Cell cloning-based transcriptome analysis in Rett patients: relevance to the pathogenesis of Rett syndrome of new human MeCP2 target genes.

More than 90% of Rett syndrome (RTT) patients have heterozygous mutations in the X-linked methyl-CpG binding protein 2 (MECP2) gene that encodes the methyl-CpG-binding protein 2, a transcriptional modulator. Because MECP2 is subjected to X chromosome inactivation (XCI), girls with RTT either express the wild-type or mutant allele in each individual cell. To test the consequences of MECP2 mutations resulting from a genome-wide transcriptional dysregulation and to identify its target genes in a system that circumvents the functional mosaicism resulting from XCI, we carried out gene expression profiling of clonal populations derived from fibroblast primary cultures expressing exclusively either the wild-type or the mutant MECP2 allele.

Erratum to: Mutation screening in 86 known X-linked mental retardation genes by droplet-based multiplex PCR and massive parallel sequencing.

[This corrects the article DOI: 10.1007/s11568-010-9137-y.].

The role of surgery in postoperative nerve injuries following total hip replacement.

Although postoperative nerve injury is infrequent in patients undergoing joint replacement, it is extremely distressing for the patient, surgeon, and anesthesiologist. The nature of nerve injury is often closely related to the type of surgery; this review details the potential surgical causes of nerve injuries following total hip arthroplasty. The current orthopedic literature (1943-2008) was reviewed to help anesthesiologists better understand the pathophysiology of surgery-related postoperative nerve injuries, including the relationship with hip joint anatomy and the surgical techniques.

Human lissencephaly with cerebellar hypoplasia due to mutations in TUBA1A: expansion of the foetal neuropathological phenotype.

Neuronal migration disorders account for a substantial number of cortical malformations, the most severe forms being represented by lissencephalies. Classical lissencephaly has been shown to result from mutations in LIS1 (PAFAH1B1; MIM#601545), DCX (Doublecortin; MIM#300121), ARX (Aristaless-related homeobox gene; MIM#300382), RELN (Reelin; MIM#600514) and VLDLR (Very low density lipoprotein receptor; MIM#224050). More recently, de novo missense mutations in the alpha-tubulin 1a gene (TUBA1A) located on chromosome 12q13.

Factors impacting on-time transfer to the operating room in patients undergoing peripheral nerve blocks in the preoperative area.

Study Objectives: To assess the on-time transfer to the operating room (OR) when peripheral nerve blocks (PNBs) are performed prior to surgery.

Design: Prospective time motion study.

Setting: Preoperative area of a university medical center.

Physical therapists' perceptions of ease of care in patients receiving 2 forms of analgesia after total hip arthroplasty.

Background: Pain management modalities that facilitate patient mobility may contribute to recovery after total hip replacement (THR) surgery.

Objective: The aim of this study was to evaluate the impact of morphine intravenous (IV) patient-controlled analgesia (PCA) and the fentanyl iontophoretic transdermal system (fentanyl ITS) on physical therapists' ability to complete care tasks for patients after THR.

Design: The data were from an open-label, randomized, multicenter, active-control phase IIIb clinical trial.

Recurrent deletion of ZNF630 at Xp11.23 is not associated with mental retardation.

ZNF630 is a member of the primate-specific Xp11 zinc finger gene cluster that consists of six closely related genes, of which ZNF41, ZNF81, and ZNF674 have been shown to be involved in mental retardation. This suggests that mutations of ZNF630 might influence cognitive function. Here, we detected 12 ZNF630 deletions in a total of 1,562 male patients with mental retardation from Brazil, USA, Australia, and Europe.

A distinctive gene expression fingerprint in mentally retarded male patients reflects disease-causing defects in the histone demethylase KDM5C.

Background: Mental retardation is a genetically heterogeneous disorder, as more than 90 genes for this disorder has been found on the X chromosome alone. In addition the majority of patients are non-syndromic in that they do not present with clinically recognisable features. This makes it difficult to determine the molecular cause of this disorder on the basis of the phenotype alone.

Mutations in the small GTPase gene RAB39B are responsible for X-linked mental retardation associated with autism, epilepsy, and macrocephaly.

Human Mental Retardation (MR) is a common and highly heterogeneous pediatric disorder affecting around 3% of the general population; at least 215 X-linked MR (XLMR) conditions have been described, and mutations have been identified in 83 different genes, encoding proteins with a variety of function, such as chromatin remodeling, synaptic function, and intracellular trafficking. The small GTPases of the RAB family, which play an essential role in intracellular vesicular trafficking, have been shown to be involved in MR. We report here the identification of mutations in the small GTPase RAB39B gene in two male patients.

A postsynaptic signaling pathway that may account for the cognitive defect due to IL1RAPL1 mutation.

Background: Interleukin-1 receptor accessory protein-like 1 (IL1RAPL1) gene mutations are associated with cognitive impairment ranging from nonsyndromic X-linked mental retardation to autism. IL1RAPL1 belongs to a novel family of Toll/IL-1 receptors, whose expression in the brain is upregulated by neuronal activity. Currently, very little is known about the function of this protein.

Mutation screening in 86 known X-linked mental retardation genes by droplet-based multiplex PCR and massive parallel sequencing.

Unlabelled: Massive parallel sequencing has revolutionized the search for pathogenic variants in the human genome, but for routine diagnosis, re-sequencing of the complete human genome in a large cohort of patients is still far too expensive. Recently, novel genome partitioning methods have been developed that allow to target re-sequencing to specific genomic compartments, but practical experience with these methods is still limited. In this study, we have combined a novel droplet-based multiplex PCR method and next generation sequencing to screen patients with X-linked mental retardation (XLMR) for mutations in 86 previously identified XLMR genes.

