Myotonic dystrophies

Myotonic dystrophy type 1 accompanied with normal pressure hydrocephalus: a case report and literature review

Background

Myotonic dystrophy type 1 (DM1) is the most common disease that can cause muscle weakness and atrophy among adults. Normal pressure hydrocephalus (NPH) is characterized by the triad of gait disturbance, cognitive impairment and urinary incontinence. The association between DM1 and NPH is extremely rare. We report a Chinese female patient with DM1 in association with NPH.

Case presentation

The patient presented with a history of 3-year of walking instability and cognitive impairment. Her brain MRI showed ventriculomegaly with normal cerebrospinal fluid (CSF) pressure and the CSF tap-test was positive, which indicated the diagnosis of probable NPH. DM1 was confirmed by genetic testing.

Conclusions

Four patients with DM1-NPH association were found before. The association between NPH and DM1 may not be just a coincidence, NPH may occur in DM1 later in life and it is vital to recognize the association as a shunt surgery may improve patients’ quality of life.

Differences in the pattern of cognitive impairments between juvenile and adult onset myotonic dystrophy type 1

OBJECTIVE

To understand the different patterns of neuropsychological dysfunction observed between juvenile onset (jDM1) and adult onset (aDM1) myotonic dystrophy type 1.

METHOD

We enrolled 19 genetically confirmed DM1 patients, and neuropsychological tests-Wechsler Adult Intelligence Scale-Revised short form; Rey-Kim memory test; and Executive Intelligence Test for evaluating intelligence, memory, and executive function-were performed. Clinical parameters including cytosine-thymine-guanine (CTG) repeats, creatinine kinase level, pulmonary function test, six-minute walk test, motor scales, and cardiac function were evaluated.

RESULTS

Verbal intelligence was significantly lower in the jDM1 than the aDM1 group (7.50 ± 1.64 vs. 11.00 ± 2.54, respectively; p = 0.009), while no difference was observed in performance intelligence. There was significant differences between the two groups (p = 0.022) with respect to memory function, as specifically revealed by the pattern of lower function in the verbal memory of the jDM1 group. However, the executive function test showed no intergroup differences.

CONCLUSION

Verbal memory impairment significantly deteriorated in the jDM1 group as compared to the aDM1 group, reflecting a more profound neurodevelopmental change in the juvenile type.

Gene therapy in monogenic congenital myopathies

Current treatment options for patients with monogenetic congenital myopathies (MCM) ameliorate the symptoms of the disorder without resolving the underlying cause. However, gene therapies are being developed where the mutated or deficient gene target is replaced. Preclinical findings in animal models appear promising, as illustrated by gene replacement for X-linked myotubular myopathy (XLMTM) in canine and murine models. Prospective applications and approaches to gene replacement therapy, using these disorders as examples, are discussed in this review.

Psychological characteristics of patients with myotonic dystrophy type 1

OBJECTIVES

Myotonic dystrophy type 1 (DM1) is the most common adult-onset muscular dystrophy. It is associated with motor symptoms but patients also display non-motor symptoms such as particular personality traits. Studies have reported mixed results about personality characteristics which may be attributable to small sample sizes, different disease severity of groups studied, and use of different questionnaires or method. This study aimed to describe the psychological characteristics of a large cohort of patients with DM1, to characterize those at risk of developing a psychiatric disorder, and to compare characteristics between two DM1 phenotypes, a mild and more severe adult-onset phenotype.

METHODS

Two hundred patients with DM1 (152 adult-onset; 48 mild) were asked to complete questionnaires assessing personality traits, psychological symptoms, self-esteem, and suicidal risk. Neurological and neuropsychological assessments were performed to compare personality characteristics to clinical and cognitive measures.

RESULTS

Patients with DM1 globally showed personality traits and psychological symptoms in the average range compared to normative data, with normal levels of self-esteem and suicidal ideation. However, 27% of patients were found to be at high risk of developing a psychiatric disorder. Moreover, psychological traits differed across phenotypes, with the most severe phenotype tending to show more severe psychological symptoms. The presence of higher phobic anxiety and lower self-esteem was associated with lower education, a higher number of CTG repeats, more severe muscular impairment, and lower cognitive functioning (P < 0.001).

CONCLUSIONS

Different phenotypes should thus be taken into account in clinical settings for individual management of patients and optimizing therapeutic success.

