An atypical phenotype of a patient with infantile spinal muscular atrophy with respiratory distress type 1 (SMARD 1)

Spinal muscular atrophy with respiratory distress type 1 (SMARD1) is a rare autosomal recessive disease characterized by infancy-onset diaphragmatic palsy and symmetrical distal muscular weakness. SMARD1 is caused by loss-of-function mutations in IGHMBP2 gene. In this article, we report a male SMARD1 patient with two compound heterozygous mutations (NM_002180.2: c.688C?>?G; p.(Gln230Glu)) and (NM_002180.2: c.1737C?>?A; p.(Phe579Leu)), one of which (c.688C?>?G; ClinVar accession: SUB3344743: SCV000612189) is novel. He suffered from diaphragmatic palsy and distal muscular weakness from 6 months of age. His lower limbs were at first in hypertonia, and then gradually progressed into hypotonia. More interestingly, bronchoscopy has shown the diffuse tracheobronchomalacia, which had been reported only once in a SMARD1 patient who also had the same mutation (c.1737C?>?A) as our patient. We constructed the model of IGHMBP2 and mapped both mutations in the structure to analyze the structural impact of both mutations (c.688C?>?G and c.1737C?>?A) on the IGHMBP2 protein, which showed that mutation c.688C?>?G reduces greatly the stability of domain 1A of IGHMBP2, while the structural impact of c.1737C?>?A is not extensive.     

Clinical and mutational profile in spinal muscular atrophy with respiratory distress (SMARD): defining novel phenotypes through hierarchical cluster analysis

Autosomal recessive spinal muscular atrophy with respiratory distress (SMARD) is a heterogeneous disorder. Mutations in the immunoglobulin micro-binding protein gene (IGHMBP2) lead to SMARD1, but clinical criteria that delineate SMARD1 from other SMARD syndromes are not well established. Here we present a retrospective clinical and genetic study to determine the criteria that would predict the presence or absence of IGHMBP2 mutations. From 141 patients with respiratory distress and a spinal muscular atrophy phenotype we recorded the clinical features through a questionnaire and sequenced the entire coding region of IGHMBP2. In 47 (33%) patients we identified IGHMBP2 mutations, 14 of which were not described before. Clinical features and combinations thereof associated with the presence of IGHMBP2 mutations were discovered through hierarchical cluster analysis. This method detects common traits not evident at first sight by grouping items according to their similarity. The combination of "manifestation of respiratory failure between 6 weeks and 6 months" AND ("presence of diaphragmatic eventration" OR "preterm birth") predicted the presence of IGHMBP2 mutations with 98% sensitivity and 92% specificity. Non-SMARD1 patients fell into two different symptom clusters, mainly separated by the age at respiratory failure and the presence of multiple congenital contractures. The 14 novel IGHMBP2 mutations comprised missense, frameshift, splice-site, and nonsense mutations. All missense mutations altered conserved residues within or adjacent to the putative DNA helicase domain. The c.1235+3A>G splice-site mutation did not entirely suppress correct splicing and we found a residual wild-type IGHMBP2 mRNA steady-state level of 24.4+/-6.9%, which was, however, not sufficient to avert SMARD1 in this patient.     

Clinical variability in distal spinal muscular atrophy type 1 (DSMA1): determination of steady-state IGHMBP2 protein levels in five patients with infantile and juvenile disease

Distal spinal muscular atrophy type 1 (DSMA1) is caused by mutations in the immunoglobulin μ-binding protein 2 (IGHMBP2) gene. Patients with DSMA1 present between 6 weeks and 6 months of age with progressive muscle weakness and respiratory failure due to diaphragmatic palsy. Contrary to this “classic” infantile disease, we have previously described a DSMA1 patient with juvenile disease onset. In this paper, we present (1) a second juvenile case and (2) the first study of DSMA1 on protein level in patients with infantile (n = 3) as well as juvenile (n = 2) disease onset observing elevated residual steady-state IGHMBP2 protein levels in the patients with late onset DSMA1 as compared to those with classic DSMA1. Mutation screening in IGHMBP2 revealed two patients compound heterozygous for a novel missense mutation (c.1478C→T; p.T493I) and another previously described mutation. In lymphoblastoid cells of both patients, steady-state IGHMBP2 protein levels were reduced. In comparison to wild-type IGHMBP2, the p.T493I variant protein had an increased tendency to aggregate and spontaneously degrade in vitro. We verified a change in the physicochemical properties of the p.T493I variant which may explain the pathogenicity of this mutation. Our data further suggest that the age of onset of DSMA1 is variable, and we discuss the effect of residual IGHMBP2 protein levels on the clinical course and the severity of the disease. Electronic supplementary material  The online version of this article (doi:) contains supplementary material, which is available to authorized users.     

