Musculocontractural Ehlers‐Danlos Syndrome (former EDS type VIB) and adducted thumb clubfoot syndrome (ATCS) represent a single clinical entity caused by mutations in the dermatan‐4‐sulfotransferase 1 encoding CHST14 gene

We present clinical and molecular findings of three patients with an EDS VIB phenotype from two consanguineous families. The clinical findings of EDS kyphoscoliotic type (EDS type VIA and B) comprise kyphoscoliosis, muscular hypotonia, hyperextensible, thin and bruisable skin, atrophic scarring, joint hypermobility and variable ocular involvement. Distinct craniofacial abnormalities, joint contractures, wrinkled palms, and normal urinary pyridinoline ratios distinguish EDS VIB from EDS VIA. A genome‐wide SNP scan and sequence analyses identified a homozygous frameshift mutation (NM_130468.2:c.145delG, NP_569735.1:p.Val49*) in CHST14, encoding dermatan‐4‐sulfotransferase 1 (D4ST‐1), in two Turkish siblings. Subsequent sequence analysis of CHST14 identified a homozygous 20‐bp duplication (NM_130468.2:c.981_1000dup, NP_569735.1:p.Glu334Glyfs*107) in an Indian patient. Loss‐of‐function mutations in CHST14 were recently reported in adducted thumb–clubfoot syndrome (ATCS). Patients with ATCS present similar craniofacial and musculoskeletal features as the EDS VIB patients reported here, but lack the severe skin manifestations. By identifying an identical mutation in patients with EDS VIB and ATCS, we show that both conditions form a phenotypic continuum. Our findings confirm that the EDS‐variant associated with CHST14 mutations forms a clinical spectrum, which we propose to coin as “musculocontractural EDS” and which results from a defect in dermatan sulfate biosynthesis, perturbing collagen assembly. Hum Mutat 31:1–7, 2010. © 2010 Wiley‐Liss, Inc.     

Loss‐of‐function mutations of CHST14 in a new type of Ehlers‐Danlos syndrome

Ehlers‐Danlos syndrome (EDS) is a heterogeneous connective tissue disorder involving skin and joint laxity and tissue fragility. A new type of EDS, similar to kyphoscoliosis type but without lysyl hydroxylase deficiency, has been investigated. We have identified a homozygous CHST14 (carbohydrate sulfotransferase 14) mutation in the two familial cases and compound heterozygous mutations in four sporadic cases. CHST14 encodes dermatan 4‐O‐sulfotransferase 1 (D4ST1), which transfers active sulfate from 3′‐phosphoadenosine 5′‐phosphosulfate to position 4 of the N‐acetyl‐D‐galactosamine (GalNAc) residues of dermatan sulfate (DS). Transfection experiments of mutants and enzyme assays using fibroblast lysates of patients showed the loss of D4ST1 activity. CHST14 mutations altered the glycosaminoglycan (GAG) components in patients' fibroblasts. Interestingly, DS of decorin proteoglycan, a key regulator of collagen fibril assembly, was completely lost and replaced by chondroitin sulfate (CS) in the patients' fibroblasts, leading to decreased flexibility of GAG chains. The loss of the decorin DS proteoglycan due to CHST14 mutations may preclude proper collagen bundle formation or maintenance of collagen bundles while the sizes and shapes of collagen fibrils are unchanged as observed in the patients' dermal tissues. These findings indicate the important role of decorin DS in the extracellular matrix and a novel pathomechanism in EDS. Hum Mutat 31:1–9, 2010. © 2010 Wiley‐Liss, Inc.     

T2 mapping provides multiple approaches for the characterization of muscle involvement in neuromuscular diseases: a cross‐sectional study of lower leg muscles in 5–15‐year‐old boys with Duchenne muscular dystrophy

