty of Medicine Technion, Israel Institute of Technology Haifa Israel
Liat Appl‐Sarid: Department of Pathology Galilee Medical Center Nahariya Israel
Dorit Goldsher: Rappaport Faculty of Medicine Technion, Israel Institute of Technology Haifa Israel
Reuven Bergman: Rappaport Faculty of Medicine Technion, Israel Institute of Technology Haifa Israel
Zvi Segal: Faculty of Medicine in the Galilee Bar‐Ilan University Safed Israel
Ora Bitterman‐Deutsch: Faculty of Medicine in the Galilee Bar‐Ilan University Safed Israel
Orly Avni: Faculty of Medicine in the Galilee Bar‐Ilan University Safed Israel

DOI: https://doi.org/10.15252/emmm.201606523
Journal volume & issue: Vol. 9, no. 3
pp. 319 – 336

Abstract

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Abstract Dilated cardiomyopathy (DCM) is a life‐threatening disorder whose genetic basis is heterogeneous and mostly unknown. Five Arab Christian infants, aged 4–30 months from four families, were diagnosed with DCM associated with mild skin, teeth, and hair abnormalities. All passed away before age 3. A homozygous sequence variation creating a premature stop codon at PPP1R13L encoding the iASPP protein was identified in three infants and in the mother of the other two. Patients’ fibroblasts and PPP1R13L‐knocked down human fibroblasts presented higher expression levels of pro‐inflammatory cytokine genes in response to lipopolysaccharide, as well as Ppp1r13l‐knocked down murine cardiomyocytes and hearts of Ppp1r13l‐deficient mice. The hypersensitivity to lipopolysaccharide was NF‐κB‐dependent, and its inducible binding activity to promoters of pro‐inflammatory cytokine genes was elevated in patients’ fibroblasts. RNA sequencing of Ppp1r13l‐knocked down murine cardiomyocytes and of hearts derived from different stages of DCM development in Ppp1r13l‐deficient mice revealed the crucial role of iASPP in dampening cardiac inflammatory response. Our results determined PPP1R13L as the gene underlying a novel autosomal‐recessive cardio‐cutaneous syndrome in humans and strongly suggest that the fatal DCM during infancy is a consequence of failure to regulate transcriptional pathways necessary for tuning cardiac threshold response to common inflammatory stressors.

Published in EMBO Molecular Medicine

ISSN: 1757-4676 (Print); 1757-4684 (Online)
Publisher: Springer Nature
Country of publisher: United Kingdom
LCC subjects: Medicine: Medicine (General); Science: Biology (General): Genetics
Website: https://www.embopress.org/journal/17574684

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