Identification of mutations in CUL7 in 3-M syndrome

Intrauterine growth retardation is caused by maternal, fetal or placental factors that result in impaired endovascular trophoblast invasion and reduced placental perfusion. Although various causes of intrauterine growth retardation have been identified, most cases remain unexplained. Studying 29 families with 3-M syndrome (OMIM 273750), an autosomal recessive condition characterized by severe pre- and postnatal growth retardation, we first mapped the underlying gene to chromosome 6p21.1 and then identified 25 distinct mutations in the gene cullin 7 (CUL7). CUL7 assembles an E3 ubiquitin ligase complex containing Skp1, Fbx29 (also called Fbw8) and ROC1 and promotes ubiquitination. Using deletion analysis, we found that CUL7 uses its central region to interact with the Skp1-Fbx29 heterodimer. Functional studies indicated that the 3-M-associated CUL7 nonsense and missense mutations R1445X and H1464P, respectively, render CUL7 deficient in recruiting ROC1. These results suggest that impaired ubiquitination may have a role in the pathogenesis of intrauterine growth retardation in humans.

Mutation screening in Borjeson-Forssman-Lehmann syndrome: identification of a novel de novo PHF6 mutation in a female patient

BACKGROUND

Börjeson-Forssman-Lehmann syndrome (BFLS; MIM 301900) is an infrequently described X linked disorder caused by mutations in PHF6, a novel zinc finger gene of unknown function.

OBJECTIVE

To present the results of mutation screening in individuals referred for PHF6 testing and discuss the value of prior X-inactivation testing in the mothers of these individuals.

RESULTS

25 unrelated individuals were screened (24 male, one female). Five PHF6 mutations were detected, two of which (c.940A-->G and c.27_28insA) were novel. One of these new mutations, c.27_28insA, was identified in a female BFLS patient. This was shown to be a de novo mutation arising on the paternal chromosome. This is the first report of a clinically diagnosed BFLS female with a confirmed PHF6 mutation. In addition, the X-inactivation status of the mothers of 19 males with suggested clinical diagnosis of BFLS was determined. Skewed (> or =70%) X-inactivation was present in five mothers, three of whom had sons in whom a PHF6 mutation was detected. The mutation positive female also showed skewing.

CONCLUSIONS

The results indicate that the success of PHF6 screening in males suspected of having BFLS is markedly increased if there is a positive family history and/or skewed X-inactivation is found in the mother.

Revisiting the craniosynostosis-radial ray hypoplasia association: Baller-Gerold syndrome caused by mutations in the RECQL4 gene

Baller-Gerold syndrome (BGS) is a rare autosomal recessive condition with radial aplasia/hypoplasia and craniosynostosis (OMIM 218600). Of >20 cases reported so far, a few appear atypical and have been reassigned to other nosologic entities, including Fanconi anaemia, Roberts SC phocomelia, and Pfeiffer syndromes after demonstration of corresponding cytogenetic or molecular abnormalities. Clinical overlap between BGS, Rothmund-Thomson syndrome (RTS), and RAPADILINO syndrome is noticeable. Because patients with RAPADILINO syndrome and a subset of patients with RTS have RECQL4 mutations, we reassessed two previously reported BGS families and found causal mutations in RECQL4 in both. In the first family, four affected offspring had craniosynostosis and radial defect and one of them developed poikiloderma. In this family, compound heterozygosity for a R1021W missense mutation and a g.2886delT frameshift mutation of exon 9 was found. In the second family, the affected male had craniosynostosis, radial ray defect, poikiloderma, and short stature. He had a homozygous splice site mutation (IVS17-2A>C). In both families, the affected offspring had craniosynostosis, radial defects, and growth retardation, and two developed poikiloderma. Our results confirm that BGS in a subgroup of patients is due to RECQL4 mutations and could be integrated into a clinical spectrum that encompasses RTS and RAPADILINO syndrome.