Antisense therapy in neurology

Antisense therapy is an approach to fighting diseases using short DNA-like molecules called antisense oligonucleotides. Recently, antisense therapy has emerged as an exciting and promising strategy for the treatment of various neurodegenerative and neuromuscular disorders. Previous and ongoing pre-clinical and clinical trials have provided encouraging early results. Spinal muscular atrophy (SMA), Huntington’s disease (HD), amyotrophic lateral sclerosis (ALS), Duchenne muscular dystrophy (DMD), Fukuyama congenital muscular dystrophy (FCMD), dysferlinopathy (including limb-girdle muscular dystrophy 2B; LGMD2B, Miyoshi myopathy; MM, and distal myopathy with anterior tibial onset; DMAT), and myotonic dystrophy (DM) are all reported to be promising targets for antisense therapy. This paper focuses on the current progress of antisense therapies in neurology.

Depression in Myotonic Dystrophy type 1: clinical and neuronal correlates

BACKGROUND

This study was designed to investigate the prevalence and correlates of depression in Myotonic dystrophy type 1 (DM1).

METHODS

Thirty-one patients with DM1 and 47 subjects in a clinical contrast group, consisting of other neuromuscular disorders, including Spinal muscular atrophy, Limb girdle muscle atrophy and Facioscapulohumeral dystrophy, completed Beck Depression Inventory (BDI). We aimed to establish whether different factors associated with DM1 correlated with ratings in the BDI.

RESULTS

Signs of a clinical depression were prevalent in 32% of the patients with DM1, which was comparable with ratings in the clinical contrast group. The depressive condition was mild to moderate in both groups. In DM1, a longer duration of clinical symptoms was associated with lower scores on the BDI and higher educational levels were correlated with higher scores on depression. We also found a negative association with brain white matter lesions.

CONCLUSIONS

Findings indicate significantly more DM1 patients than normative collectives showing signs of a clinical depression. The depressive condition is however mild to moderate and data indicate that the need for intervention is at hand preferentially early during the disease process.

Paramyotonia congenita in 22 members of an Arab (Omani) kindred

Paramyotonia congenita in 22 members of Arab (Omani) family is reported. Four generations were affected. All had early onset around 1 year of age, with myotonia and cold intolerance. Age of onset in the index case was at 3 months of age. Six members with the disease were examined and investigated. To our knowledge, this is the first report of the condition from this region. Childhood presentation and differential diagnosis is discussed.

[Genetics of mental retardation]

Mental retardation affects nearly 3 % of the population. The causes of these disorders are various and are often not identified. Recent advances focused on the molecular basis of mental retardation. Nearly half of mental retardation syndromes have a genetic origin and the description of molecular, cytogenetic and metabolic alterations in these disorders led to the development of diagnostic tools. Indeed, identifying the precise origin of the mental retardation allows to improve patient care and to refine the prognosis. Moreover, these molecular tools will help the geneticist to evaluate the recurrence risk in the family in the genetic counseling step. On a fundamental point of view, the knowledge of molecular basis of mental retardation will help to understand the biological pathway which constitutes the first step before therapeutic strategies. Every patient with mental retardation should be investigated for causal origin of the disease. We will detail the diagnostic methods necessary to investigate a patient presenting with mental retardation. Then different examples of syndromes including a mental retardation will be chosen to illustrate different clinical situations.

Axonal function and activity-dependent excitability changes in myotonic dystrophy

To investigate peripheral nerve function and its potential contribution to symptoms of weakness in myotonic dystrophy type 1 (MD), nerve excitability was assessed in 12 MD patients. Compound muscle action potentials (CMAPs) were recorded at rest from abductor pollicis brevis (APB) following stimulation of the median nerve. Stimulus-response behavior, threshold electrotonus, a current-threshold relationship, and recovery cycles were successfully recorded in each patient. Compared with controls, there was significant reduction in CMAP amplitude in MD patients. This was accompanied by reduction in depolarizing threshold electrotonus and an increase in refractoriness and in the duration of the relative refractory period. To determine whether alteration in axonal resting membrane potential was a factor underlying these changes, axonal excitability was assessed following maximal contraction of APB for 60 seconds. Following contraction, there was reduction in CMAP amplitude for a submaximal stimulus (by 51.5+/-11.8%) and an increase in super-excitability (of 22.2+/-12.0%), consistent with activity-dependent hyperpolarization, with a greater increase in threshold for MD patients compared to controls (MD group, 22.3+/-5.1%; controls, 11.7+/-2.1%; P<0.04) and prolonged recovery to baseline. The present study has established that greater activity-dependent changes in excitability may be induced in MD patients by maximal voluntary contraction when compared to controls. The excitability changes and prolonged recovery of threshold following contraction are likely to contribute to symptoms of fatigue and weakness in MD patients.

