Massimiliano Mirabella

Progress in the molecular diagnosis of facioscapulohumeral muscular dystrophy and correlation between the number of KpnI repeats at the 4q35 locus and clinical phenotype.

Genotype analysis by using the p13E‐11 probe and other 4q35 polymorphic markers was performed in 122 Italian facioscapulohumeral muscular dystrophy families and 230 normal controls. EcoRI—BlnI double digestion was routinely used to avoid the interference of small EcoRI fragments of 10qter origin that were found in 15% of the controls. An EcoRI fragment ranging between 10 and 28 kb that was resistant to BlnI digestion was detected in 114 of 122 families (93%) comprising 76 familial and 38 isolated cases. Among the unaffected individuals, 3 were somatic mosaics and 7, carrying an EcoRI fragment larger than 20 kb, could be rated as nonpenetrant gene carriers. In a cohort of 165 patients with facioscapulohumeral muscular dystrophy we found an inverse correlation between fragment size and clinical severity. A severe lower limb involvement was observed in 100% of patients with an EcoRI fragment size of 10 to 13 kb (1–2 KpnI repeats left), in 53% of patients with a fragment size of 16 to 20 kb (3–4 KpnI repeats left), and in 19% of patients with a fragment size larger than 21 kb (>4 KpnI repeats left). Our results confirm that the size of the fragment is a major factor in determining the facioscapulohumeral muscular dystrophy phenotype and that it has an impact on clinical prognosis and genetic counseling of the disease. Ann Neurol 1999;45:751–757

The recovery of platelet cyclooxygenase activity explains interindividual variability in responsiveness to low-dose aspirin in patients with and without diabetes

See also Lordkipanidze M, Harrison P. Aspirin twice a day keeps new COX‐1 at bay. This issue, pp 1217–9.

Coenzyme Q10 reverses pathological phenotype and reduces apoptosis in familial CoQ10 deficiency

Two brothers with myopathic coenzyme Q10 (CoQ10) deficiency responded dramatically to CoQ10 supplementation. Muscle biopsies before therapy showed ragged-red fibers, lipid storage, and complex I + III and II + III deficiency. Approximately 30% of myofibers had multiple features of apoptosis. After 8 months of treatment, excessive lipid storage resolved, CoQ10 level normalized, mitochondrial enzymes increased, and proportion of fibers with TUNEL-positive nuclei decreased to 10%. The authors conclude that muscle CoQ10 deficiency can be corrected by supplementation of CoQ10, which appears to stimulate mitochondrial proliferation and to prevent apoptosis.

Pilot trial of phenylbutyrate in spinal muscular atrophy

The aim of this study was to evaluate tolerability and efficacy of phenylbutyrate (PB) in patients with spinal muscular atrophy (SMA). Ten patients with SMA type II confirmed by DNA studies (age range 2.6-12.7 years, mean age 6.01) were started on oral PB (triButyrate) in powder or tablets. The dosage was 500 mg/kg per day (maximum dose 19 g/d), divided in five doses (every 4 h, skipping one night-dose) using an intermittent schedule (7 days on and 7 days off). Measures of efficacy were the change in motor function from baseline to 3 and 9 weeks, by means of the Hammersmith functional motor scale. In children older than 5 years, muscle strength, assessed by myometry, and forced vital capacity were also measured. We found a significant increase in the scores of the Hammersmith functional scale between the baseline and both 3-weeks (P < 0.012) and 9-weeks assessments (P < 0.004). Our results indicate that PB might be beneficial to SMA patients without producing any major side effect. Larger prospective randomised, double-blind, placebo controlled trials are needed to confirm these preliminary findings.

Constitutive activation of MAPK cascade in acute quadriplegic myopathy

Acute quadriplegic myopathy (AQM; also called “critical illness myopathy”) shows acute muscle wasting and weakness and is experienced by some patients with severe systemic illness, often associated with administration of corticosteroids and/or neuroblocking agents. Key aspects of AQM include muscle atrophy and myofilament loss. Although these features are shared with neurogenic atrophy, myogenic atrophy in AQM appears mechanistically distinct from neurogenic atrophy. Using muscle biopsies from AQM, neurogenic atrophy, and normal controls, we show that both myogenic and neurogenic atrophy share induction of myofiber‐specific ubiquitin/proteosome pathways (eg, atrogin‐1). However, AQM patient muscle showed a specific strong induction of transforming growth factor (TGF)–β/MAPK pathways. Atrophic AQM myofibers showed coexpression of TGF‐β receptors, p38 MAPK, c‐jun, and c‐myc, including phosphorylated active forms, and these same fibers showed apoptotic features. Our data suggest a model of AQM pathogenesis in which stress stimuli (sepsis, corticosteroids, pH imbalance, osmotic imbalance) converge on the TGF‐β pathway in myofibers. The acute stimulation of the TGF‐β/MAPK pathway, coupled with the inactivity‐induced atrogin‐1/proteosome pathway, leads to the acute muscle loss seen in AQM patients. Ann Neurol 2004

pSTAT1, pSTAT3, and T-bet expression in peripheral blood mononuclear cells from relapsing-remitting multiple sclerosis patients correlates with disease activity.