Coexistence of Kallmann syndrome and complete androgen insensitivity in the same patient

Kallmann syndrome (KS) is a developmental disease that combines hypogonadotropic hypogonadism and anosmia/hyposmia. Other congenital abnormalities may also coexist. This present report describes two sisters, aged 13 and 12 years, born from Lebanese consanguineous parents. The two sisters have complete androgen insensitivity (normal female appearance and an XY karyotype) due to a novel mutation, a C-to-G transversion in intron 2 of the androgen receptor gene, resulting in an aberrant splicing leading to an insertion of 66 nucleotides in the mRNA. In addition, the older sister has KS, together with synkinesia and multiple skeletal abnormalities, mainly kyphosis, vertebral abnormalities, and short right hand and feet. Her testosterone, FSH and LH levels were very low compared with her younger sister. No mutation in the KAL1 and FGFR1/KAL2 genes were found. This unique report raises the possibility of an autosomal recessive or X-linked form of KS with new phenotypic expression.

Diastrophic dysplasia and atelosteogenesis type II as expression of compound heterozygosis: first report of a Mexican patient and genotype-phenotype correlation

The osteochondrodysplasias represent a heterogeneous group of cartilage and bone diseases. Among these, achondrogenesis 1B, atelosteogenesis type II, diastrophic dysplasia, and autosomal recessive multiple epiphyseal dysplasia are caused by mutations in the solute carrier family 26 (sulfate transporter), member 2 gene (SLC26A2). This group of osteochondrodysplasias shows a continuous spectrum of clinical variability and shares many features in common. Usually, it is difficult to distinguish clinically among these patients. To date, several efforts have been made to correlate mutations in the SLC26A2 gene with phenotypic severity in the patients. We report on a Mexican girl with diastrophic dysplasia presenting some unusual clinical and radiographic features that are usually observed in atelosteogenesis type II. Molecular analysis of the SLC26A2 gene in this patient showed compound heterozygosity for the R178X and R279W mutations. In this patient, the combination of a mild and a severe mutation has apparently led to an intermediate or transitional clinical picture, showing an apparent genotype-phenotype correlation.

Further delineation of the odonto-onycho-dermal dysplasia syndrome

We report on three boys, two brothers and their maternal cousin, presenting with dry hair, pilar keratosis, severe hypodontia, smooth tongue, onychodysplasia, and keratoderma and hyperhidrosis of palms and soles. Histology of the skin showed orthokeratotic, hyperkeratosis, hypergranulosis, and mild acanthosis in the epidermis. Scanning electron microscopic examination of the hair showed longitudinal depressions in some hair. These features are close to a rare entity: the odonto-onycho-dermal dysplasia but with some differing features.

Mutations of the catalytic subunit of RAB3GAP cause Warburg Micro syndrome

Warburg Micro syndrome (WARBM1) is a severe autosomal recessive disorder characterized by developmental abnormalities of the eye and central nervous system and by microgenitalia. We identified homozygous inactivating mutations in RAB3GAP, encoding RAB3 GTPase activating protein, a key regulator of the Rab3 pathway implicated in exocytic release of neurotransmitters and hormones, in 12 families with Micro syndrome. We hypothesize that the underlying pathogenesis of Micro syndrome is a failure of exocytic release of ocular and neurodevelopmental trophic factors.

La leucoencéphalopathie mégalencéphalique avec kystes sous-corticaux : étude d’une famille libanaise et revue de la littérature

INTRODUCTION

Megalencephalic leukoencephalopathy with subcortical cysts is a rare disease with autosomal recessive inheritance.

MATERIALS AND METHODS

Two brothers born from a consanguineous marriage, presenting with the phenotype of the disease, their parents, brothers and sisters were examined. Magnetic resonance imaging of the brain was performed for the two patients. Sequence analysis of MLC1 (GenBank mRNA accession no. NM_OI5166) was performed for the patients using intronic primers. PCR restriction fragment length polymorphism analysis was done in patients, their parents and in 100 Lebanese controls in order to exclude gene polymorphism.

