原发性免疫缺陷病和脊髓性肌萎缩症临床特点及新生儿早期联合筛查实践

原发性免疫缺陷病(PID)及脊髓性肌萎缩症(SMA)均是由基因突变引起的能严重影响儿童健康甚至导致死亡的遗传性出生缺陷,早期发现和及时诊断治疗是影响预后的关键,新生儿筛查是目前实现早期诊断和干预的有效手段。近年来部分国家和地区已将SMA和PID中最为严重的重症联合免疫缺陷病(SCID)和最常见的B细胞缺乏症X连锁无丙种球蛋白血症(XLA)纳入新生儿筛查范围。浙江省在国内首次开展对SCID、XLA和SMA三种遗传性疾病的新生儿早期联合筛查实践,极大地提高了筛查效率,使出生缺陷三级预防关口前移,有助于显著改善患者的预后、提高生活质量、降低死亡率。     

针刺配合推拿、跌打追风酒外敷治疗肩周炎的临床疗效分析

目的:探寻肩周炎患者临床有效的治疗方法。方法:从我院2018年治疗的肩周炎患者中随机抽取80例,采取双盲筛选法将其均分为对照组与观察组各40例,分别接受针刺治疗及针刺+推拿+跌打追风酒外敷治疗,对比两组临床效果。结果:观察组总有效率、治疗满意度均显著高于对照组(P<0.05)。结论:针刺+推拿+跌打追风酒外敷联合治疗方案可有效改善肩周炎患者的临床症状,促使患者早日恢复,值得临床广泛推广运用。     

New advances in Amyotrophic Lateral Sclerosis genetics: Towards gene therapy opportunities for familial and young cases

Due to novel gene therapy opportunities, genetic screening is no longer restricted to familial cases of ALS (FALS) cases but also aplies to the sporadic populations (SALS). Screening of four main genes (C9orf72, SOD1, TARDBP and FUS) identified the causes in 15% of Amyotrophic Lateral Sclerosis (ALS) patients (two third of the familial cases and 8% of the sporadic ones) but their respective contribution to ALS phenotype varies according the age of disease onset. The genetic overlap between ALS and other diseases is expanding and includes frontotemporal dementia, Paget's Disease of Bone, myopathy for adult cases, HSP and CMT for young cases highlighing the importance of retrieving the exhaustive familial history for each indivdual with ALS. Incomplete disease penetrance, diversity of the possible phenotypes, as well as the lack of confidence concerning the pathogenicity of most identified variants and/or possible oligogenic inheritance are burdens of ALS genetic counseling to be delivered to patients and at risk individuals. The multitude of rare ALS genetic causes identifed seems to converge to similar cellular pathways leading to inapropriate response to stress emphacising new potential therapeutic options for the disease.     

Altered supraspinal motor networks in survivors of poliomyelitis: A cortico-muscular coherence study

ObjectivePoliomyelitis results in changes to the anterior horn cell. The full extent of cortical network changes in the motor physiology of polio survivors has not been established. Our aim was to investigate how focal degeneration of the lower motor neurons (LMN) in infancy/childhood affects motor network connectivity in adult survivors of polio.MethodsSurface electroencephalography (EEG) and electromyography (EMG) were recorded during an isometric pincer grip task in 25 patients and 11 healthy controls. Spectral signal analysis of cortico-muscular (EEG-EMG) coherence (CMC) was used to identify the cortical regions that are functionally synchronous and connected to the periphery during the pincer grip task.ResultsA pattern of CMC was noted in polio survivors that was not present in healthy individuals. Significant CMC in low gamma frequency bands (30–47 Hz) was observed in frontal and parietal regions.ConclusionThese findings imply a differential engagement of cortical networks in polio survivors that extends beyond the motor cortex and suggest a disease-related functional reorganisation of the cortical motor network.SignificanceThis research has implications for other similar LMN conditions, including spinal muscular atrophy (SMA). CMC has potential in future clinical trials as a biomarker of altered function in motor networks in post-polio syndrome, SMA, and other related conditions.     

Drosophila ammonium transporter Rh50 is required for integrity of larval muscles and neuromuscular system

Rhesus glycoproteins (Rh50) have been shown to be ammonia transporters in many species from bacteria to human. They are involved in various physiological processes including acid excretion and pH regulation. Rh50 proteins can also provide a structural link between the cytoskeleton and the plasma membranes that maintain cellular integrity. Although ammonia plays essential roles in the nervous system, in particular at glutamatergic synapses, a potential role for Rh50 proteins at synapses has not yet been investigated. To better understand the function of these proteins in vivo, we studied the unique Rh50 gene of Drosophila melanogaster, which encodes two isoforms, Rh50A and Rh50BC. We found that Drosophila Rh50A is expressed in larval muscles and enriched in the postsynaptic regions of the glutamatergic neuromuscular junctions. Rh50 inactivation by RNA interference selectively in muscle cells caused muscular atrophy in larval stages and pupal lethality. Interestingly, Rh50-deficiency in muscles specifically increased glutamate receptor subunit IIA (GluRIIA) level and the frequency of spontaneous excitatory postsynaptic potentials. Our work therefore highlights a new role for Rh50 proteins in the maintenance of Drosophila muscle architecture and synaptic physiology, which could be conserved in other species.     

