Informations générales (source: ClinicalTrials.gov)
Study of Brain Derived Neurotrophic Factor (BDNF) Pathway Biomarkers in the Cerebrospinal Fluid in Patients With Huntington's Disease (LCR-MH)
Interventional
N/A
University Hospital, Montpellier (Voir sur ClinicalTrials)
mars 2020
février 2026
29 juin 2024
Huntington disease (HD, 1.3/10 000) is an autosomal dominant disease due to an abnormal
expansion of CAG triplets in HTT gene.
Several pathophysiological mechanisms have been evoked, including an alteration of the
signaling pathway of the Brain Derived Neurotrophic Factor (BDNF), a neurotrophic factor
involved in the survival of neurons (striatal and hippocampal) and synaptic plasticity.
BDNF is synthesized at the level of cortical neurons and transported, through the axonal
transport in which the Htt is involved, to the nerve endings; it's then secreted in
response to excitatory synaptic activity, especially at the level of glutamatergic
synapses. Besides, at the postsynaptic level it binds with great specificity to TrkB
receptors (tropomyosin-related kinase receptors B) with a neuroprotective effect on
dendritic and axonal growth and an increase in synaptic plasticity, especially at the
level of the striatum and the hippocampus.
BDNF is decreased in the brain of animal models, as well as in patients with HD; the
alteration of this pathway would occur in the early stages of the disease.
In the context of concomitant multiple treatments, the BNDF pathway may be one of the
therapeutic targets of HD.
Moreover, in HD it remains essential to detect biological markers representative of the
different pathogenic pathways that can be tested in vivo in humans to confirm the
hypotheses developed at the level of basic research; these biomarkers could subsequently
become biomarkers of disease progression and/or biomarkers of therapeutic efficacy of
potential targeted treatments.
Therefore, this study aims to characterize potential biomarkers of the BNDF pathway in
plasma and CSF in subjects with HD and to confirm the importance of this pathogenic
mechanism in vivo in humans.
Etablissements
| Les établissements hors Île-de-France dont les données sont issues de ClinicalTrials.gov Origine et niveau de fiabilité des données | |||||
|---|---|---|---|---|---|
| University Hospital of Montpellier - Montpellier - France | Cecilia Marelli, MD | Contact (sur clinicalTrials) | |||
Critères
Tous
Inclusion Criteria:
- General inclusion criteria:
- age ≥ 18 years-old
- national health insurance cover
- Patients inclusion criteria:
- genetically confirmed Huntington's disease diagnosis (≥ 35 CAG repeat in HTT
gene exon 1)
- written informed consent
- only for patients "with lumbar puncture (LP)": patient agreement for LP
- Control inclusion criteria:
- anterior LP for medical reason with consent for biobank "Neuro" with following
samples present in this biobank : 2 mL blood + 0.5 mL plasma + 0.5 mL
cerebrospinal fluid
- information and non-opposition for the finality of this biobank
- paired by age with a patient (+/- 5 years difference)
- General inclusion criteria:
- age ≥ 18 years-old
- national health insurance cover
- Patients inclusion criteria:
- genetically confirmed Huntington's disease diagnosis (≥ 35 CAG repeat in HTT
gene exon 1)
- written informed consent
- only for patients "with lumbar puncture (LP)": patient agreement for LP
- Control inclusion criteria:
- anterior LP for medical reason with consent for biobank "Neuro" with following
samples present in this biobank : 2 mL blood + 0.5 mL plasma + 0.5 mL
cerebrospinal fluid
- information and non-opposition for the finality of this biobank
- paired by age with a patient (+/- 5 years difference)
- General exclusion criteria:
- protected by law
- Patients exclusion criteria:
- Huntington's disease stage too Evolved that may interfere with cognitive
evaluations or MRI
- contraindications to brain MRI
- only for patients "with LP": contraindications to LP
- incapacity to give informed consent
- Control exclusion criteria:
- neurodegenerative of inflammatory central nervous system pathology