RESULTS

The clinical features were characteristic of the disease, consisting of an early-onset macrocephaly followed by slowly progressive ataxia, pyramidal tract involvement and epileptic seizures. In one patient, the clinical manifestations were aggravated by a trivial brain trauma. In his brother and in one female cousin, a status epilepticus was precipitated by a febrile syndrome. The diffuse cerebral white matter lesions and the subcortical temporo-polar and frontal cysts, best seen on MRI, allowed making the diagnosis. Molecular genetics revealed a new mutation involving the MLC1 gene (263G-->T, exon 3). As a consequence, it affects the second transmembrane domain predict (G88V) of the MLC protein (protein sequence NP_055981). The mutation was confirmed by PCR restriction fragment length polymorphism analysis.

CONCLUSION

Megalencephalic leucoencephalopathy with subcortical cysts may be individualized on clinical and radiological basis and confirmed by molecular genetics. In this Lebanese family, a new mutation of the MLC1 gene is reported.

A new autosomal recessive oto-facial syndrome with midline malformations

Two sisters from a Lebanese family presented with slight developmental delay, short stature, congenital microcephaly, frontal bossing, mild hyperplastic supra-orbital ridges, broad nasal root, small dysplastic low-set ears, high arched palate, short neck, and hearing impairment. In addition, the oldest affected sister had esophageal atresia and the other sister had cleft palate. Temporal bone abnormalities included hypoplasia of the external auditory canal, small middle ear cavity, abnormal ossicles, and inner ear malformations with enlarged vestibular acqueducts. Differential diagnosis is discussed, and the possibility of a newly recognized autosomal recessive syndrome is raised.

X-linked reticulate pigmentary layer. Report of a new patient and demonstration of a skewed X-inactivation

We report a boy, born to healthy first cousin parents, with diffuse hyperpigmentation of the skin and guttate hypomelanotic lesions, photophobia, abnormal hair, developmental delay, and recurrent bronchitis. Skin histology showed pigmentation incontinence with numerous melanophages. Electron microscopy showed a very high number of melanosomes and some degenerating keratinocytes. These features correspond to a rare genodermatosis, the X-linked reticulate pigmentary disorder with systemic manifestations. Skewed X-inactivation patterns were detected in the mother's lymphocytes.

DNMT3B mutations and DNA methylation defect define two types of ICF syndrome

ICF syndrome is a rare autosomal recessive disease characterized by variable immunodeficiency, centromeric instability, and facial abnormalities. Mutations in the catalytic domain of DNMT3B, a gene encoding a de novo DNA methyltransferase, have been recognized in a subset of patients. ICF syndrome is a genetic disease directly related to a genomic methylation defect that mainly affects classical satellites 2 and 3, both components of constitutive heterochromatin. The variable incidence of DNMT3B mutations and the differential methylation defect of alpha satellites allow the identification of two types of patients, both showing an undermethylation of classical satellite DNA. This classification illustrates the specificity of the methylation process and raises questions about the genetic heterogeneity of the ICF syndrome.

Molecular study ofWISP3 in nine families originating from the Middle-East and presenting with progressive pseudorheumatoid dysplasia: Identification of two novel mutations, and description of a founder effect

Progressive pseudorheumatoid dysplasia (PPD) is a rare autosomal recessive syndrome characterized by the presence of spondyloepiphyseal dysplasia associated with pain, stiffness, and swelling of multiple joints, osteoporosis, and the absence of destructive bone changes. The disorder is caused by mutations of the WISP3 gene located on chromosome 6q22. We hereby report the molecular study of the WISP3 gene in nine unrelated consanguineous families originating from the Middle-East: three from Lebanon, five from Syria, and one from Palestinian Bedouin descent, all affected with PPD. Five different sequence variations were identified in the WISP3 gene, two of them being new mutations: the c.589G --> C transversion at codon 197, responsible for a splicing defect (A197fsX201); and the c.536_537delGT deletion (C179fsX), both in exon 3. In all other families, the affected patients were homozygous for a previously described nonsense mutation, namely c.156C --> A (C52X). Interestingly, in the latter families, the C52X mutation was always found associated with a novel c.248G --> A (G83E) variation, suggesting the existence of a founder effect.

