Summary A systematic characterization of the genetic alterations driving ALCLs has not been performed. By integrating massive sequencing strategies, we provide a comprehensive characterization of driver genetic alterations (somatic point mutations, copy number alterations, and gene fusions) in ALK− ALCLs. We identified activating mutations of JAK1 and/or STAT3 genes in ∼20% of 155 ALK− ALCLs and demonstrated that 38% of systemic ALK− ALCLs displayed double lesions. Recurrent chimeras combining a transcription factor (NFkB2 or NCOR2) with a tyrosine kinase (ROS1 or TYK2) were also discovered in WT JAK1/STAT3 ALK− ALCL. All these aberrations lead to the constitutive activation of the JAK/STAT3 pathway, which was proved oncogenic. Consistently, JAK/STAT3 pathway inhibition impaired cell growth in vitro and in vivo.
1. The regular firing of a Hodgkin-Huxley neurone endowed with fast Na¤ and delayed K¤ channels can be converted into adapting firing by appending HERG (human eag-related gene) channels. 2. The computer model predictions were verified by studying the firing properties of F-11 DRG neurone ² neuroblastoma hybrid cells induced to differentiate by long-term exposure to retinoic acid. These cells, which express HERG currents (IHERG), show clear spike-frequency adaptation of their firing when current clamped with long depolarizations. 3. In agreement with the prediction, the selective blocking of IHERG by class III antiarrhythmic drugs always led to the disappearance of the spike-frequency adaptation, and the conversion of adapting firing to regular firing. 4. It is proposed that, in addition to their role in the repolarization of the heart action potential, HERG channels may sustain a process of spike-frequency adaptation, and hence contribute to the control of burst duration in a way that is similar to that of the K¤ currents, IAHP, IC and IM. In addition to the known cardiac arrhythmia syndrome (LQT2), genetic mutations or an altered HERG expression could lead to continuous hyperexcitable states sustained by the inability of nerve or endocrine cells to accommodate to repetitive stimuli. This might help in clarifying the pathogenesis of still undefined idiopathic familial epilepsies.
Following publication of the manuscript, the authors identified an inadvertent error in the summary. The analysis exploring the presence of activating mutations in JAK1 and/or STAT3 was conducted in a total of 155 ALCLs, of which 88 were systemic ALK À ALCLs. The ''155'' in the sentence ''We identified activating mutations of JAK1 and/or STAT3 genes in $20% of 155 ALK À ALCLs and demonstrated that 38% of systemic ALK À ALCLs displayed double lesions'' therefore should be ''88'' instead. The correct sentence should read as follows: ''We identified activating mutations of JAK1 and/or STAT3 genes in $20% of 88 ALK À ALCLs and demonstrated that 38% of systemic ALK À ALCLs displayed double lesions.'' The error has been corrected in the online version of the article.
A cluster of imprinted genes at chromosome 11p15.5 is associated with the growth disorders, Silver–Russell syndrome (SRS) and Beckwith–Wiedemann syndrome (BWS). The cluster is divided into two domains with independent imprinting control regions (ICRs). We describe two maternal 11p15.5 microduplications with contrasting phenotypes. The first is an inverted and in cis duplication of the entire 11p15.5 cluster associated with the maintenance of genomic imprinting and with the SRS phenotype. The second is a 160 kb duplication also inverted and in cis, but resulting in the imprinting alteration of the centromeric domain. It includes the centromeric ICR (ICR2) and the most 5′ 20 kb of the non-coding KCNQ1OT1 gene. Its maternal transmission is associated with ICR2 hypomethylation and the BWS phenotype. By excluding epigenetic mosaicism, cell clones analysis indicated that the two closely located ICR2 sequences resulting from the 160 kb duplication carried discordant DNA methylation on the maternal chromosome and supported the hypothesis that the ICR2 sequence is not sufficient for establishing imprinted methylation and some other property, possibly orientation-dependent, is needed. Furthermore, the 1.2 Mb duplication demonstrated that all features are present for correct imprinting at ICR2 when this is duplicated and inverted within the entire cluster. In the individuals maternally inheriting the 160 kb duplication, ICR2 hypomethylation led to the expression of a truncated KCNQ1OT1 transcript and to down-regulation of CDKN1C. We demonstrated by chromatin RNA immunopurification that the KCNQ1OT1 RNA interacts with chromatin through its most 5′ 20 kb sequence, providing a mechanism likely mediating the silencing activity of this long non-coding RNA.