Multiple sclerosis (MS) is a chronic inflammatory demyelinating disease of the central nervous system, and it is considered to be a T helper 1 (Th1) cell‐mediated autoimmune disease. T‐bet has been identified as a key transcription factor for the development of Th1 cells and the induction of interferon (IFN)‐γ production. T‐bet is induced during T‐cell activation by the IFN‐γ signal transducer and activator of transcription (STAT)‐1 signalling pathway. In this study we found an up‐regulation of T‐bet and pSTAT1 in peripheral blood CD4+ and CD8+ T cells and monocytes from relapsing‐remitting MS patients in relapse compared with patients in remission and with healthy subjects. The increased expression of pSTAT1 strongly correlated with T‐bet expression in CD4+ and CD8+ cells and monocytes from patients in relapse and was associated with an increased production of IFN‐γ by peripheral blood mononuclear cells (PBMCs). pSTAT3 was also up‐regulated in CD4+ and CD8+ cells and monocytes from patients in relapse and was associated with an increased production of interleukin (IL)‐10 but not of IL‐6. pSTAT1, pSTAT3, and T‐bet expression strongly correlated with Gd‐DTPA‐enhanced lesions on brain and spinal cord magnetic resonance imaging. Our data show for the first time that there is an up‐regulation of type 1 immunity‐correlated transcription factors such as STAT1 and T‐bet in peripheral blood subpopulations of MS patients in the active phase of disease. The evaluation of T‐bet and pSTAT1 expression in peripheral blood CD4+, CD8+ T cells and monocytes could be used as a marker of disease activity in relapsing‐remitting MS.

Leptin as a marker of multiple sclerosis activity in patients treated with interferon-beta

The role of leptin was investigated in relapsing-remitting multiple sclerosis (MS). Control and MS patients showed comparable baseline serum leptin levels. During the first year of IFNbeta-1a treatment, leptin significantly decreased since 2 months after starting therapy in 11 patients who had no relapses. A significant decrease in IL12/IL10 ratio was observed in this group of patients only after 1 year of treatment. An increase of leptin was observed before the first clinical exacerbation in 13 relapsing patients. Leptin may play a pathogenic role in MS and can be a useful marker of disease activity and response to therapy.

Cardiomyopathy may be the only clinical manifestation in female carriers of Duchenne muscular dystrophy

Cardiomyopathy was reported in a few Duchenne muscular dystrophy (DMD) carriers with clinical evidence of myopathy. We report two carriers with dilated cardiomyopathy, increased serum CK, and no symptoms of muscle weakness. In heart biopsies of both patients, dystrophin—the protein product of DMD locus—was absent in many fibers. Dilated cardiomyopathy may be the only manifestation of dystrophin gene mutation in carriers.

Ultrasound tissue characterization detectspreclinical myocardial structural changes inchildren affected by Duchenne muscular dystrophy

Our goal was to identify early changes in myocardial physical properties in children with Duchenne muscular dystrophy (DMDch). Duchenne muscular dystrophy (DMD) is caused by the absence of dystrophin, which triggers complex molecular and biological events in skeletal and cardiac muscle tissues. Although about 30% of patients display overt signs of cardiomyopathy in the late stage of the disease, it is unknown whether changes in myocardial physical properties can be detected in the early (preclinical) stages of the disease. We performed an ultrasonic tissue characterization (UTC) analysis of myocardium in DMDch with normal systolic myocardial function and no signs of cardiomyopathy. Both the cyclic variation of integrated backscatter (cvIBS) and the calibrated integrated backscatter (cIBS) were assessed in 8 myocardial regions of 20 DMDch, age 7 +/- 2 years (range 4 to 10 years), and in 20 age-matched healthy controls. We found large differences in the UTC data between DMDch and controls; the mean value of cvIBS was 4.4 +/- 1.5 dB versus 8.8 +/- 0.8 dB, whereas the mean value of cIBS was 36.4 +/- 7.1 dB versus 26.9 +/- 2.0 dB (p < 10(-6) for both). In DMDch, all eight sampled segments showed cIBS mean values to be significantly higher and cvIBS mean values to be significantly lower than those in the controls. Finally, interindividual differences were greater in DMDch than in controls for both parameters.The myocardium in DMDch displays UTC features different from those in healthy controls. These results show that lack of dystrophin is commonly associated with changes in myocardial features well before the onset of changes of systolic function and overt cardiomyopathy.

MyoD expression restores defective myogenic differentiation of human mesoangioblasts from inclusion-body myositis muscle.

Inflammatory myopathies (IM) are acquired diseases of skeletal muscle comprising dermatomyositis (DM), polymyositis (PM), and inclusion-body myositis (IBM). Immunosuppressive therapies, usually beneficial for DM and PM, are poorly effective in IBM. We report the isolation and characterization of mesoangioblasts, vessel-associated stem cells, from diagnostic muscle biopsies of IM. The number of cells isolated, proliferation rate and lifespan, markers expression, and ability to differentiate into smooth muscle do not differ among normal and IM mesoangioblasts. At variance with normal, DM and PM mesoangioblasts, cells isolated from IBM, fail to differentiate into skeletal myotubes. These data correlate with lack in connective tissue of IBM muscle of alkaline phosphatase (ALP)-positive cells, conversely dramatically increased in PM and DM. A myogenic inhibitory basic helix–loop–helix factor B3 is highly expressed in IBM mesoangioblasts. Indeed, silencing this gene or overexpressing MyoD rescues the myogenic defect of IBM mesoangioblasts, opening novel cell-based therapeutic strategies for this crippling disorder.