ADAMTS10 mutations in autosomal recessive Weill-Marchesani syndrome

Weill-Marchesani syndrome (WMS) is characterized by the association of short stature; brachydactyly; joint stiffness; eye anomalies, including microspherophakia and ectopia of the lenses; and, occasionally, heart defects. We have recently mapped a gene for the autosomal recessive form of WMS to chromosome 19p13.3-p13.2, in a 12.4-cM interval. Here, we report null mutations in a member of the extracellular matrix protease family, the gene encoding ADAMTS10, a disintegrin and metalloprotease with thrombospondin motifs. A total of three distinct mutations were identified in two consanguineous families and in one sporadic WMS case, including one nonsense mutation (R237X) and two splice mutations (1190+1G-->A and 810+1G-->A). ADAMTS10 expression studies using reverse-transcriptase polymerase chain reaction, northern blot, and dot-blot analyses showed that ADAMTS10 is expressed in skin, fetal chondrocytes, and fetal and adult heart. Moreover, electron microscopy and immunological studies of the skin fibroblasts from the patients confirmed impairment of the extracellular matrix. We conclude, therefore, that ADAMTS10 plays a major role in growth and in skin, lens, and heart development in humans.

[Familial Mediterranean Fever (FMF): from diagnosis to treatment]

Familial Mediterranean Fever (FMF), also known as paroxysmal polyserositis, is an autosomal recessive disease affecting mainly Mediterranean populations (Jews, Armenians, Arabs, Turks). It is characterised by recurrent crises of fever and serosal inflammation, leading to abdominal, thoracic or articular pain. Erysipela-like erythema affecting mainly feet and legs and effort-induced myalgia are less frequently encountered symptoms. The major complication of FMF is the development of renal amyloidosis. Standard laboratory tests of FMF patients are non-informative, except for the high sedimentation rate and white blood cell count, but during and immediately after crises, diminished albumin concentrations and elevated fibrinogen, C-reactive protein, beta2 and alpha2 M globulins, haptoglobin and lipoprotein concentrations are noted. Studies have measured immunoglobulin (Ig) levels in the sera of FMF patients and found elevated levels of IgA, IgM, IgG, and IgD in 23%, 13%, 17% and 13%, respectively. FMF crises are characterised by a massive influx of polymorphonuclear leukocytes into the inflamed regions. Moreover, the peritoneal fluid of FMF patients contains abnormally low levels of the inhibitor of complement fragment C5a and interleukin 8. Failure to suppress inflammatory response to C5a may explain the typical inflammatory FMF crises. The MEFV (for MEditerranean FeVer) gene responsible for the disease has been identified on 16p13.3. It is composed of 10 exons and spans approximately 14 Kb of genomic DNA. More than 35 mutations have so far been identified. The most frequent are M694V, M694I, M680I, V726A and E148Q. The M694V mutation is the most frequent mutation in the various ethnic groups considered, although its frequency varies from group to group. The V726A mutation is observed mainly among Ashkenazi and Iraqi Jews, Druzes and Armenians, and the M680I among Armenians and Turks. M694I and A744S seem specific to Arab populations, and R761H is frequently found in Lebanese FMF patients. The M694V mutation is often correlated with severe phenotypes, mainly in the homozygous state. It has been specifically correlated with arthritis, pleuritis and especially amyloidosis. Patients with other mutations in the 694 and 680 codons can also have severe phenotypes. The V726A mutation, although identified in FMF patients with a relatively mild phenotype, has also been detected in patients with renal amyloidosis. E148Q is often associated with a mild phenotype, and whether it is even a polymorphism has been questioned. The MEFV gene codes for a protein that was respectively called pyrin and marenostrin by the French and international consortia that simultaneously identified the gene. Its function is still not determined, but it was recently colocalised with microtubules and actin filaments in the cytoplasm. It contains a death domain called PYD (Pyrin Domain), usually associated with proteins involved in apoptosis. Some genes have been tested to assess their possible modifying effects on clinical features of FMF. The alpha/alpha genotype of the serum amyloid A or SAA1 gene is associated with an increased risk of amyloidosis in FMF patients, especially in patients homozygous for M694V, whereas the MICA (Major Histocompatibility Complex, MHC class-I-chain-related type A) gene seems to have an effect on disease course but not its clinical manifestations. The most effective treatment for FMF patients is colchicine, which should be taken regularly on a life-long basis. It decreases the frequency and severity of crises and prevents renal amyloidosis.