Quantitative analysis of SMN1 and SMN2 genes based on DHPLC: a highly efficient and reliable carrier-screening test

Autosomal recessive spinal muscular atrophy (SMA) is a common, fatal neuromuscular disease caused by homozygous absence of the SMN1 gene in approximately 94% of patients. However, a highly homologous SMN2 gene exists in the same chromosome interval, centromeric to SMN1, and hampers detection of SMN1. We present a new, rapid, simple, and highly reliable method for detecting the SMN1 deletion/conversion and for determining the copy numbers of the SMN1 and SMN2 genes by DHPLC. We analyzed SMN1/SMN2 gene exon 7 deletion/conversion by DHPLC. A total of 25 patients with spinal muscular atrophy lacking the SMN1 gene as well as 309 control individuals from the general population and the family members of patients with SMA were analyzed. By DHPLC analysis, we could detect the SMA-affected cases efficiently just by recognizing an SMN2-only peak. Furthermore, after specific primer amplification and adjustment of the oven temperature, all of the SMA carriers with an SMN1/SMN2 ratio not equal to 1 could be identified unambiguously by this simple and efficient detection system. To calculate the total SMN1/SMN2 gene dosages further, we developed a specific multiplex competitive PCR protocol by simultaneously amplifying the CYBB gene (X-linked), the KRIT1 gene (on chromosome arm 7q), and the SMN1/SMN2 gene ratio by DHPLC. By applying this technique, we could successfully designate all of the genotypes with different SMN1/SMN2 gene copy numbers, including equal and unequal amounts of SMN1 and SMN2. We demonstrated that DHPLC is a fast and reliable tool for detection of carriers of SMA.     

Loss of parental-specific methylation at the IGF2 locus in human hepatocellular carcinoma

Significant production of the growth factor IGF2 has been reported in human hepatocellular carcinomas (HCCs). Disturbances associated with changes in methylation at this locus or affecting the 11p15.5 imprinting domain as a whole can be postulated in HCCs. In the present study, the methylation status of differentially methylated regions of the imprinted genes TSSC5, LIT1, and IGF2, which span the 11p15 domain, was analysed in 71 liver tissues from virus-associated and non-virus-associated HCCs compared with six normal liver tissues. Altered methylation of TSSC5 and LIT1 was observed in only 6% and 8% of HCCs, respectively, compared with 89% at the IGF2 locus, suggesting that these loci were not concomitantly dysregulated. These observations suggest that loss of parental-specific methylation at the IGF2 locus may be specifically associated with HCC, whether virus-associated or non-virus-associated, and arising in cirrhotic or non-cirrhotic livers.     

Allelic imbalance in colorectal cancer at the CRAC1 locus in early-onset colorectal cancer

A susceptibility gene to colorectal adenomas and carcinoma (CRAC1) on chromosome region 15q14 approximately q22 has been proposed on the basis of linkage in a single family. Allele-specific loss of heterozygosity (LOH) in tumors of affected family members suggests that the causative gene functions as a tumor-suppressor gene. The genes that are mutated in inherited cancer syndromes are often involved in the pathogenesis of sporadic cancer. To determine whether CRAC1 plays a role in colorectal carcinogenesis in general, we have studied 277 cases of early-onset colorectal cancers for allele loss at 15q14 approximately q22 using four microsatellite markers (D15S970, D15S117, D15S971, and D15S1028) that define the region of maximal linkage. The frequency of LOH detected was between 14% and 22%, but there was no significant association between LOH at each adjacent marker. Most cancers caused by loss of expression of a tumor suppressor involve large-scale deletion of one allele. On this basis, our findings suggest that CRAC1 is unlikely to be implicated in the development of colorectal cancer in general or, if involved, it is through small somatic mutations or other loss of function mechanisms rather than allele loss.     

