Amyotrophic Lateral Sclerosis Clinical Trial
Official title:
Etude de l'Expression Des Micro-RNA Comme Biomarqueur Diagnostic et Pronostic Dans la Sclérose Latérale Amyotrophique
The principal goal is to demonstrate that a specific pattern of microRNA (miRNA) expression can be correlated with the definite diagnostic of Amyotrophic Lateral Sclerosis (ALS). The investigators will use biological sample (from muscle biopsy, Cerebrospinal Fluid (CSF) and blood sample) collected in three control populations: definite ALS patients according to El Escorial diagnostic criterion, control patients without any neurological disease having an orthopedic surgery for shoulder disease, and control patient explored for peripheral neuropathy and myopathy. A second goal will correlate the miRNA pattern to the severity and/or progression rate of the motor neurons define as the progression rate of the Amyotrophic Lateral Sclerosis Functional Rating Scale (ALSFRS) score/year.
Amyotrophic Lateral Sclerosis is an adult-onset neuro degenerative disease leading to muscle
wasting, palsy and death due to respiratory failure within 3 to 5 years. The only effective
drug (Riluzole) increases the life expectancy for about three months, knowing that on
average, the diagnostic is given after a delay of one year in France. The identification of
new biomarkers for early diagnostic is therefore of fundamental importance. This could
improve the treatment efficacy but also give important clues about the prognostic, the rate
of evolution and overall help identify new targets for future therapeutics. The
investigators' goals are to find specific miRNA patterns expression associated to ALS in
humans and use those patterns as diagnostic and prognostic tools.
miRNA are non-coding small fragments of RNA that binds mRNA and can down regulate their
expression. In humans, around 700 miRNA have been so far identified. The role of miRNA in
human pathology is well established in various types of cancer, but recent works have
emphasize their role in neuro degenerative diseases and their expression profile can
considered specific for Alzheimer, Parkinson and Huntington diseases. Very few data are
currently available about their expression pattern in ALS. Previous studies have however
shown that down regulating of some miRNA in spinal cord Moto neurons can trigger an ALS-like
clinical phenotype. A more recent work on transgenic murine model SOD1 G93A has demonstrated
the role of the specific miRNA206 in regulating the re-innervation processes at the
neuro-muscular junction. Mi206 have the ability to promote the re-innervation process and
therefore to slow the disease progression.
This research aimed to study the expression of more than 700 miRNA in four different groups
(20 patients per group): ALS patients, normal control having a shoulder surgery during which
they will have a muscle (deltoid) biopsy, patients explored for peripheral neuropathy with a
blood sample, a lumbar puncture for CSF examination and neuro-muscular biopsy and patient
explored for myopathy with a blood sample, a lumbar puncture for CSF examination and a
muscular biopsy. The ALS group will be followed up every 4 months with ALSFRS scoring and
blood sample and a second CSF sample only at M12. miRNA pattern expression will be compared
and considered significant for a 2-fold change.
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