Skeletal muscles of children with Duchenne muscular dystrophy (DMD) show enhanced susceptibility to damage and progressive lipid infiltration, which contribute to an increase in the MR proton transverse relaxation time (T₂). Therefore, the examination of T₂ changes in individual muscles may be useful for the monitoring of disease progression in DMD. In this study, we used the mean T₂, percentage of elevated pixels and T₂ heterogeneity to assess changes in the composition of dystrophic muscles. In addition, we used fat saturation to distinguish T₂ changes caused by edema and inflammation from fat infiltration in muscles. Thirty subjects with DMD and 15 age‐matched controls underwent T₂‐weighted imaging of their lower leg using a 3‐T MR system. T₂ maps were developed and four lower leg muscles were manually traced (soleus, medial gastrocnemius, peroneal and tibialis anterior). The mean T₂ of the traced regions of interest, width of the T₂ histograms and percentage of elevated pixels were calculated. We found that, even in young children with DMD, lower leg muscles showed elevated mean T₂, were more heterogeneous and had a greater percentage of elevated pixels than in controls. T₂ measures decreased with fat saturation, but were still higher (P < 0.05) in dystrophic muscles than in controls. Further, T₂ measures showed positive correlations with timed functional tests (r = 0.23–0.79). The elevated T₂ measures with and without fat saturation at all ages of DMD examined (5–15 years) compared with unaffected controls indicate that the dystrophic muscles have increased regions of damage, edema and fat infiltration. This study shows that T₂ mapping provides multiple approaches that can be used effectively to characterize muscle tissue in children with DMD, even in the early stages of the disease. Therefore, T₂ mapping may prove to be clinically useful in the monitoring of muscle changes caused by the disease process or by therapeutic interventions in DMD. Copyright © 2012 John Wiley & Sons, Ltd.     

LTBP2‐related “Marfan‐like” phenotype in two Roma/Gypsy subjects with the LTBP2 homozygous p.R299X variant

Recessive variants in LTBP2 are associated with eye‐restricted phenotypes including (a) primary congenital glaucoma and (b) microspherophakia/megalocornea and ectopia lentis with/without secondary glaucoma. Nosology of LTBP2 pathology in humans is apparently in contrast with the consolidated evidence of a wide expression of this gene in the developing embryo. Accordingly, in previously published patients with LTBP2‐related eye disease, additional extraocular findings have been occasionally reported and include, among others, high‐arched palate, tall stature, and variable cardiac involvement. Anyway, no emphasis was put on such systemic manifestations. Here, we report two unrelated Roma/Gypsy patients first ascertained for a multisystem disorder mainly characterized by primary congenital glaucoma, complex congenital heart defect, tall stature, long fingers, skin striae and dystrophic scarring, and resembling Marfan syndrome. Heart involvement was severe with polyvalvular heart dysplasia in one, and transposition of great arteries, thoracic arterial tortuosity, polyvalvular heart dysplasia, and neo‐aortic root dilatation in the other. Both patients were homozygous for the recurrent c.895C>T[p.(R299X)] variant, typically found in individuals of Roma/Gypsy descent with an eye‐restricted phenotype. Our findings point out LTBP2 as responsible of a systemic phenotype coherent with the community of syndromes related to anomalies in genes involved in the TGFβ‐pathway. Among these disorders, LTBP2‐related systemic disease emerges as a distinct condition with expanding prognostic implications and autosomal recessive inheritance.     

First direct evidence of involvement of a homozygous loss‐of‐function variant in the EPS15L1 gene underlying split‐hand/split‐foot malformation

Split‐hand/split‐foot malformation (SHFM) is a severe form of congenital limb deformity characterized by the absence of 1 or more digits and/or variable degree of median clefts of hands and feet. The present study describes an investigation of a consanguineous family of Pakistani origin segregating SHFM in an autosomal recessive manner. Human genome scan using SNP markers followed by whole exome sequencing revealed a frameshift deletion (c.409delA, p.Ser137Alafs*19) in the EPS15L1 gene located on chromosome 19p13.11. This is the first biallelic variant identified in the EPS15L1 gene underlying SHFM. Our findings report the first direct involvement of EPS15L1 gene in the development of human limbs.     

Clinical features,molecular results,and management of 12 individuals with the rare arthrochalasia Ehlers‐Danlos syndrome

Arthrochalasia Ehlers‐Danlos syndrome (aEDS) is a rare autosomal dominant connective tissue disorder that is characterized by congenital bilateral hip dislocations, severe generalized joint hypermobility, recurrent joint (sub)luxations, and skin hyperextensibility. To date, 42 patients with aEDS have been published. We report 12 patients with aEDS from 10 families with 6 unpublished individuals and follow‐up data on 6 adult patients. The clinical features are largely comparable with patients reported in the literature. Most (n = 10) patients had variants leading to (partial) loss of exon 6 of the COL1A1 or COL1A2 genes. One patient did not have a previously reported likely pathogenic COL1A1 variant. Data regarding management were retrieved. Hip surgery was performed in 5/12 patients and 3/12 patients underwent spinal surgery. As much as 4/12 patients were wheelchair‐bound or unable to walk unaided. Fractures were present in 9/12 individuals with 1 patient requiring bisphosphonate treatment. Echocardiograms were performed in 10 patients and 2 individuals showed an abnormality likely unrelated to aEDS. One patient gave birth to two affected children and went through preterm labor requiring medication but had no additional complications. Of the eight adults in our cohort, the majority entered a career. Our data point toward a genotype–phenotype relationship with individuals with aEDS due to pathogenic COL1A1 variants causing complete or partial loss of exon 6 being more severely affected regarding musculoskeletal features. There is a significant lack of knowledge with regard to management of aEDS, particularly in adulthood. As such, systematic follow‐up and multidisciplinary treatment is essential.     