Allelic polymorphism in introns 1 and 2 of the HLA-DQA1 gene

Human leukocyte antigen (HLA) class II antigens are highly polymorphic membrane glycoproteins, encoded by the A and B genes of DR, DQ, and DP. The polymorphism is mainly located in exon 2, with the exception of DQA1. Of the 27 DQA1 alleles presently known, 18 cannot be identified on the basis of exon 2 alone, but need additional information from the other exons. DQA1 has been reported to be the most ancient class II gene. For evolutionary comparison and to assess the degree of polymorphism outside the exons, the sequences of introns 1 and 2 were determined from 30 different cell lines, encompassing 15 different DQA1 alleles. The sequences revealed major nucleotide differences between the different lineages, whereas within each lineage few differences were present. Phylogenetic analysis of intron and exon sequences confirmed this lineage specificity. Altogether, the present data indicate that the HLA-DQA1 lineages represent ancient entities. The observed variation of the introns in alleles with identical exon sequences implicates conservative selection of the exons within a given lineage. Intron sequences may provide the means to set up an accurate typing system.     

Novel Mutations in the DYNC1H1 Tail Domain Refine the Genetic and Clinical Spectrum of Dyneinopathies

The heavy chain 1 of cytoplasmic dynein (DYNC1H1) is responsible for movement of the motor complex along microtubules and recruitment of dynein components. Mutations in DYNC1H1 are associated with spinal muscular atrophy (SMA), hereditary motor and sensory neuropathy (HMSN), cortical malformations, or a combination of these. Combining linkage analysis and whole‐exome sequencing, we identified a novel dominant defect in the DYNC1H1 tail domain (c.1792C>T, p.Arg598Cys) causing axonal HMSN. Mutation analysis of the tail region in 355 patients identified a de novo mutation (c.791G>T, p.Arg264Leu) in an isolated SMA patient. Her phenotype was more severe than previously described, characterized by multiple congenital contractures and delayed motor milestones, without brain malformations. The mutations in DYNC1H1 increase the interaction with its adaptor BICD2. This relates to previous studies on BICD2 mutations causing a highly similar phenotype. Our findings broaden the genetic heterogeneity and refine the clinical spectrum of DYNC1H1, and have implications for molecular diagnostics of motor neuron diseases.     

Mutation analysis of BRCA1 and BRCA2 from 793 Korean patients with sporadic breast cancer

To investigate the role of BRCA1 and BRCA2 mutations in Korean patients with sporadic breast cancer, 793 breast cancer patients were analyzed by denaturing high performance liquid chromatography and direct sequencing. The 793 breast cancer patients enrolled in this study had no family history of affected first- or second-degree relatives with breast and/or ovarian cancer. Seventy-nine different sequence variations were identified, of which 34 were novel. Fifteen deleterious mutations were detected in 20 out of 793 patients (2.5%): 11 frameshift mutations and 4 nonsense mutations (seven in BRCA1 and eight in BRCA2), and no recurrent or founder mutations were observed in BRCA mutation screening. However, three mutations (K467X, 3972delTGAG, and R2494X in BRCA2) were identified in other studies of the Korean population. Of 793 patients, the clinicopathological information was obtained in 135 patients, who included 20 deleterious mutation-positive and 115 deleterious mutation-negative groups. The median age at diagnosis, histologic type, histologic grade and T stage did not show statistically significant difference between these two groups. BRCA-mutation-associated tumors showed lower estrogen receptor, progesterone receptor, and HER-2/neu but higher p53 expression. Although poor prognostic features were noted in BRCA-associated tumors, we did not find statistically significant differences. The present study will be helpful in the evaluation of the need for the genetic screening of germline BRCA mutations and reliable genetic counseling for sporadic breast cancer patients.     