Cognitive deficits and CTG repeat expansion size in classical myotonic dystrophy type 1 (DM1)

Background

This study was designed to investigate cognitive abilities and their correlations with CTG repeat expansion size in classical Myotonic dystrophy type 1 (DM1), given that earlier studies have indicated cognitive deficits, possibly correlating with blood CTG repeats expansion size.

Methods

A measurement of CTG repeat expansion in lymphocytes and an extensive neuropsychological examination was made in 47 patients (25 women and 22 men). Individual results in the examination were compared with normative data.

Results

A substantial proportion of patients with DM1 (> 40%) scored worse in comparison to normative collectives on tests measuring executive, arithmetic, attention, speed and visuospatial abilities. We found significant correlations between longer CTG repeat expansion size and lower results on most tests associated with these abilities. Furthermore, the association between executive (frontal) deficits and DM1 were strengthened when considering both test results and correlations with CTG repeat expansion size in lymphocytes.

Conclusion

This study showed deficits in several cognitive abilities when patients with DM1 are compared to normative collectives. Some of the neuropsychological tests associated with these abilities are correlated to CTG repeat expansion size in blood. These data highlight the importance of considering cognitive deficits when seeing patients with classical DM1 in clinical practice, but also the utility of using blood CTG repeat expansion size as a broad predictor of finding cognitive deficit in DM1.

Normal pressure hydrocephalus in a patient with myotonic dystrophy: case report with a 10-year follow-up

OBJECTIVE AND IMPORTANCE

Myotonic dystrophy (MD) is the most common adult muscular dystrophy involving multiple organs. Normal pressure hydrocephalus (NPH) is characterized by gait apraxia, urinary incontinence, and dementia. NPH in association with MD has been reported in only three cases. This report provides for the first time the complete evaluation, treatment, and long-term follow-up of a patient with NPH and MD.

CLINICAL PRESENTATION

A 61-year-old man known to have MD complained of 4 years of progressive deterioration of long-term memory and gait disturbance, which was the main clinical feature. Computed tomography scan and magnetic resonance imaging showed ventricular enlargement. Intracranial pressure monitoring showed B waves with amplitude superior to 9 mm Hg in more than 5% of the recording.

TECHNIQUE

We performed a ventriculoperitoneal shunt with clear postoperative improvement, confirming the diagnosis of NPH. The clinical improvement has remained stable through prolonged follow-up.

CONCLUSION

Association between MD and NPH could be more than coincidental, and it is important to recognize this potential insidious association because a ventriculoperitoneal shunt can provide excellent long-term clinical improvement.

Tau protein as a differential biomarker of tauopathies

Microtubule-associated Tau proteins are the basic component of intraneuronal and glial inclusions observed in many neurological disorders, the so-called tauopathies. Many etiological factors, phosphorylation, splicing, and mutations, relate Tau proteins to neurodegeneration. Molecular analysis has revealed that hyperphosphorylation and abnormal phosphorylation might be one of the important events in the process leading to tau intracellular aggregation. Specific set of pathological tau proteins exhibiting a typical biochemical pattern, and a different regional and laminar distribution, could characterize five main classes of tauopathies. A direct correlation has been established between the regional brain distribution of tau pathology and clinical symptoms; for instance progressive involvement of neocortical areas is well correlated to the severity of dementia in Alzheimer's disease, overall suggesting that pathological tau proteins are reliable marker of the neurodegenerative process. Recent discovery of tau gene mutations in frontotemporal dementia with parkinsonism linked to chromosome 17 has reinforced the predominant role attributed to tau proteins in the pathogenesis of neurodegenerative disorders, and underlined the fact that distinct sets of tau isoforms expressed in different neuronal populations could lead to different pathologies. Overall, a better knowledge of the etiological factors responsible for the aggregation of tau proteins in brain diseases is essential for development of future differential diagnosis and therapeutic strategies. They would hopefully find their application against Alzheimer's disease but also in all neurological disorders for which a dysfunction of Tau biology has been identified.

