Official Title
Study of Genotype and Phenotype Characterization and Biomarkers Profile in Duchenne Muscular Dystrophy With Small Mutations
Brief Title
Study of Genotype and Phenotype Characterization in Duchenne Muscular Dystrophy With Small Mutations
Protocol ID
NCT05833633
Lead Sponsor
Fondazione Policlinico Universitario Agostino Gemelli IRCCS
Brief Summary
Improved standards of care and the regular early use of glucocorticoid treatment have
changed the natural history of Duchenne muscular dystrophy (DMD), affecting both survival
and time of loss of functional milestones. More recently, there has been increasing
evidence of an additional benefit from new therapeutic approaches based on mechanisms
targeting specific types of mutation, as Atarulen, authorised in the European Union as
Translarna since 31 July 2014 to treat DMD boys with non sense mutations. As there is
increasing evidence that specific groups of mutations may have different progression of
the disease, it has become mandatory to obtain more detailed long-term information about
the patterns of progression related to different genotypes. Natural history of DMD boys
carrying deletions has been more studied and less is known about boys carrying small
mutations that represent 20% of DMD patients. The aim of this project is to better define
the natural history of these patients and to better understand the clinical response to
mutation-specific therapies aimed at restoring dystrophin protein production.
Detailed Description
In the last years, motor functional assessments have helped to define a better natural
history of DMD patients, showing different clustering of disease progression according to
the genotype and locus of mutation. Within the spectrum of severity of DMD, variability
in phenotype among deletions has been previously reported. However all clinical
assessments have the common disadvantage of being dependent on patient collaboration and
interaction with the examiner. Therefore, the need to identify new biomarkers as
measurable indicators of biologic condition has become important. To date several studies
have shown that Magnetic Resonance Imaging (MRI) and spectroscopy provide sensitive
markers of muscle pathology and disease progression in both upper and lower limbs of DMD
subjects, suggesting MRI as a promising non-invasive candidate biomarker. Muscle MRI has
the advantage of being relatively independent of patient collaboration. In previous
studies, quantitative thigh muscle MRI values highly correlated with clinical outcome
measures and loss of ambulation (LOA) and qualitative assessment scoring showed a direct
correlation with the the duration of illness and fibro-fatty changes. More recently, our
team found a relation between the functional scores and severe involvement on muscle MRI
of upper limb in both ambulant and non-ambulant DMD boys. Furthermore, in the last
decades the evidence that the age of LOA varies between DMD individuals carrying
mutations abolishing dystrophin expression, has suggested the existence of trans-acting
variants in modifier genes. It has been recently reported that some single nucleotide
polymorphisms (SNPs) in a few identified genes can be considered as DMD modifiers and
responsible for some of the inter-individual variability observed in the clinical disease
course. To date, variants in five loci have been associated with variability in human DMD
sub-phenotypes: Secreted Phosphoprotein 1 (SPP1), Latent Transforming Growth Factor-Beta
Binding Protein 4 (LTBP4), Cluster of differentiation 40 (CD40), alfa-actinin-3 (ACTN3),
and Thrombospondin 1 (THBS1). These genes are implicated in several interconnected
molecular pathways regulating inflammatory response to muscle damage, regeneration,
fibrosis or are more directly implicated in muscle power and sprint performance.
Described variants have a regulatory function or alter protein sequence and could delay
median LOA by approximately 1 to 2 years. Furthermore, more recently, native urine
derived stem cells were demonstrated to express dystrophin transcript and protein
(following myoblast determination protein 1 (MyoD) differentiation) in both DMD patients
and control group and they could be considered a valid cell tool for either genotype
characterization and functional studies on both DMD transcript and dystrophin (DYS)
protein. So far, the results of the literature on small mutations report a wide
variability of clinical findings and it could be hypothesized that the variable
trajectories of progression and the overall severity and loss of important milestones may
depend by several factors. One could assume that this finding could be related to the
different site of mutations and specific exon involvement or to the type of the
aminoacidic changes that could be able to produce different expressions of residual
protein with subsequent differences in the severity of phenotypes. These points have not
been systematically explored and the use of biomarkers may facilitate to identify
distinct phenotypes and their correlation with different genotypes. This project aims to
investigate whether specific genotype characterization, functional assessments, muscle
MRI could help to establish a better genotype and phenotype characterization in a group
of DMD patients carrying small mutations. I hypothesize that these tools alone or
combined may help to allow describing the natural history.
Study Period
-
Enrollment Count
25 participants
Eligibility Criteria
Inclusion Criteria:
- DMD diagnosis confirming a small mutation genotype.
Exclusion Criteria:
- DMD patient enrolled in other clinical trials using genetic approach
- impossibility to perform MRI without sedation
- presence of severe cognitive or behavioral problems
Filters
Muscular Dystrophy, Duchenne
UNKNOWN
CHILD
ADULT