Although Beckwith-Wiedemann syndrome (BWS, OMIM #130650) is the most common genetic overgrowth disorder, data on its epidemiology are scanty and the estimates of its occurrence show wide variability. The aim of this study is to assess its prevalence in Piedmont Region (Italy). We included in the study all patients diagnosed with BWS born in Piedmont from 1997 to 2009 through a search in the Italian Registry for Rare Diseases. This source was further validated with data from the network of Regional Clinical Genetics services and surveys in extra-regional Clinical Genetics centres, laboratories and the Italian BWS patients association. All cases were further ascertained through physical exam, medical history and specific molecular tests. The search identified 46 clear-cut cases of BWS born across the 13-year period, providing a prevalence of 1:10 340 live births (95% confidence interval 1:7,752-13,698 live births). Among the 41 patients who underwent molecular tests, 70.7% were positive, showing hypomethylation of the IC2 imprinting center (29.3%), paternal chromosome 11 uniparental disomy (pUPD11, 24.4%), IC1 hypermethylation (14.6%), CDKN1c mutation (2.4%), whereas 29.3% had negative molecular tests. The study provides an approximate BWS prevalence of 1:10,000 live birth, the highest reported to date.
Beckwith-Wiedemann syndrome (BWS), an overgrowth disorder with several congenital abnormalities, encompasses nephrourological anomalies. The objective of the report is to analyze the latter and related genotype-phenotype correlations. The study was a retrospective review of nephrourological investigations and genotype in 67 BWS patients. Imaging and laboratory studies have been correlated with the molecular anomalies typical of BWS. Thirty-eight (56.7%) patients had a total of 61 nonmalignant nephrourological findings, including nephromegaly (n = 24), collecting system abnormalities (n = 14), cryptorchidism (n = 11), nephrolithiasis (n = 5), cysts (n = 5), and dysplasia (n = 1). Four patients had Wilms' tumor, all associated with renal hyperplasia. Renal findings were almost consistent in the BWS(IC1) group, with nephromegaly in all patients and collecting system abnormalities in half of them. BWS(UPD) and negative patients also had frequent anomalies (63.6% and 61.9% respectively), whereas only 36.0% of BWS(IC2) had renal findings (p = 0.003). Cryptorchidism was associated with abdominal wall defects (p < 0.001) appearing more frequently in BWS(IC2) (p = 0.028). Urinary tract infections were observed in 17.9% of patients, with two resulting in life-threatening sepsis. Hypercalciuria was present in 10% of cases. 55.5% of BWS patients have renal findings. Although variegate, these anomalies disclose a genotype-phenotype correlation.
Beckwith-Wiedemann syndrome is an overgrowth disorder characterized by neonatal macrosomia, abdominal wall defects, macroglossia, renal anomalies, organomegaly, hypoglycemia, and cancer predisposition. Hepatoblastoma is the second most frequent tumor and periodic serum alpha-fetoprotein (αFP) dosage is the cornerstone of the tumor surveillance for its early detection. In this report, we describe the outstanding case of a Beckwith-Wiedemann syndrome (BWS) newborn with severe phenotype and paternal chromosome 11 uniparental disomy (UPD11) associated with a high tumor risk. Based on the clinical picture and previous reports, a close monitoring of αFP was commenced. The marker was normal immediately after birth, but rapidly raised in 20 days, leading to the diagnosis of an extremely aggressive hepatoblastoma. The latter was successfully treated with pre-surgical reductive chemotherapy, gross total mass resection, and subsequent chemotherapy. Based on this observation, the tumor surveillance routinely suggested every 3 months should be more intense and with closer time intervals in newborns with severe BWS phenotype. We suggest monitoring neonatal αFP every 20 days in such cases.
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