Congenital erythropoietic porphyria: report of a novel mutation with absence of clinical manifestations in a homozygous mutant sibling

In a Palestinian family, four siblings were shown to express typical and severe congenital erythropoietic porphyria (CEP). A new mutation of the uroporphyrinogen III synthase (UROS) gene was evidenced by systematic sequencing of the UROS gene: the substitution of serine by proline at the amino acid residue 47 (S47P) was present at the homozygous state in the four patients. The mother was heterozygous, the father was not examined. Surprisingly, in one unaffected sister, UROS activity was markedly deficient and UROS gene analysis showed a homozygous mutant profile. The deleterious role of the mutant S47P protein on UROS activity was demonstrated by prokaryotic expression. This observation is the first report of a healthy status associated with homozygosity for a mutation of UROS gene in a severely affected family. We then draw hypotheses to explain the protective phenotype in the homozygous healthy subject.

A newly recognized skeletal dysplasia with rhizomelic limbs and retinitis pigmentosa

A girl with severe pre- and post-natal short stature, low-pitched voice, retinitis pigmentosa, photophobia, short neck, broad thorax, platyspondyly, rhizomelic shortening of the long bones, bilateral subluxation of the hips, advanced maturation of the epiphyses, and apparently normal intellectual development is described. The girl's parents are first cousins. Two subsequent pregnancies had ended in spontaneous abortion with polyhydramnios and severe growth retardation. To the best of our knowledge, this association had not been previously reported, and may be considered a newly recognized syndrome.

Ichthyosis follicularis, alopecia, and photophobia (IFAP) syndrome: report of a new family with additional features and review

Two brothers with ichthyosis follicularis, noncicatricial universal alopecia, photophobia, hyerkeratotic psoriasis-like lesions, nails dystrophy, inguineal herniae, cryptorchidism, short stature, seizures, and psychomotor developmental delay are described. These features correspond to the ichthyosis follicularis, alopecia, photophobia (IFAP) syndrome. The youngest brother had in addition a bilateral absence of 4th fingers and camptodactyly, features never reported in patients with IFAP syndromes.

Post-natal short stature, short limbs, brachydactyly, facial abnormalities, and delayed bone age: a new syndrome?

A boy is described with clinical features including post-natal short stature, short limbs, speech delay, relatively large skull, prominent metopic ridge, wide palpebral fissures, proptosis, epicanthic folds, capillary hemangioma between the eyes and nose, flat nasal bridge, everted and small nares, small ears with a narrow external auditory canal and thick lobes, short neck, brachydactyly, bilateral Simian creases, a single flexion crease of the first and fifth fingers, protruding abdomen, and bilateral cryptorchidism. Radiographs did not show any features of bone dysplasia. However, a delayed bone age was noted. The boy's parents are first cousins. To the best of our knowledge, this constellation of anomalies has not been reported before, and may be considered a new syndrome.

Clinical homogeneity and genetic heterogeneity in Weill-Marchesani syndrome

Weill-Marchesani syndrome (WMS) is a rare condition characterized by short stature, brachydactyly, joint stiffness, and characteristic eye abnormalities including microspherophakia, ectopia of lens, severe myopia, and glaucoma. Both autosomal recessive (AR) and autosomal dominant (AD) modes of inheritance have been described for WMS. A locus for AR WMS has recently been mapped to chromosome 19p13.3-p13.2 while mutation within the fibrillin-1 gene (15q21.1) was found in one AD WMS family. In order to answer the question of whether or not genetic heterogeneity could be related to a clinical heterogeneity, we reviewed 128 WMS patients from the literature (including 57 AR, 50 AD, and 21 sporadic cases), with a particular attention to clinical features. Statistical analyses using Fischer exact test were used to compare the proportions of 12 clinical parameters between AR and AD patients. There was no significant difference between both groups for myopia, glaucoma, cataract, short stature, brachydactyly, thick skin, muscular build, and mental retardation. Significant results were found for microspherophakia (94% in AR, 74% in AD, Fischer 0.007), ectopia lentis (64% in AR, 84% in AD, Fischer 0.016), joint limitations (49% in AR, 77% in AD, Fischer 0.010), and cardiac anomalies (39% in AR, 13% in AD, Fischer 0.004). Nevertheless, we failed to distinguish AR from AD inheritance in individual cases. These results support the clinical homogeneity but the genetic heterogeneity of WMS.