Clinical and genetic analysis of a family with PROMM

PROMM (proximal myotonic myopathy) and DM2 (myotonic dystrophy Type 2) are autosomal dominant multisystem disorders that have both been linked to chromosome 3q. Recently, the genetic basis of DM2 has been defined by a '(CCTG)(n)' expansion mutation in intron 1 of the ZNF9 gene. We identified and studied a multigenerational family in which five members had clinical features consistent with PROMM. Two affected members were available for detailed clinical, electrophysiological, radiological and genetic analysis. Our study confirms that the PROMM phenotype is associated with DM2-(CCTG)(n) expansion mutations. In addition, our results may extend the clinical spectrum of manifestations to include vestibular symptoms.

Treatment in myotonia and periodic paralysis

The myotonic disorders, including the myotonic dystrophies (myotonic dystrophy type 1, DM1; myotonic dystrophy type 2, DM2/PROMM/PDM), the muscle channelopathies or non-dystrophic myotonias (chloride, sodium, calcium and potassium channelopathies) are all characterized by myotonia and muscle weakness despite different pathophysiology involved in these disorders. Myotonia may affect the eye, facial and jaw muscles as well as the hands and legs. It may be painful and disabling. Muscle weakness may be episodical as in the paralytic attacks of the sodium and calcium channelopathies or culminate in permanent muscle weakness as in the calcium channelopathies and some sodium channelopathies associated to specific point mutations. The severity of myotonia may fluctuate in the myotonic dystrophies, but weakness is usually fixed, affecting neck flexors, facial and jaw muscles as well as proximal and distal muscles of the limbs. Despite the recent progress in molecular genetics the precise mechanisms responsible for myotonia and weakness are not fully understood and there is no standardized treatment strategy. We present a review of selected treatment trials in the myotonic disorders and the muscle channelopathies, and discuss our experience in the treatment of myotonia and muscle weakness, with reference to the limits and advantages of treatment trials in this field.

Transgenic mouse models for myotonic dystrophy type 1 (DM1)

The study of animal models for myotonic dystrophy type 1 (DM1) has helped us to 'de- and reconstruct' our ideas on how the highly variable multisystemic constellation of disease features can be caused by only one type of event, i.e., the expansion of a perfect (CTG)(n) repeat in the DM1 locus on 19q. Evidence is now accumulating that cell type, cell state and species dependent activities of the DNA replication/repair/recombination machinery contribute to the intergenerational and somatic behavior of the (CTG)(n) repeat at the DNA level. At the RNA level, a gain-of-function mechanism, with dominant toxic effects of (CUG)(n) repeat containing transcripts, probably has a central role in DM1 pathology. Parallel study of DM2, a closely related form of myotonic dystrophy, has revealed a similar mechanism, but also made clear that part of the attention should remain focused on a possible role for candidate loss-of-function genes from the DM1 locus itself (like DMWD, DMPK and SIX5) or elsewhere in the genome, to find explanations for clinical aspects that are unique to DM1. This review will focus on new insight regarding structure-function features of candidate genes involved in DM1 pathobiology, and on the mechanisms of expansion and disease pathology that have now partly been disclosed with the help of transgenic animal models.

Executive dysfunction and avoidant personality trait in myotonic dystrophy type 1 (DM-1) and in proximal myotonic myopathy (PROMM/DM-2)

A previous study in proximal myotonic myopathy (PROMM/DM-2) and myotonic dystrophy type 1 (DM-1) using brain positron emission tomography demonstrated a reduced cerebral blood flow in the frontal and temporal regions associated with cognitive impairment. The objective was to investigate further cognitive and behavioural aspects in a new series of patients with DM-1 and PROMM/DM-2. Nineteen patients with genetically determined PROMM/DM-2 and 21 patients with moderately severe DM-1 underwent neuropsychological testing and neuropsychiatric interviews. DM-1 and PROMM/DM-2 patients had significantly lower scores on tests of frontal lobe function compared to controls. Neuropsychiatric interviews demonstrated an avoidant trait personality disorder in both patient groups. Brain single photon emission computed tomography showed frontal and parieto-occipital hypoperfusion. The results suggest that there is a specific cognitive and behavioural profile in PROMM/DM-2 and in DM-1, and that this profile is associated with hypoperfusion in frontal and parieto-occipital regions of the brain.

