Guilhem Solé

Thrombocytopenia resulting from mutations in filamin A can be expressed as an isolated syndrome

Filaminopathies A caused by mutations in the X-linked FLNA gene are responsible for a wide spectrum of rare diseases including 2 main phenotypes, the X-linked dominant form of periventricular nodular heterotopia (FLNA-PVNH) and the otopalatodigital syndrome spectrum of disorders. In platelets, filamin A (FLNa) tethers the principal receptors ensuring the platelet-vessel wall interaction, glycoprotein Ibα and integrin αIIbβ3, to the underlying cytoskeleton. Hemorrhage, coagulopathy, and thrombocytopenia are mentioned in several reports on patients with FLNA-PVNH. Abnormal platelet morphology in 2 patients with FLNA-PVNH prompted us to examine a third patient with similar platelet morphology previously diagnosed with immunologic thrombocytopenic purpura. Her enlarged platelets showed signs of FLNa degradation in Western blotting, and a heterozygous missense mutation in FLNA was detected. An irregular distribution of FLNa within the total platelet population was shown by confocal microscopy for all 3 patients. In vitro megakaryocyte cultures showed an abnormal differentiation, including an irregular distribution of FLNa with a frayed aspect, the presence of enlarged α-granules, and an abnormal fragmentation of the cytoplasm. Mutations in FLNA may represent an unrecognized cause of macrothrombocytopenia with an altered platelet production and a modified platelet-vessel wall interaction.

REEP1 mutations in SPG31: Frequency, mutational spectrum, and potential association with mitochondrial morpho-functional dysfunction†

Hereditary spastic paraplegias (HSP) constitute a heterogeneous group of neurodegenerative disorders characterized at least by slowly progressive spasticity of the lower limbs. Mutations in REEP1 were recently associated with a pure dominant HSP, SPG31. We sequenced all exons of REEP1 and searched for rearrangements by multiplex ligation‐dependent probe amplification (MLPA) in a large panel of 175 unrelated HSP index patients from kindreds with dominant inheritance (AD‐HSP), with either pure (n = 102) or complicated (n = 73) forms of the disease, after exclusion of other known HSP genes. We identified 12 different heterozygous mutations, including two exon deletions, associated with either a pure or a complex phenotype. The overall mutation rate in our clinically heterogeneous sample was 4.5% in French families with AD‐HSP. The phenotype was restricted to pyramidal signs in the lower limbs in most patients but nine had a complex phenotype associating axonal peripheral neuropathy (= 5/11 patients) including a Silver‐like syndrome in one patient, and less frequently cerebellar ataxia, tremor, dementia. Interestingly, we evidenced abnormal mitochondrial network organization in fibroblasts of one patient in addition to defective mitochondrial energy production in both fibroblasts and muscle, but whether these anomalies are directly or indirectly related to the mutations remains uncertain. Hum Mutat 32:1118–1127, 2011. ©2011 Wiley‐Liss, Inc.

SPG15 is the second most common cause of hereditary spastic paraplegia with thin corpus callosum

Objective: Hereditary spastic paraplegias (HSPs) are very heterogeneous inherited neurodegenerative disorders. Our group recently identified ZFYVE26 as the gene responsible for one of the clinical and genetic entities, SPG15. Our aim was to describe its clinical and mutational spectra. Methods: We analyzed all exons of SPG15/ZFYVE26 gene by direct sequencing in a series of 60 non-SPG11 HSP subjects with associated mental or MRI abnormalities, including 30 isolated cases. The clinical data were collected through the SPATAX network. Results: We identified 13 novel truncating mutations in ZFYVE26, 12 of which segregated at the homozygous or compound heterozygous states in 8 new SPG15 families while 1 was found at the heterozygous state in a single family. Two of 3 splice site mutations were validated on mRNA of 2 patients. The SPG15 phenotype in 11 affected individuals was characterized by early onset HSP, severe progression of the disease, and mental impairment dominated by cognitive decline. Thin corpus callosum and white matter hyperintensities were MRI hallmarks of the disease in this series. Conclusions: The mutations are truncating, private, and distributed along the entire coding sequence of ZFYVE26, which complicates the analysis of this gene in clinical practice. In our series of patients with hereditary spastic paraplegia–thin corpus callosum, the largest analyzed so far, SPG15 was the second most frequent form (11.5%) after SPG11. Both forms share similar clinical and imaging presentations with very few distinctions, which are, however, insufficient to infer the molecular diagnosis when faced with a single patient.

Bilateral periventricular nodular heterotopia in France: frequency of mutations in FLNA, phenotypic heterogeneity and spectrum of mutations

Bilateral periventricular nodular heterotopia (BPNH) is the most common form of periventricular heterotopia. Mutations in FLNA, encoding filamin A, are responsible for the X linked dominant form of BPNH (FLNA-BPNH). Recently, atypical phenotypes including BPNH with Ehlers–Danlos syndrome (BPNH-EDS) have been recognised. A total of 44 FLNA mutations have so far been reported in this phenotype. Most of these mutations lead to a truncated protein, but few missense mutations have also been described. Here, the results of a mutation screening conducted in a series of 32 BPNH patients with the identification of 12 novel point mutations in 15 patients are reported. Nine mutations were truncating, while three were missense. Three additional patients with BPNH-EDS and a mutation in FLNA are described. No phenotype–genotype correlations could be established, but these clinical data sustain the importance of cardiovascular monitoring in FLNA-BPNH patients.

