Skin ceramide alterations in first-episode schizophrenia indicate abnormal sphingolipid metabolism.

There is considerable evidence for specific pathology of lipid metabolism in schizophrenia, affecting polyunsaturated fatty acids and in particular sphingolipids. These deficits are assumed to interfere with neuronal membrane functioning and the development and maintenance of myelin sheaths. Recent studies suggest that some of these lipid pathologies might also be detected in peripheral skin tests. In this study, we examined different skin lipids and their relation to schizophrenia. We assessed epidermal lipid profiles in 22 first-episode antipsychotic-naïve schizophrenia patients and 22 healthy controls matched for age and gender using a hexan/ethanol extraction technique and combined high-performance thin-layer chromatography/gas-chromatography. We found highly significant increase of ceramide AH and NH/AS classes in patients and decrease of EOS and NP ceramide classes. This is the first demonstration of specific peripheral sphingolipid alterations in schizophrenia. The results support recent models of systemic lipid pathology and in particular of specific sphingolipids, which are crucial in neuronal membrane integrity. Given recent findings showing amelioration of psychopathology using fatty acid supplementation, our findings also bear relevance for sphingolipids as potential biomarkers of the disease.

Assessment of cardiovascular autonomic function in myotonic dystrophy type 2 (DM2/PROMM).

BACKGROUND: Proximal myotonic myopathy is an autosomal dominant multisystem disorder with a recently defined CCTG expansion on chromosome 3 in the major subgroup (myotonic dystrophy type 2). Cardiac rhythm disturbances have been described in patients with this disease, but it is not known whether myotonic dystrophy type 2/proximal myotonic myopathy patients suffer from dysautonomia and whether cardiac arrhythmias relate to autonomic dysfunction. OBJECTIVES: To investigate cardiovascular autonomic function in myotonic dystrophy type 2/proximal myotonic myopathy patients with and without cardiac arrhythmias. PATIENTS AND METHODS: Standard autonomic function tests (heart rate responses to Valsalva manoeuvre, deep breathing and active change of posture, and blood pressure responses to active change of posture and sustained handgrip), resting heart rate variability in the time- and frequency-domain, and the corrected QT interval length were determined in 16 patients with genetically defined myotonic dystrophy type 2/proximal myotonic myopathy and compared to the results obtained in 16 age- and sex-matched healthy control subjects. RESULTS: Standard autonomic tests yielded similar results in both groups. Measures of heart rate variability tended to be lower in myotonic dystrophy type 2/proximal myotonic myopathy patients compared to healthy controls, but reached statistical significance only for the number of R-R intervals exceeding 50 ms (p50) and the power spectrum density in the low-frequency range (low-frequency power). Four patients (25%) suffered from mild cardiac rhythm disturbances encompassing paroxysmal tachycardia, sinoatrial block, right bundle branch block, ventricular premature beats and bradycardia. The autonomic responses of these patients were essentially similar compared to those without cardiac arrhythmias, apart from a decreased heart rate response to deep breathing in the patients with cardiac arrhythmias. CONCLUSIONS: We found no major abnormalities of cardiovascular autonomic function in patients with myotonic dystrophy type 2/proximal myotonic myopathy, neither in the whole study group nor in the subgroup of patients with cardiac rhythm abnormalities.

Treatment and prevention of experimental autoimmune neuritis with superagonistic CD28-specific monoclonal antibodies.

Two distinct CD28-specific mAb were used in treatment of active or adoptive transfer (AT)-experimental autoimmune neuritis (EAN): "superagonistic" JJ316 activates T cells without T cell receptor (TCR) occupancy, and conventional JJ319 activates T cells only in the presence of TCR-stimulation. Treatment with JJ316 during induction phase of active and adoptive-transfer experimental autoimmune encephalomyelitis (AT-EAN) dramatically reduced disease severity and improved nerve function as revealed by electrophysiology. JJ316 given 1 week before immunization had a preventive effect. By immunohistology, JJ316 markedly reduced TC infiltration of the sciatic nerve in active and AT-EAN. JJ319 was less effective. Ex vivo, JJ316 therapy reduced P2-specific proliferation and interferon-gamma (IFN-gamma) production of lymph node cells. We demonstrate preventive and therapeutic effects of a "superagonistic" mAb-mediated, TCR-independent CD28 stimulation in EAN, possibly with implications for therapy of autoimmune-inflammatory disorders.

Camptocormia in Parkinson's disease mimicked by focal myositis of the paraspinal muscles.

We report on a 63-year-old man with idiopathic Parkinson's disease who developed kyphosis and a severe forward flexion of the thoracolumbar spine. A typical feature was an increase during walking or standing and it completely disappeared in the supine position, mimicking the clinical phenomenon of camptocormia (bent spine). In addition to the abnormal posture, a weakness of the erector spinal muscles, local pain, reddening, and elevated temperature of the paraspinal muscles were evident. Creatine kinase was initially elevated, electromyography showed spontaneous activity and a myopathic pattern. Magnetic resonance imaging and bioptic examinations revealed a focal myositis of the paraspinal muscles. This case indicates that camptocormia can be mimicked by focal myositis of paraspinal muscles and must be included in the differential diagnosis, especially when additional symptoms as inflammatory signs or weakness are present.

Expression of foetal type acetylcholine receptor is restricted to type 1 muscle fibres in human neuromuscular disorders.

In adult muscle, acetylcholine receptors (AChR) are restricted mainly to the motor endplate where the adult isoform (alphabetadeltaepsilon) is expressed. When skeletal muscle is denervated in animal models, there is atrophy of the muscle and a marked increase in expression of the AChR foetal isoform (alphabetagammadelta) containing a gamma-subunit. Similar changes in AChR expression are thought to occur in human muscle. While the role of denervation in regulating AChR gene expression has been widely studied, it has not been determined whether the transcriptional programmes responsible for defining different fibre types have an impact on the expression of AChR genes. We investigated biopsies from patients with a wide spectrum of neuromuscular diseases for expression of the AChR alpha- and gamma-subunits using RNase protection assays, alpha/gamma-duplex reverse transcriptase polymerase chain reaction, immunohistochemistry for foetal AChR and RNA in situ hybridization. Muscle from all patients with neurogenic disorders and, to a lesser extent, myogenic disorders, exhibited markedly increased transcription of the AChR gamma-subunit but, in contrast to previous animal studies, did not show increased AChR alpha-subunit. Moreover, both immunohistochemistry and RNA in situ hybridization revealed that AChR gamma-subunit hyperexpression occurred exclusively in atrophic type 1 and not in atrophic type 2 muscle fibres, irrespective of the underlying neuromuscular disease. We conclude that up-regulation of the AChR gamma-subunit in human muscle disorders is restricted to type 1 muscle fibres and, therefore, that AChR gamma-subunit expression is controlled by a muscle fibre type-restricted transcriptional programme. The factors influencing expression of this and other functional proteins should be relevant to the understanding and treatment of a range of neuromuscular disorders.