Different ability of clenbuterol and salbutamol to block sodium channels predicts their therapeutic use in muscle excitability disorders

Activation of muscle beta(2)-adrenergic receptors successfully counteracted sarcolemma inexcitability in patients suffering from hyperkalemic periodic paralysis (HPP), a hereditary disease caused by mutations in the gene encoding the skeletal muscle sodium channel. Looking for potential modulation of these channels by beta(2)-adrenergic pathway using patch-clamp technique, we found that clenbuterol blocked sodium currents (I(Na)) in rat skeletal muscle fibers and in tsA201 cells transfected with the human channel isoform, whereas salbutamol did not. The effects of clenbuterol were independent of beta-adrenoceptor stimulation. Instead, clenbuterol structure and physicochemical characteristics as well as I(Na) blocking properties resembled those of local anesthetics, suggesting direct binding to the channels. Similar experiments with the chemically similar beta-antagonists propranolol and nadolol, suggested the presence of two hydroxyl groups on the aromatic moiety of the drugs as a molecular requisite for impeding sodium channel block. Importantly, clenbuterol use-dependently inhibited action potential firing in rat skeletal muscle fibers, owing to beta-adrenoceptor-independent I(Na) block. From a clinical point of view, our study defines the rationale for the safe use of salbutamol in HPP patients, whereas clenbuterol may be more indicated in patients suffering from myotonic syndromes, a condition characterized by sarcolemmal overexcitability, because use-dependent I(Na) block can inhibit abnormal runs of action potentials.

Inhibition of muscle differentiation by the novel muscleblind-related protein CHCR

Growth factor withdrawal from proliferating myoblasts induces the expression of muscle-specific genes essential for myogenesis. By suppression subtractive hybridization (SSH), we have cloned a novel human cDNA that encodes a Cys3His zinc finger protein named CHCR (Cys3His CCG1-Required). CHCR is related to Muscleblind (Mbl), a Drosophila melanogaster protein required for terminal muscle differentiation. It also displays sequence similarity to EXP/MBNL, a human Mbl protein that interacts with CUG expansions associated with the degenerative muscular disease, myotonic dystrophy (DM1). This relationship with EXP/MBNL and Mbl suggests that CHCR also functions during muscle differentiation. We have found that CHCR mRNA and protein levels decrease upon differentiation of mouse myoblast cells. Constitutive expression of CHCR in C2C12 cells inhibits the induction of sarcomeric myosin heavy chain (MyHC) upon serum deprivation. Induction of myogenin, an earlier marker of muscle differentiation, is inhibited to a lesser extent, while expression of the cell cycle inhibitor, p21, remains unaffected. Loss of CHCR function by morpholino antisense oligonucleotide treatment accelerates MyHC induction during differentiation of myoblast cells. These complementary gain- and loss-of-function results suggest that CHCR is an inhibitor of myogenesis. CHCR represents the first muscleblind-related protein that antagonizes, instead of promotes, muscle differentiation.

Electrodiagnostic approach to the patient with suspected myopathy

Uncovering the cause of a suspected myopathy may be challenging. However, a careful approach starts with utilizing the wealth of available information regarding the clinical and laboratory features of myopathy. Electrodiagnostic testing is then obtained (in most cases). Recognition of the pattern of EMG findings in light of the clinical and laboratory features should narrow the differential diagnosis and dictate the next steps in the evaluation. Histopathologic or molecular studies, or both may follow. Ultimately, this approach usually allows the clinician to make the correct diagnosis.

Proximal myotonic myopathy: a syndrome with a favourable prognosis?

Cardiac involvement in myotonic dystrophy type 1 (DM1) is well known. In contrast, the severity and frequency of cardiac abnormalities in proximal myotonic myopathy (PROMM) are still unclear. To identify similarities and differences in the rate of progression of muscle weakness and cardiac disturbances in these two disorders, 16 patients with PROMM (3q-unlinked PROMM: n=10; uniformative for linkage: n=6) were compared to 33 patients with moderately severe myotonic dystrophy type 1 (DM1). There was no significant difference in disease duration between PROMM and DM1. Patients underwent serial manual muscle strength testing, EKG, 24-h Holter monitoring, 2D-echocardiography. Muscle weakness progressed slowly in both groups. Most DM1 patients developed conduction defects. No significant atrioventricular disturbances on initial and follow-up examinations were found in PROMM patients. One patient developed right bundle branch block. Many families with PROMM appear to have more benign cardiac manifestations and less severe prognosis compared to DM1. Further studies of subgroups of PROMM (linked to the 3q21 locus and without linkage) are necessary to determine whether the cardiac conduction disturbances are more common in a specific genotype of PROMM.