Pathogenic homozygous variant in POMK gene is the cause of prenatally detected severe ventriculomegaly in two Lithuanian families

Biallelic pathogenic variants in POMK gene are associated with two types of dystroglycanopathies: limb‐girdle muscular dystrophy‐dystroglycanopathy, type C12 (MDDGC12), and congenital muscular dystrophy‐dystroglycanopathy with brain and eye anomalies, type A12 (MDDGA12). These disorders are very rare and have been previously reported in 10 affected individuals. We present two unrelated Lithuanian families with prenatally detected hydrocephalus due to a homozygous nonsense variant in the POMK. The first signs of hydrocephalus in the affected fetuses became evident at 15 weeks of gestation and rapidly progressed, thus these clinical features are compatible with a diagnosis of MDDGA12. The association between pathogenic POMK variants and macrocephaly and severe hydrocephalus has been previously reported only in two families. Clinical and molecular findings presented in this report highlight congenital hydrocephalus as a distinct feature of POMK related disorders and a differentiator from other dystroglycanopathies. These findings further extend the spectrum of MDDGA12 syndrome.     

Two middle‐aged women with the Finnish variant of muscle‐eye‐brain disease (MEB)

Muscle‐eye‐brain disease (MEB) is a recessively inherited rare disease. Sixteen different gene mutations are known, with the most common mutations in the POMGNT1 gene. The disease is now called congenital muscular dystrophy‐dystroglycanopathy type A3 (MDDGA3). It manifests itself as muscular dystrophy with eye and brain anomalies and intellectual disability. Previous clinical reports describe young patients. We have been able to follow two patients for almost 40 years. Their clinical picture has remained quite stable since adolescence, appearing as severe intellectual and motor disability, extremely limited communication skills, visual impairment, epilepsy, joint contractures, repeated bowel obstructions, teeth abrasion due to bruxism, an irregular sleep pattern and as a previously unreported feature hypothermic periods manifesting as excessive sleepiness.     

A 15‐year‐long Southern blotting analysis of FMR1 to detect female carriers and for prenatal diagnosis of fragile X syndrome in Taiwan

Here, we review the results of Southern blotting analyses of the FMR1 gene performed in our reference laboratory in Taiwan over a 15‐year period. In total, 725 high‐risk women with a family history of fragile X syndrome (FXS) or idiopathic intellectual disability, 3911 low‐risk pregnant women without such family history, and prenatal diagnosis data for 32 foetuses from 24 carrier mothers were included. Only 2 carriers were in the low‐risk group, which indicated a prevalence of 1 of 1955 women (95% confidence interval: 1/7156‐1/539). A total of 100 carriers were found to be in the high‐risk group, thus revealing a significantly higher frequency than the low‐risk group (100/725 vs 2/3911, P<0.0001). Eight of the 14 foetuses that inherited the maternal mutant allele were verified to have a full mutation, with the smallest maternal pre‐mutation allele carrying 56 CGG repeats. The overall findings confirmed that the carrier prevalence among low‐risk women in Taiwan is significantly lower than that reported in western countries. Therefore, the most important step for preventing FXS in Taiwan would be to focus on high‐risk women by promoting general awareness of this disease and spreading knowledge regarding the benefits of carrier screening and prenatal testing.     

Relationships between muscle morphology and insulin sensitivity are improved after adjustment for intra‐individual variability in 70‐year‐old men

The purpose of this investigation was to examine to what extent variability in the muscle morphology and insulin sensitivity influence the correlation between them. Reproducibility of muscle characteristics was estimated in duplicate biopsies from the same thigh of 23 subjects from a cohort of 70‐year‐old men. The coefficient of variation (CV) for different characteristics of muscle morphology was between 11 and 42% in duplicate biopsies. Coefficient of variation for markers of insulin sensitivity ranged between 12 and 39%. The variability reflected by intra‐class correlation ranged from 0.23 to 0.60 for muscle morphology and from 0.68 to 0.96 for estimates of insulin sensitivity. The correlation analysis between muscle morphology and insulin resistance was performed in a sample of 515 men from the cohort, correlation coefficients were calculated with (r_true) and without (r) adjustment for intra‐individual variation. Insulin sensitivity showed a positive relationship with percentage of type I fibres (r_true=0.33, r=0.21; P < 0.0001) and capillary density (r_true=0.43, r=0.21; P < 0.0001) and negative correlations with percentage of type IIB fibres (r_true=–0.35, r=–0.24; P < 0.0001). Capillary density was inversely correlated to insulin. Thus, an obvious improvement of the correlation was seen after correcting intra‐individual variation. In conclusion, owing to the low degree of reproducibility of muscle morphology variables and insulin sensitivity, implying a noticeable underestimation of correlations, the r‐values should be adjusted for within‐subject variation in order to demonstrate a more accurate estimate of the strength of the relationships studied.     