Low mutation rate of hMSH2 and hMLH1 in Taiwanese hereditary non-polyposis colorectal cancer

Hereditary non-polyposis colorectal cancer (HNPCC), the most common type of hereditary colorectal cancer, is thought to be a simple Mendelian disease involving DNA mismatch repair genes. The majority of mutations associated with HNPCC occur in the hMSH2 and hMLH1 genes. The reported incidence of mismatch repair gene mutations in HNPCC kindreds varies considerably (from 22 to 86%), and most mutations are unique. This study aimed to determine the genetic basis of Taiwanese HNPCC kindreds, focusing on the two major genes involved in this disease. A total of 15 Taiwanese HNPCC kindreds meeting the Amsterdam criteria, including 72 affected individuals among a total of 266 individuals, were analyzed using both RNA- and DNA-based methods. The mutation rate of hMSH2 and hMLH1 in these 15 kindreds was 0% and 20%, respectively, which is lower than that reported in other countries. Two novel mutations were discovered in hMLH1: one was an allelic loss of a 5.2-kb genomic fragment causing exon 16 deletion; and the other was a two-nucleotide deletion that resulted in a frameshift mutation of exon 3. We also identified one hMLH1 exon 4 mutation (a C to T transition in codon 117), which had been reported previously in western countries. This is the first genetic study of HNPCC from Taiwan.     

Linkage disequilibrium at the SCA2 locus

Spinocerebellar ataxia type 2 (SCA2) is caused by the expansion of an unstable CAG repeat encoding a polyglutamine tract. Repeats with 32 to 200 CAGs are associated with the disease, whereas normal chromosomes contain 13 to 33 repeats. We tested 220 families of different geographical origins for the SCA2 mutation. Thirty three were positive (15%). Twenty three families with at least two affected subjects were tested for linkage disequilibium (LD) between the SCA2 mutation and three microsatellite markers, two of which (D12S1332-D12S1333) closely flanked the mutation; the other (D12S1672) was intragenic. Many different haplotypes were observed, indicating the occurrence of several ancestral mutations. However, the same haplotype, not observed in controls, was detected in the German, the Serbian, and some of the French families, suggesting a founder effect or recurrent mutations on an at risk haplotype.     

Association analysis of polymorphisms at the interleukin‐1 locus in essential hypertension

Infection with microorganisms such as Helicobacter pylori and Chlamidia pneumoniae has been associated with coronary heart disease (CAD) and hypertension (HT). Infection increases the release of pro‐inflammatory cytokines, thus facilitating interactions that lead to vascular damage and other effects. We hypothesized that genetically determined differences in activity or responsiveness of cytokine(s) might contribute to HT. The interleukin‐1 gene (IL1) cluster on chromosome 2q14 contains three related genes (IL1A, IL1B, and IL1RN) located within a 430‐kb region. These encode IL‐1α and IL‐1β, as well as their endogenous receptor antagonist, IL‐1ra. The IL1RN gene has a penta‐allelic 86‐bp tandem repeat in intron 2. Allele IL1RN* 2 is associated with a wide range of chronic inflammatory and autoimmune conditions, and its combination with the ? 31T variant of an IL1B C(? 31)T polymorphism constitutes a pro‐inflammatory haplotype that leads to vigorous IL‐1β production. We therefore tested each of these polymorphisms for association with HT. Subjects were white Anglo‐Celtic residents of Sydney, Australia. Frequencies of IL1B C(? 31)T genotypes CC, CT, and TT were 0.50, 0.40, and 0.10 in normotensive (NT) and 0.46, 0.46, and 0.08 in HT, respectively (χ² = 1.2, P = 0.55). T allele frequency in NT (0.30) was similar to that in HT (0.31). For the IL1RN variant, frequencies of alleles IL1RN* 1 and * 2 and combined minor alleles * 3, * 4, and * 5 were 0.61, 0.36, and 0.03 in NT and 0.54, 0.36, and 0.10 in HT, respectively (χ² = 11, P = 0.004). In conclusion, no association of the IL1B C(? 31)T with HT was found, whereas combined frequency of the minor alleles of the IL1RN polymorphism was increased in the HT cohort studied. © 2001 Wiley‐Liss, Inc.     