A French family with Charcot–Marie–Tooth disease related to simultaneous heterozygous MFN2 and GDAP1 mutations

Either dominantly inherited mutations in MFN2 encoding mitofusin 2 or GDAP1 encoding ganglioside-induced differentiation associated protein 1 may be associated with mild neuropathy. The proband, a 41-year-old woman, and her daughter present a severe axonal form of Charcot-Marie-Tooth (CMT) disease. Both are heterozygous for the well-described mild variant p.R120W in GDAP1, which was transmitted by the pauci symptomatic probands mother. Given that they had an early onset in the first decade and delayed walking acquisition, the other genes implicated in axonal forms of CMT disease were analyzed. A second mutation truncating MFN2 (p.Val160fsX26) was found in the proband and her daughter. This mutation was transmitted by the probands father who has normal neurological examination. The proband underwent two nerve biopsies which showed an axonal degeneration, myelin modifications, and intra-axonal mitochondria with distorted cristae. Such abnormal mitochondria have been reported in cases with autosomal dominant MFN2 mutations and in one patient with an autosomal recessive GDAP1 mutation. Our two cases show that heterozygous truncation of MFN2, which is silent at least until the sixth decade, when combined with the mild p.R120W GDAP1 variant, leads to a severe neuropathy. This supports the emerging hypothesis of cumulative effects of MFN2 and GDAP1 mutation.

Gender as a Modifying Factor Influencing Myotonic Dystrophy Type 1 Phenotype Severity and Mortality: A Nationwide Multiple Databases Cross-Sectional Observational Study.

Background Myotonic Dystrophy type 1 (DM1) is one of the most heterogeneous hereditary disease in terms of age of onset, clinical manifestations, and severity, challenging both medical management and clinical trials. The CTG expansion size is the main factor determining the age of onset although no factor can finely predict phenotype and prognosis. Differences between males and females have not been specifically reported. Our aim is to study gender impact on DM1 phenotype and severity. Methods We first performed cross-sectional analysis of main multiorgan clinical parameters in 1409 adult DM1 patients (>18y) from the DM-Scope nationwide registry and observed different patterns in males and females. Then, we assessed gender impact on social and economic domains using the AFM-Téléthon DM1 survey (n = 970), and morbidity and mortality using the French National Health Service Database (n = 3301). Results Men more frequently had (1) severe muscular disability with marked myotonia, muscle weakness, cardiac, and respiratory involvement; (2) developmental abnormalities with facial dysmorphism and cognitive impairment inferred from low educational levels and work in specialized environments; and (3) lonely life. Alternatively, women more frequently had cataracts, dysphagia, digestive tract dysfunction, incontinence, thyroid disorder and obesity. Most differences were out of proportion to those observed in the general population. Compared to women, males were more affected in their social and economic life. In addition, they were more frequently hospitalized for cardiac problems, and had a higher mortality rate. Conclusion Gender is a previously unrecognized factor influencing DM1 clinical profile and severity of the disease, with worse socio-economic consequences of the disease and higher morbidity and mortality in males. Gender should be considered in the design of both stratified medical management and clinical trials.

Dehydroepiandrosterone for myotonic dystrophy type 1

Background: Myotonic dystrophy type 1 may be associated with low circulating dehydroepiandrosterone (DHEA) levels. This study was aimed at investigating the efficacy and safety of DHEA in myotonic dystrophy type 1 patients. Methods: This was a prospective, multicenter, randomized, double-blind, placebo-controlled trial conducted from February 2005 to January 2006 at 10 university-affiliated neuromuscular disease centers in France. Seventy-five ambulatory adults with myotonic dystrophy type 1 received an oral replacement dose (100 mg/d) or a pharmacologic dose (400 mg/d) of DHEA, or placebo. The primary endpoint was the relative change in the manual muscle testing (MMT) score from baseline to week 12. Secondary outcome measures included changes from baseline to week 12 in quantitative muscle testing and timed functional testing, respiratory and cardiac function, and quality of life. This study was registered with ClinicalTrials.gov identifier NCT00167609. Results: The median (1st, 3rd quartile) relative changes in MMT score from baseline to week 12 after randomization were 3.1 (−0.9, 6.7), 1.9 (−2.7, 3.5), and 2.2 (0, 7.9), in the DHEA 100 mg, DHEA 400 mg, and placebo groups, respectively. There were no differences between placebo and combined DHEA groups (p = 0.34), placebo and DHEA 100 mg (p = 0.86), or placebo and DHEA 400 mg (p = 0.15). There were also no evidence for a difference between groups for the changes from baseline to week 12 in any secondary outcome. Conclusions: There is no evidence that a 12-week treatment with replacement or pharmacologic doses of dehydroepiandrosterone improves muscle strength in ambulatory myotonic dystrophy type 1 patients.