Tubulin-related cortical dysgeneses: microtubule dysfunction underlying neuronal migration defects.

The fine tuning of proliferation and neurogenesis, neuronal migration and differentiation and connectivity underlies the proper development of the cerebral cortex. Mutations in genes involved in these processes are responsible for neurodevelopmental disorders, such as cortical dysgeneses, which are usually associated with severe mental retardation and epilepsy. Over the past few years, the importance of cytoskeleton components in cellular processes crucial for cortical development has emerged from a body of functional data.

Ultrasound-guided paravertebral block using an intercostal approach.

We describe an ultrasound-guided technique of continuous bilateral paravertebral block using an intercostal approach in 12 patients undergoing elective abdominal surgery. Postoperatively, each of the patient's paravertebral catheters was bolused with 10 mL lidocaine (15 mg/mL), and each of the patient's catheters was infused with 0.2% ropivacaine at 10 mL/h.

IL1RAPL1 controls inhibitory networks during cerebellar development in mice.

Abnormalities in the formation and function of cerebellar circuitry potentially contribute to cognitive deficits in humans. In the adult, the activity of the sole output neurons of the cerebellar cortex - the Purkinje cells (PCs) - is shaped by the balance of activity between local excitatory and inhibitory circuits. However, how this balance is established during development remains poorly understood.

Revisiting the phenotype associated with FOXG1 mutations: two novel cases of congenital Rett variant.

The Forkhead box G1 (FOXG1) is a transcription factor that is critical for forebrain development, where it promotes progenitor proliferation and suppresses premature neurogenesis. Recently, the FOXG1 gene was implicated in the molecular aetiology of the congenital variant of Rett syndrome. So far, 15 FOXG1 molecular alterations, including only eight point mutations, have been reported.

A novel mutation in the DLG3 gene encoding the synapse-associated protein 102 (SAP102) causes non-syndromic mental retardation.

We have identified a novel splice site mutation (IVS6-1G > A) in the disc-large homolog 3 (DLG3) gene, encoding the synapse-associated protein 102 (SAP102) in one out of 300 families with moderate to severe non-syndromic mental retardation. SAP102 is a member of the neuronal membrane-associated guanylate kinase protein subfamily comprising SAP97, postsynaptic density (PSD)95, and PSD93, which interacts with methyl-D-aspartate receptor and associated protein complexes at the postsynaptic density of excitatory synapses. DLG3 is the first mental retardation gene directly linked to glutamate receptor signalling and trafficking, increasingly recognised as a central mechanism in the regulation of synaptic formation and plasticity in brain and cognitive development.

A new chromosome x exon-specific microarray platform for screening of patients with X-linked disorders.

Recent studies and advances in high-density oligonucleotide arrays have shown that microdeletions and microduplications occur at a high frequency in the human genome, causing various genetic conditions including mental retardation. Thus far little is known about the pathways leading to this disease, and implementation of microarrays is hampered by their increasing cost and complexity, underlining the need for new diagnostic tools. The aim of this study was to introduce a new targeted platform called "chromosome X exon-specific array" and to apply this new platform to screening of 20 families (including one blind positive control) with suspected X-linked mental retardation, to identify new causative X-linked mental retardation genes.

CDKL5 and ARX mutations are not responsible for early onset severe myoclonic epilepsy in infancy.

Background: Severe myoclonic epilepsy of infancy (SMEI) or Dravet syndrome (DS) is a distinctive epilepsy syndrome often associated with de novo mutations in the SCN1A gene. However, 25-30% patients with SMEI/DS are negative for SCN1A mutation screening, suggesting that other molecular mechanisms may account for these disorders. Given the overlapping and heterogeneous clinical features of CDKL5- and ARX-related epilepsies and SMEI/DS, we postulated that CDKL5 mutations in females and ARX mutations gene in males may be associated with early onset seizures forms of SMEI/DS.

LIS1-related isolated lissencephaly: spectrum of mutations and relationships with malformation severity.

Objective: With the largest data set of patients with LIS1-related lissencephaly, the major cause of posteriorly predominant lissencephaly related to either LIS1 mutation or intragenic deletion, described so far, we aimed to refine the spectrum of neurological and radiological features and to assess relationships with the genotype.

Design: Retrospective study. Subjects A total of 63 patients with posteriorly predominant lissencephaly.

Role of mental retardation-associated dystrophin-gene product Dp71 in excitatory synapse organization, synaptic plasticity and behavioral functions.

Background: Duchenne muscular dystrophy (DMD) is caused by deficient expression of the cytoskeletal protein, dystrophin. One third of DMD patients also have mental retardation (MR), likely due to mutations preventing expression of dystrophin and other brain products of the DMD gene expressed from distinct internal promoters. Loss of Dp71, the major DMD-gene product in brain, is thought to contribute to the severity of MR; however, the specific function of Dp71 is poorly understood.

Analysis of Dp71 contribution in the severity of mental retardation through comparison of Duchenne and Becker patients differing by mutation consequences on Dp71 expression.

The presence of variable degrees of cognitive impairment, extending from severe mental retardation to specific deficits, in patients with dystrophinopathies is a well-recognized problem. However, molecular basis underlying mental retardation and its severity remain poorly understood and still a matter of debate. Here, we report one of the largest study based on the comparison of clinical, cognitive, molecular and expression data in a large cohort of 81 patients affected with Duchenne muscular dystrophy (DMD) and Becker muscular dystrophy (BMD) bearing mutations predicted to affect either all dystrophin products, including Dp71 or all dystrophin products, except Dp71.