Allelic interactions at the shibire locus of Drosophila: effects on behavior

This report describes a detailed behavioral study of four shi alleles, shits1, shits2, shits4, and shiST139, and their heteroallelic combinations. Flies of different heteroallelic combinations (shi/shi) were less sensitive to high temperature than the corresponding homozygotes. Among them, shits2/shits4 showed a striking reduction in temperature sensitivity. In contrast, different shi/+ heterozygotes were more severe in temperature sensitivity than the hemizygotes, Df/+. The hemizygous combinations of shi alleles over deficiency (shi/Df) were not completely lethal, with shits2 conferring distinctively higher and shits4 lower viability. A novel behavior, bang sensitivity, was also found in shi/Df. The results of allelic interactions suggest that the shi mutations examined appear to be antimorphic and that the shi gene products are likely to function in multimeric form.     

Carbohydrate heterogeneity of human myeloma proteins of the IgA1 and IgA2 subclasses

Comparative studies of the N-linked carbohydrate chains of human myeloma proteins of the IgA1 and IgA2 subclasses were performed. The N-linked carbohydrate chains were released by hydrazinolysis from the polypeptide backbone, converted to radioactive oligosaccharides by sodium borotritide reduction after N-acetylation and separated into one neutral and two acidic fractions by paper electrophoresis. The acidic oligosaccharides were completely converted to neutral oligosaccharides by sialidase treatment, indicating that they were sialyl derivatives. The neutral and sialidase-treated acidic oligosaccharides were further fractionated by Bio-Gel P-4 column chromatography. Structural studies of each oligosaccharide by sequential exoglycosidase digestion and methylation analysis revealed that human myeloma IgA proteins contained significant amounts of biantennary complex-type carbohydrate chains in addition to a small amount of the high mannose-type. The results indicated that the oligosaccharide structures of human IgA1 and IgA2 display a high degree of heterogeneity not only in the number of carbohydrate chains, but also in their composition.     

Age and sex based genetic locus heterogeneity in type 1 diabetes

BACKGROUND: Two genome scans for susceptibility loci for type 1 diabetes using large collections of families have recently been reported. Apart from strong linkage in both studies of the HLA region on chromosome 6p, clear consistent evidence for linkage was not observed at any other loci. One possible explanation for this is a high degree of locus heterogeneity in type 1 diabetes, and we hypothesised that the sex of affected offspring, age of diagnosis, and parental origin of shared alleles may be the bases of heterogeneity at some loci. METHODS: Using data from a genome wide linkage study of 356 affected sib pairs with type 1 diabetes, we performed linkage analyses using parental origin of shared alleles in subgroups based on (1) sex of affected sibs and (2) age of diagnosis. RESULTS: Among the results obtained, we observed that evidence for linkage to IDDM4 on chromosome 11q13 occurred predominantly from opposite sex, rather than same sex sib pairs. At a locus on chromosome 4q, evidence for linkage was observed in sibs where one was diagnosed above the age of 10 years and the other diagnosed below 10 years of age. CONCLUSIONS: We show that heterogeneity tests based on age of diagnosis, sex of affected subject, and parental origin of shared alleles may be helpful in reducing locus heterogeneity in type 1 diabetes. If repeated in other samples, these findings may assist in the mapping of susceptibility loci for type 1 diabetes. Similar analyses can be recommended in other complex diseases.     

Determination of SMN1 and SMN2 copy number using TaqMan technology

Infantile spinal muscular atrophy (SMA) is a neuromuscular disease caused by homozygous deletion of the SMN1 gene in more than 90% of patients. Identification of carriers for the SMN1 deletion is important for diagnostic purposes and for genetic counseling. The current practical implications of SMN2 copy number determination are limited but may be important, for example, for future drug trials. Here we present a new rapid and reliable approach to determine the copy numbers of the SMN1 and SMN2 genes: For differentiation of the two genes, we developed a quantitative test on the basis of TaqMan technology using minor groove binder (MGB) probes. To evaluate the approach in respect to detection of SMN1 deletion carriers, we tested 40 putative carriers as well as 100 controls. We confirmed the carrier status in all individuals; furthermore, the distribution of SMN1 and SMN2 copies in the control cohort corresponded to that published previously. In total, a clear-cut differentiation between the different copy number ranges could be observed for both genes. This distinct differentiation is based on the exact specificity of MGB probes and the parallel analysis of an external reference locus that circumvents the problem of unavoidable deviations in DNA concentrations. The simplicity and reproducibility of the TaqMan assay presented here should facilitate its establishment in molecular diagnostic laboratories. Nevertheless, the applicability of quantitative analyses of SMN copy numbers requires knowledge about its options and limitations, based on the complex nature of the SMN region and the clinical variability of SMA. Therefore, determination of SMN1 and SMN2 copy numbers should only be offered after careful consideration in each case.     

