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ADNP dysregulates methylation and mitochondrial gene expression in the cerebellum of a Helsmoortel-Van der Aa syndrome autopsy case.
D'Incal, Claudio; Van Dijck, Anke; Ibrahim, Joe; De Man, Kevin; Bastini, Lina; Konings, Anthony; Elinck, Ellen; Theys, Claudia; Gozes, Illana; Marusic, Zlatko; Anicic, Mirna; Vukovic, Jurica; Van der Aa, Nathalie; Mateiu, Ligia; Vanden Berghe, Wim; Kooy, R Frank.
Affiliation
  • D'Incal C; Department of Medical Genetics, University of Antwerp, Prins Boudewijnlaan 43/6, 2650, Edegem, Antwerp, Belgium.
  • Van Dijck A; Protein Chemistry, Proteomics and Epigenetic Signaling (PPES), Epigenetic Signaling lab (PPES), Department of Biomedical Sciences, University of Antwerp, Universiteitsplein 1, 2610, Wilrijk, Antwerp, Belgium.
  • Ibrahim J; Department of Medical Genetics, University of Antwerp, Prins Boudewijnlaan 43/6, 2650, Edegem, Antwerp, Belgium.
  • De Man K; Family Medicine and Population Health (FAMPOP), Department of Medicine and Health Sciences, University of Antwerp, Antwerp, Belgium.
  • Bastini L; Department of Medical Genetics, University of Antwerp, Prins Boudewijnlaan 43/6, 2650, Edegem, Antwerp, Belgium.
  • Konings A; Department of Medical Genetics, University of Antwerp, Prins Boudewijnlaan 43/6, 2650, Edegem, Antwerp, Belgium.
  • Elinck E; Protein Chemistry, Proteomics and Epigenetic Signaling (PPES), Epigenetic Signaling lab (PPES), Department of Biomedical Sciences, University of Antwerp, Universiteitsplein 1, 2610, Wilrijk, Antwerp, Belgium.
  • Theys C; Protein Chemistry, Proteomics and Epigenetic Signaling (PPES), Epigenetic Signaling lab (PPES), Department of Biomedical Sciences, University of Antwerp, Universiteitsplein 1, 2610, Wilrijk, Antwerp, Belgium.
  • Gozes I; Protein Chemistry, Proteomics and Epigenetic Signaling (PPES), Epigenetic Signaling lab (PPES), Department of Biomedical Sciences, University of Antwerp, Universiteitsplein 1, 2610, Wilrijk, Antwerp, Belgium.
  • Marusic Z; Department of Medical Genetics, University of Antwerp, Prins Boudewijnlaan 43/6, 2650, Edegem, Antwerp, Belgium.
  • Anicic M; Protein Chemistry, Proteomics and Epigenetic Signaling (PPES), Epigenetic Signaling lab (PPES), Department of Biomedical Sciences, University of Antwerp, Universiteitsplein 1, 2610, Wilrijk, Antwerp, Belgium.
  • Vukovic J; The Elton Laboratory for Molecular Neuroendocrinology, Department of Human Molecular Genetics and Biochemistry, Faculty of Medical & Health Sciences, Adams Super Center for Brain Studies and Sagol School of Neuroscience, Tel Aviv University, Tel Aviv, Israel.
  • Van der Aa N; Clinical Department of Pathology and Cytology, University Hospital Centre Zagreb, Zagreb, Croatia.
  • Mateiu L; Division of Pediatric Gastroenterology, Hepatology and Nutrition, Department of Pediatrics, School of Medicine, University Hospital Centre Zagreb, Zagreb, Croatia.
  • Vanden Berghe W; Division of Pediatric Gastroenterology, Hepatology and Nutrition, Department of Pediatrics, School of Medicine, University Hospital Centre Zagreb, Zagreb, Croatia.
  • Kooy RF; Department of Medical Genetics, University of Antwerp, Prins Boudewijnlaan 43/6, 2650, Edegem, Antwerp, Belgium.
Acta Neuropathol Commun ; 12(1): 62, 2024 Apr 18.
Article in En | MEDLINE | ID: mdl-38637827
ABSTRACT

BACKGROUND:

Helsmoortel-Van der Aa syndrome is a neurodevelopmental disorder in which patients present with autism, intellectual disability, and frequent extra-neurological features such as feeding and gastrointestinal problems, visual impairments, and cardiac abnormalities. All patients exhibit heterozygous de novo nonsense or frameshift stop mutations in the Activity-Dependent Neuroprotective Protein (ADNP) gene, accounting for a prevalence of 0.2% of all autism cases worldwide. ADNP fulfills an essential chromatin remodeling function during brain development. In this study, we investigated the cerebellum of a died 6-year-old male patient with the c.1676dupA/p.His559Glnfs*3 ADNP mutation.

RESULTS:

The clinical presentation of the patient was representative of the Helsmoortel-Van der Aa syndrome. During his lifespan, he underwent two liver transplantations after which the child died because of multiple organ failure. An autopsy was performed, and various tissue samples were taken for further analysis. We performed a molecular characterization of the cerebellum, a brain region involved in motor coordination, known for its highest ADNP expression and compared it to an age-matched control subject. Importantly, epigenome-wide analysis of the ADNP cerebellum identified CpG methylation differences and expression of multiple pathways causing neurodevelopmental delay. Interestingly, transcription factor motif enrichment analysis of differentially methylated genes showed that the ADNP binding motif was the most significantly enriched. RNA sequencing of the autopsy brain further identified downregulation of the WNT signaling pathway and autophagy defects as possible causes of neurodevelopmental delay. Ultimately, label-free quantification mass spectrometry identified differentially expressed proteins involved in mitochondrial stress and sirtuin signaling pathways amongst others. Protein-protein interaction analysis further revealed a network including chromatin remodelers (ADNP, SMARCC2, HDAC2 and YY1), autophagy-related proteins (LAMP1, BECN1 and LC3) as well as a key histone deacetylating enzyme SIRT1, involved in mitochondrial energy metabolism. The protein interaction of ADNP with SIRT1 was further biochemically validated through the microtubule-end binding proteins EB1/EB3 by direct co-immunoprecipitation in mouse cerebellum, suggesting important mito-epigenetic crosstalk between chromatin remodeling and mitochondrial energy metabolism linked to autophagy stress responses. This is further supported by mitochondrial activity assays and stainings in patient-derived fibroblasts which suggest mitochondrial dysfunctions in the ADNP deficient human brain.

CONCLUSION:

This study forms the baseline clinical and molecular characterization of an ADNP autopsy cerebellum, providing novel insights in the disease mechanisms of the Helsmoortel-Van der Aa syndrome. By combining multi-omic and biochemical approaches, we identified a novel SIRT1-EB1/EB3-ADNP protein complex which may contribute to autophagic flux alterations and impaired mitochondrial metabolism in the Helsmoortel-Van der Aa syndrome and holds promise as a new therapeutic target.
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Full text: 1 Collection: 01-internacional Database: MEDLINE Main subject: Autistic Disorder / Intellectual Disability Limits: Animals / Child / Humans / Male Language: En Journal: Acta Neuropathol Commun Year: 2024 Document type: Article Affiliation country: Belgium Country of publication: United kingdom

Full text: 1 Collection: 01-internacional Database: MEDLINE Main subject: Autistic Disorder / Intellectual Disability Limits: Animals / Child / Humans / Male Language: En Journal: Acta Neuropathol Commun Year: 2024 Document type: Article Affiliation country: Belgium Country of publication: United kingdom