Diagnosis of RSTS: Identification of the Acetylation Profiles as Epigenetic Markers for Assessing Causality of CREBBP and EP300 Variants.

Rubinstein-Taybi Syndrome Clinical Trial

— GENEPI  

Official title:

Diagnosis of RSTS: Identification of the Acetylation Profiles as Epigenetic Markers for Assessing Causality of CREBBP and EP300 Variants.

Clinical Trial Details — Status: Recruiting

Administrative data

• NCT number: NCT04122742
• Other study ID #: CHUBX 2019/19
• Status: Recruiting
• Start date: October 8, 2019
• Est. completion date: October 2025

Study information

• Verified date: January 2024
• Source: University Hospital, Bordeaux
• Contact: Julien VAN-GILS
• Phone: +33 5 57 82 03 53
• Email: julien.van-gils[@]chu-bordeaux.fr
• Is FDA regulated: No
• Study type: Observational

Clinical Trial Summary

Rubinstein-Taybi syndrome (RSTS) is a rare and severe congenital developmental disorder characterized by congenital anomalies and intellectual disability with a long term memory deficit. The main challenge is to improve the intellectual and memory efficiency of these patients. CREBBP and EP300 are the two genes known to cause RSTS. Both paralogs play a major role in chromatin remodeling and encode for transcriptional co-activators interacting with many proteins.

The aim of this pilot study is to characterize the histone acetylation profiles in order to identify specific acetylation markers during normal and pathological neuronal differentiation of cortical and pyramidal neurons in RSTS.

Description:

CREBBP and EP300 are the two paralog genes associated with RSTS determinism and code for CBP and p300, respectively. These proteins are transcriptional coactivators that possess a catalytic lysine acetyl transferase (KAT) domain involved in the acetylation of lysine residues of histones but also other proteins. CBP and p300 promote transcription by creating a chromatin environment that is favorable for gene expression and by linking different transcription factors to each other. They thus orchestrate the regulation of the transcription machinery, from the basal promoter to the enhancers of the target genes.

RSTS is considered a genetic model of neurodevelopmental anomaly with an epigenetic component.

Histone acetylation is one of the major post-translational modifications (PTMs) of these proteins that provide for the formation and control of chromatin structure. When differentiating embryonic cells, this modification plays a key role in transcriptional activation.

The mouse models of RSTS have made the link between the modulation of histone acetylation and the formation of memory by showing their key role in neuronal plasticity. However no data exists on the acetylation of histones in the neurons of RSTS patients. Furthermore, in humans, the molecular pathways impacted by these alterations during neurodevelopment are not specified, especially in the pyramidal neurons which are the precursors of hippocampal neurons involved in the encoding and storage of memory.

In RSTS a loss of CBP function results in a deficit in KAT activity, which is responsible for altering histone acetylation, leading to inappropriate changes in chromatin structure. The consequence of a mutation is a result of a deregulation of the activity of genes involved in development. No neuronal level studies are currently available on the functional link between histone acetylation and deregulated genes in the RSTS.

In this project, investigators will identify target genes whose epigenetic regulation is mediated by histone acetylation. More specifically, the study will focus on chromatin dynamics during normal and pathological neuronal differentiation of cortical and pyramidal neurons. Investigators will determine among the CBP-dependent histone markers, those that are modified in RSTS patients cells and the loci they control. In parallel, investigators will define genes whose neuronal expression is altered in RSTS patients.

The integration of all these data will allow us to specify which genes are deregulated during neuronal differentiation as a consequence of CBP lysine acetyltransferase function loss.

Recruitment information / eligibility

• Status: Recruiting
• Enrollment: 154
• Est. completion date: October 2025
• Est. primary completion date: October 2025
• Accepts healthy volunteers: No
• Gender: All
• Age group: 2 Years and older

Eligibility

Inclusion Criteria:

• Patient with a clinical and molecular diagnosis of RSTS

• Patients carrying the CREBBP or EP300 variants

• Patients older than 2 years

• Affiliated patients or beneficiaries of a social security scheme.

• Free, informed and signed consent by the parents or holder of parental authority for minor patients

• Free, informed and signed consent by the patient representative for the major patients under guardianship

• Free, informed and signed consent by the patient for major patients

Exclusion Criteria:

Patients having:

• a history of allergy to any product or device that may be used before, during, and after the biopsy;

• cutaneous disease of the areas where the biopsy is to be performed

• underwent physical treatment (radiotherapy, ...) on the area to be biopsied, during the last 6 months

• hereditary or acquired disorders of hemostasis

Patients under treatment:

• likely to act on the haemostasis (anticoagulants, platelet antiaggregants, ...) in the month preceding the inclusion and during the study

• by histone deacetylase inhibitor (sodium valproate) likely to interfere with the interpretation of the results.

Related Conditions & MeSH terms

• Rubinstein-Taybi Syndrome

Intervention

Procedure:
• skin biopsy for the primary fibroblast culture and a 15 ml blood sample (3 unnamed samples of 5ml) in each of the 4 SRT patients included.
Performed with a 3 mm diameter punch under local anesthesia. The procedure can be done in a consultation office respecting a strict asepsis.

Other:
• Generation of Induced Pluripotent Stem Cells (iPSC) from fibroblasts obtained by skin biopsy
induced Pluripotent Stem Cells (iPSC) production of patients with CREBBP mutation and differentiation into cortical neurons and pyramidal neurons
• Histone acetylation profiles of cells of SRT patients with CREBBP mutations
Study of acetylome by liquid chromatography coupled with tandem mass spectrometry (LC-MS / MS) Validation of specific acetylation targets by ChIP-Sequencing
• Functional involvement of identified epigenetic alterations
Transcriptome analysis with RNA-Seq Generation of isogenic iPSC clones by correction of CREBBP mutations in SRT patients by CrispR-Cas9.

Biological:
• Culture of lymphoblastoid line from blood sample
Achievement of a ficoll Culture of lymphoblasts and conservation Establishment of lymphoblastoid line and conservation

Locations

Country	Name	City	State
France	Centre Hospitalier Universitaire de Bordeaux	Talence

Sponsors (1)

Lead Sponsor	Collaborator
University Hospital, Bordeaux

Country where clinical trial is conducted

France, 

Outcome

Type	Measure	Description	Time frame	Safety issue
Primary	Identification of a specific acetylation profile of RSTS	From skin biopsy sample collected at inclusion visit : No assumptions about the number of histone marks needed to define the profile; Will be retained as the specific mark of the disease if it is 100% present in the cases and 100% absent in the controls; The specific profile can be defined in one or more stages of cell differentiation: iPSC - neuronal progenitor - cortical and pyramidal neurons	Inclusion visit
Secondary	Identification of different target genes between SRT patients and controls	SRT patients will be compared to 4 control cell cultures from healthy volunteers matched for age and sex already available	Inclusion visit
Secondary	Evidence of a significantly different level of expression for common target genes for RSTS patients and controls		Inclusion visit