Ultrastructural mitochondrial modifications characteristic of mitofusin 2 mutations (CMT2A)

Dear Editor, The most commonly identified cause of CharcotMarie-Tooth disease type 2A (CMT2A) is a mutation in the mitochondrial fusion protein mitofusin 2 (MFN2) leading to a dominantly, or more rarely recessive, inherited axonal neuropathy. We have reexamined nerve biopsies from three patients from different families with dominant inheritance and MFN2 mutations. Each patient presented with a classical CMT phenotype and had a normal motor nerve conduction velocity in the right median nerve. Case 1, an 8-year-old girl, was first examined 2 years after onset of symptoms and had a peripheral nerve biopsy (PNB). MFN2 analysis disclosed the mutation Thr232Ala in exon 7 (694A>G) in her mother and a first cousin. Case 2, a 47-year-old man, had had a late onset at 30 years and underwent a PNB 5 years later. The mutation Pro123Leu was identified in exon 5 (368C>T). Case 3, a 25-year-old man, had had an early onset at 4 years and was investigated at 16 years with a PNB. The mutation Arg94Glu was disclosed in the exon 4 (281G>A). In Case 1, PNB showed a mixture of chronic axonal degeneration and numerous onion bulb formations. There was a marked loss of myelinated fibers with clusters of regeneration in Case 2, and a dramatic loss of myelinated and unmyelinated fibers in Case 3. Abnormal mitochondria were rather numerous in Case 2 but rare in Cases 1 and 3. Two different patterns of abnormal mitochondria were observed: when located within axons they had a loss of cristae and sometimes appeared almost empty (Fig. 1A), whereas when located in the Schwann cell cytoplasm of myelinated fibers they were greatly enlarged and contained numerous entwined cristae (Fig. 1B and C). Abnormal mitochondria were also visible in the cytoplasm of a few unmyelinated fibers.

Atypical male and female presentations of FLNA-related periventricular nodular heterotopia.

Periventricular nodular heterotopia, the most common form of cortical malformation in adulthood, is characterized by nodules of neurons ectopically placed along the lateral ventricles. Classically, ectopic nodules are bilateral and symmetric defining bilateral periventricular nodular heterotopia (BPNH). BPNH can lead to epilepsy and intellectual disability of variable severity. The X-linked dominant form of BPNH, related to mutations in FLNA encoding filamin A, is the major cause of BPNH, causing prenatal and neonatal lethality in males that explain the excess of affected women. However, few living males have been described with this condition. In addition, mutations in FLNA have been also exceptionally associated with unilateral nodular heterotopia. We describe here three new patients, all carrying a novel missense mutation in FLNA. Two of the patients were adult males with BPNH; both had normal cognitive development and one did not manifest any seizure until he died at age 57. The last patient was a female adult with epilepsy and focal nodules essentially located along the right ventricle. We compare the clinical and imaging data of our patients with those of previously described similar cases. The type and location of FLNA mutations leading to such atypical presentations are discussed.

Low penetrance in facioscapulohumeral muscular dystrophy type 1 with large pathological D4Z4 alleles: a cross-sectional multicenter study

BackgroundFacioscapulohumeral muscular dystrophy type 1(FSHD1) is an autosomal dominant disorder associated with the contraction of D4Z4 less than 11 repeat units (RUs) on chromosome 4q35. Penetrance in the range of the largest alleles is poorly known. Our objective was to study the penetrance of FSHD1 in patients carrying alleles ranging between 6 to10 RUs and to evaluate the influence of sex, age, and several environmental factors on clinical expression of the disease.MethodsA cross-sectional multicenter study was conducted in six French and one Swiss neuromuscular centers. 65 FSHD1 affected patients carrying a 4qA allele of 6–10 RUs were identified as index cases (IC) and their 119 at-risk relatives were included. The age of onset was recorded for IC only. Medical history, neurological examination and manual muscle testing were performed for each subject. Genetic testing determined the allele size (number of RUs) and the 4qA/4qB allelic variant. The clinical status of relatives was established blindly to their genetic testing results. The main outcome was the penetrance defined as the ratio between the number of clinically affected carriers and the total number of carriers.ResultsAmong the relatives, 59 carried the D4Z4 contraction. At the clinical level, 34 relatives carriers were clinically affected and 25 unaffected. Therefore, the calculated penetrance was 57% in the range of 6–10 RUs. Penetrance was estimated at 62% in the range of 6–8 RUs, and at 47% in the range of 9–10 RUs. Moreover, penetrance was lower in women than men. There was no effect of drugs, anesthesia, surgery or traumatisms on the penetrance.ConclusionsPenetrance of FSHD1 is low for largest alleles in the range of 9–10 RUs, and lower in women than men. This is of crucial importance for genetic counseling and clinical management of patients and families.