New autosomal recessive syndrome with short stature and facio-auriculo-thoracic malformations

Two sibs, a boy and a girl, from a Lebanese consanguineous family presented with short stature, microcephaly, ptosis, small, dysplastic, low set ears, short neck, and pectum excavatum and carinatum. In addition, the boy had a high arched palate, a cardiac malformation, and at the X-rays an absence of fusion of the posterior hemi-arches of C7 and a fusion between L5 and S1 with a sagittal-cleft vertebral body of L5, while his sister had a cleft lip/palate and at the X-rays an abnormal odontoid peg and a malformation of the articular facets between C1 and C2, and bilateral cervical ribs. Other laboratory and radiological investigations were normal. Sequencing of PTPN11 exons 2, 3, 4, 7, 8, 12, and 13 did not reveal any variations. Two other sibs presented almost the same dysmorphic features; one girl died at age 6(1/4) years after an acute episode of renal insufficiency, and one boy died at 40 days of age. Differential diagnosis is discussed and the possibility of the report of a new autosomal recessive syndrome with variable expressivity is raised.

Reverse-Hybridization vs. DNA Sequencing in the Molecular Diagnosis of Familial Mediterranean Fever

Familial Mediterranean fever (FMF) is an autosomal recessive inflammatory disorder predominantly affecting people living in or originating from areas around the Mediterranean Sea. It is caused by a number of mutations within the MEFV gene, which differently affect the severity of the disease phenotype. Because patients usually present with rather nonspecific clinical symptoms, MEFV genotyping can confirm and refine FMF diagnosis and improve treatment of affected individuals. We have performed a method comparison study on 100 Lebanese FMF patients to evaluate the potential of a rapid reverse-hybridization teststrip-based assay (FMF StripAssay) to serve as a first-line screening test for our population. When results obtained by reverse-hybridization and DNA sequencing of exons 2, 3, 5, and 10 were compared, the FMF StripAssay identified 144/149 mutations, and correctly typed all 12 different MEFV mutations covered. We conclude that reverse-hybridization provides a very rapid, accurate and easy-to-perform screening method, and, in combination with more comprehensive diagnostic methods, represents an efficient strategy for FMF genotyping.

Amyloidosis in familial Mediterranean fever patients: correlation with MEFV genotype and SAA1 and MICA polymorphisms effects

Background

Familial mediterranean fever (FMF) is a recessively inherited disease characterized by recurrent crises of fever, abdominal, articular and/or thoracic pain. The most severe complication is the development of renal amyloidosis. Over 35 mutations have been discovered so far in the gene responsible for the disease, MEFV. This article aims at determining a correlation between the MEFV genotype and the occurence of amyloidosis in FMF patients, in addition to the study of the modifying effects of the SAA1 (type 1 serum amyloid A protein) and MICA (Major Histocompatibility Complex (MHC) class-I-chain-related gene A) genes on this severe complication.

Methods

Fourteen MEFV mutations were screened and the SAA1 and MICA polymorphisms tested in 30 FMF patients with amyloidosis and 40 FMF patients without amyloidosis.

Results

The M694V and V726A allelic frequencies were, respectively, significantly higher and lower in the group with amyloidosis, compared to the control FMF group. The beta and gamma SAA1 alleles were more frequently encountered in the group without amyloidosis, whereas the alpha allele was significantly more observed in FMF patients with amyloidosis (p < 0.025). All the MICA alleles were encountered in both patients' groups, but none of them was significantly associated with amyloidosis.

Conclusions

The results suggest a protective effect of the SAA1 beta and gamma alleles on the development of amyloidosis and show the absence of a MICA modifying effect on amyloidosis development. Testing these polymorphisms on a larger sample will lead to more definite conclusions.