Congenital myasthenic syndrome due to DOK7 mutation in a cohort of patients with ‘unexplained’ limb-girdle muscular weakness

Congenital myasthenic syndromes (CMS) associated with pathogenic variants in the DOK7 gene (DOK7-CMS) have phenotypic overlap with other neuromuscular disorders associated with limb-girdle muscular weakness (LGMW). Genetic analysis of the most common mutation (c.1124_1127dupTGCC) in DOK7 was performed in 34 patients with “unexplained” LGMW associated with non-specific changes in muscle biopsy. Of the 34 patients, one patient showed the DOK7 c.1124_1127dupTGCC variant in homozygousity. Our study estimates the minimum prevalence of undiagnosed DOK7-CMS to be 2.9% in southern Brazilian patients from our centre. Our data confirm that clinicians should look for DOK7-CMS patients when the clinical manifestation is an ‘unexplained’ LGMW, mainly if associated with non-specific changes in muscle biopsy.     

Metabolic and Nutritional Issues Associated with Spinal Muscular Atrophy

Spinal muscular atrophy (SMA), the main genetic cause of infant death, is a neurodegenerative disease characterized by the selective loss of motor neurons in the anterior horn of the spinal cord, accompanied by muscle wasting. Pathomechanically, SMA is caused by low levels of the survival motor neuron protein (SMN) resulting from the loss of the SMN1 gene. However, emerging research extends the pathogenic effect of SMN deficiency beyond motor neurons. A variety of metabolic abnormalities, especially altered fatty acid metabolism and impaired glucose tolerance, has been described in isolated cases of SMA; therefore, the impact of SMN deficiency in metabolic abnormalities has been speculated. Although the life expectancy of these patients has increased due to novel disease-modifying therapies and standardization of care, understanding of the involvement of metabolism and nutrition in SMA is still limited. Optimal nutrition support and metabolic monitoring are essential for patients with SMA, and a comprehensive nutritional assessment can guide personalized nutritional therapy for this vulnerable population. It has recently been suggested that metabolomics studies before and after the onset of SMA in patients can provide valuable information about the direct or indirect effects of SMN deficiency on metabolic abnormalities. Furthermore, identifying and quantifying the specific metabolites in SMA patients may serve as an authentic biomarker or therapeutic target for SMA. Here, we review the main epidemiological and mechanistic findings that link metabolic changes to SMA and further discuss the principles of metabolomics as a novel approach to seek biomarkers and therapeutic insights in SMA.     

Subjective sleep quality in adult patients affected by Duchenne muscular dystrophy. Beyond nocturnal hypoventilation

ObjectiveIn stable neuromuscular patients under long-term non-invasive ventilation (NIV), subjective sleep quality may be predicted by chronic hypoventilation, as assessed by base excess (BE), and %N3 sleep stage duration. In this study, we explored how other variables, closely associated with self-reported health complaints, contributed to subjective sleep quality in adult patients with Duchenne muscular dystrophy (DMD).MethodsThis is a secondary analysis of a quality of life study in 48 adult DMD patients under NIV therapy, with little evidence of residual hypoventilation. Subjective sleep quality was evaluated by the Pittsburgh Sleep Quality Index (PSQI). A PSQI score >5 was considered indicative of poor sleep quality. Several other symptoms were evaluated: sleepiness, by the Epworth Sleepiness Scale (ESS); depression and anxiety, by the anxiety and depression subscales of the Hospital Anxiety and Depression Scale (HADS-A and HADS-D); autonomic symptoms, by the Composite Autonomic Symptom Score 31; pain, by the Numeric Pain Rating Scale (NPRS); and fatigue, by the Fatigue Severity Scale (FSS).ResultsMean PSQI was 6.1 ± 2.9. Abnormal scores were found for NPRS in 40, for HADS-A in 10 and for FSS in 24 subjects. The NPRS, HADS-A and FSS scores and the N3 sleep stage, independently predicted PSQI (R² = 0.47, p < 0.0001).ConclusionsIn adult DMD patients, pain, fatigue and anxiety may have a prominent influence on subjective sleep quality. Improvement of sleep quality may be of utmost importance in DMD, as it may ameliorate quality of life and extend its benefits to cardiovascular morbidity and life expectancy.     

Live-imaging of revertant and therapeutically restored dystrophin in the DmdEGFP-mdx mouse model for Duchenne muscular dystrophy

Background

Dmd^mdx, harbouring the c.2983C>T nonsense mutation in Dmd exon 23, is a mouse model for Duchenne muscular dystrophy (DMD), frequently used to test therapies aimed at dystrophin restoration. Current translational research is methodologically hampered by the lack of a reporter mouse model, which would allow direct visualization of dystrophin expression as well as longitudinal in vivo studies.

Methods

We generated a Dmd^EGFP-mdx reporter allele carrying in cis the mdx-23 mutation and a C-terminal EGFP-tag. This mouse model allows direct visualization of spontaneously and therapeutically restored dystrophin-EGFP fusion protein either after natural fibre reversion, or for example, after splice modulation using tricyclo-DNA to skip Dmd exon 23, or after gene editing using AAV-encoded CRISPR/Cas9 for Dmd exon 23 excision.

Results

Intravital microscopy in anaesthetized mice allowed live-imaging of sarcolemmal dystrophin-EGFP fusion protein of revertant fibres as well as following therapeutic restoration. Dystrophin-EGFP-fluorescence persisted ex vivo, allowing live-imaging of revertant and therapeutically restored dystrophin in isolated fibres ex vivo. Expression of the shorter dystrophin-EGFP isoforms Dp71 in the brain, Dp260 in the retina, and Dp116 in the peripheral nerve remained unabated by the mdx-23 mutation.

Conclusion

Intravital imaging of Dmd^EGFP-mdx muscle permits novel experimental approaches such as the study of revertant and therapeutically restored dystrophin in vivo and ex vivo.