Allelic variation at the TAP 1 locus influences disease phenotype in HLA-B27 positive individuals with ankylosing spondylitis

Abstract: The objective was to determine the role of the TAP 1 gene in influencing the phenotype of disease in adult patients with ankylosing spondylitis (AS). The distribution of TAP 1 gene alleles was determined using the PCR RFLP method and restriction enzymes Bcl I and Ace I. The study population included 115 HLA-B27 positive patients with well-documented AS and 41 HLA-B27 positive normal controls. No significant difference in distribution of TAP 1 alleles was noted in comparisons of all AS patients with normal controls. However, AS patients with extraspinal disease were noted to have a significantly increased prevalence of the TAP 1B allele (17.0%) as compared to AS patients without extraspinal disease (2.9%) (P=0.005) or normal controls (1.9%) (P=0.005). Polymorphism at the TAP 1 locus may influence disease outcome in patients with AS.     

Determination of the mutation spectrum of the EXT1/EXT2 genes in British Caucasian patients with multiple osteochondromas, and exclusion of six candidate genes in EXT negative cases

We describe here the spectrum and distribution of mutations in the EXT1 and EXT2 genes in the largest reported British Caucasian multiple osteochondromas (MO) population. Furthermore, we report for the first time the screening of the EXT1 and EXT2 promoters, 5'UTRs, and 3'UTRs, and exclude six potential MO candidate genes in individuals without a detectable mutation within the coding region of EXT1 and EXT2. The coding exons of EXT1 and EXT2 were screened in 72 unrelated probands affected with MO. Forty-six different mutations were identified in 56 probands, of which 29 were novel. Mutation in the EXT1 and EXT2 genes each accounted for 50% of the mutations identified. Of the 72 probands, 42 were of British Caucasian descent, which when added to the 41 British Caucasian families previously reported from our total cohort, gave a total of 83 families. This cohort's proportional frequency for EXT1/EXT2 mutation was 53%/47%. We also validated the technique of high-resolution melting analysis in a blind study using 27 unique EXT1 or EXT2 mutations. This technique was found to be sensitive with a detection rate of 100% regarding heterozygote detection for EXT mutation scanning. Furthermore, this technique has a very high throughput and is very cost-effective.     

OCT2, SSX and SAGE1 reveal the phenotypic heterogeneity of spermatocytic seminoma reflecting distinct subpopulations of spermatogonia

Spermatocytic seminoma (SS) is a rare testicular neoplasm that occurs predominantly in older men. In this study, we aimed to shed light on the histogenesis of SS by investigating the developmental expression of protein markers that identify distinct subpopulations of human spermatogonia in the normal adult testis. We analysed the expression pattern of OCT2, SSX2-4, and SAGE1 in 36 SS cases and four intratubular SS (ISS) as well as a series of normal testis samples throughout development. We describe for the first time two different types of SS characterized by OCT2 or SSX2-4 immunoexpression. These findings are consistent with the mutually exclusive antigenic profile of these markers during different stages of testicular development and in the normal adult testis. OCT2 was expressed predominantly in A(dark) spermatogonia, SSX2-4 was present in A(pale) and B spermatogonia and leptotene spermatocytes, whilst SAGE1 was exclusively present in a subset of post-pubertal germ cells, most likely B spermatogonia. The presence of OCT2 and SSX2-4 in distinct subsets of germ cells implies that these markers represent germ cells at different maturation stages. Analysis of SAGE1 and SSX2-4 in ISS showed spatial differences suggesting ongoing maturation of germ cells during progression of SS tumourigenesis. We conclude that the expression pattern of OCT2, SSX2-4, and SAGE1 supports the origin of SS from spermatogonia and provides new evidence for heterogeneity of this tumour, potentially linked either to the cellular origin of SS or to partial differentiation during tumour progression, including a hitherto unknown OCT2-positive variant of the tumour likely derived from A(dark) spermatogonia.