Changes in calsequestrin,TNF‐α, TGF‐β and MyoD levels during the progression of skeletal muscle dystrophy in mdx mice: a comparative analysis of the quadriceps,diaphragm and intrinsic laryngeal muscles

In Duchenne muscular dystrophy (DMD), the search for new biomarkers to follow the evolution of the disease is of fundamental importance in the light of the evolving gene and pharmacological therapies. In addition to the lack of dystrophin, secondary events including changes in calcium levels, inflammation and fibrosis greatly contribute to DMD progression and the molecules involved in these events may represent potential biomarkers. In this study, we performed a comparative evaluation of the progression of dystrophy within muscles that are differently affected by dystrophy (diaphragm; DIA and quadriceps; QDR) or spared (intrinsic laryngeal muscles) using the mdx mice model of DMD. We assessed muscle levels of calsequestrin (calcium‐related protein), tumour necrosis factor (TNF‐α; pro‐inflammatory cytokine), tumour growth factor (TGF‐β; pro‐fibrotic factor) and MyoD (muscle proliferation) vs. histopathology at early (1 and 4 months of age) and late (9 months of age) stages of dystrophy. Fibrosis was the primary feature in the DIA of mdx mice (9 months: 32% fibrosis), which was greater than in the QDR (9 months: 0.6% fibrosis). Muscle regeneration was the primary feature in the QDR (9 months: 90% of centrally nucleated fibres areas vs. 33% in the DIA). The QDR expressed higher levels of calsequestrin than the DIA. Laryngeal muscles showed normal levels of TNF‐α, TGF‐β and MyoD. A positive correlation between histopathology and cytokine levels was observed only in the diaphragm, suggesting that TNF‐α and TGF‐β serve as markers of dystrophy primarily for the diaphragm.     

Effects of Helicobacter pylori,geohelminth infection and selected commensal bacteria on the risk of allergic disease and sensitization in 3‐year‐old Ethiopian children

Background Epidemiological studies have suggested that gastro‐intestinal infections including Helicobacter pylori, intestinal microflora (commensal bacteria) and geohelminths may influence the risk of asthma and allergy but data from early life are lacking. Objective We aimed to determine the independent effects of these infections on allergic disease symptoms and sensitization in an Ethiopian birth cohort. Methods In 2008/09, 878 children (87% of the 1006 original singletons in a population‐based birth cohort) were followed up at age 3 and interview data obtained on allergic symptoms and potential confounders. Allergen skin tests to Dermatophagoides pteronyssinus and cockroach were performed, levels of Der p 1 and Bla g 1 in the child's bedding measured and stool samples analysed for geohelminths and, in a random subsample, enterococci, lactobacilli, bifidobacteria and H. pylori antigen. The independent effects of each exposure on wheeze, eczema, hayfever and sensitization were determined using multiple logistic regression. Results Children were commonly infected with H. pylori (41%; 253/616), enterococci (38.1%; 207/544), lactobacilli (31.1%; 169/544) and bifidobacteria (18.9%; 103/544) whereas geohelminths were only found in 8.5% (75/866). H. pylori infection was associated with a borderline significant reduced risk of eczema (adjusted OR 0.49, 95% CI 0.24–1.01, P=0.05) and D. pteronyssinus sensitization (adjusted OR 0.42, 95% CI 0.17–1.08, P=0.07). Geohelminths and intestinal microflora were not significantly associated with any of the outcomes measured. Conclusion and Clinical Relevance Among young children in a developing country, we found evidence to support the hypothesis of a protective effect of H. pylori infection on the risk of allergic disease. Further investigation of the mechanism of this effect is therefore of potential therapeutic and preventive value. Cite this as: A. Amberbir, G. Medhin, W. Erku, A. Alem, R. Simms, K. Robinson, A. Fogarty, J. Britton, A. Venn, and G. Davey, Clinical & Experimental Allergy, 2011 (41) 1422–1430.