Dermatological manifestations in cardiofaciocutaneous syndrome: a prospective multicentric study of 45 mutation-positive patients.

BACKGROUND: Data on dermatological manifestations of cardiofaciocutaneous syndrome (CFCS) remain heterogeneous and almost without expert dermatological classification. OBJECTIVES: To describe the dermatological manifestations of CFCS; to compare them with the literature findings; to assess those discriminating CFCS from other RASopathies, including Noonan syndrome (NS) and Costello syndrome (CS); and to test for dermatological phenotype-genotype correlations. METHODS: We performed a 4-year, large, prospective, multicentric, collaborative dermatological and genetic study. RESULTS: Forty-five patients were enrolled. Hair abnormalities were ubiquitous, including scarcity or absence of eyebrows and wavy or curly hair in 73% and 69% of patients, respectively. Keratosis pilaris (KP), ulerythema ophryogenes (UO), palmoplantar hyperkeratosis (PPHK) and multiple melanocytic naevi (MMN; over 50 naevi) were noted in 82%, 44%, 27% and 29% of patients, respectively. Scarcity or absence of eyebrows, association of UO and PPHK, diffuse KP and MMN best differentiated CFCS from NS and CS. Oral acitretin may be highly beneficial for therapeutic management of PPHK, whereas treatment of UO by topical sirolimus 1% failed. No significant dermatological phenotype-genotype correlation was determined. CONCLUSIONS: A thorough knowledge of CFCS skin manifestations would help in making a positive diagnosis and differentiating CFCS from CS and NS.

Neurofibromatosis type 2 French cohort analysis using a comprehensive NF2 molecular diagnostic strategy.

OBJECTIVE: Neurofibromatosis type 2 (NF2) affects about one in 25,000 to 40,000 people. Most NF2 patients have private loss-of-function mutations scattered along the NF2 gene. Here, we present our NF2 investigation strategy. MATERIAL AND METHODS: We report a comprehensive NF2 mutation analysis of 221 NF2 French patients: 134 unrelated typical NF2 patients fulfilling the Manchester criteria and 87 unrelated patients presenting symptoms that partially fulfilled the Manchester criteria. RESULTS: A NF2 mutation was identified in 56 of the 221 patients, giving a global mutation detection rate of 25%. This rate reached 37% (49/134) for typical NF2 patients fulfilling the Manchester criteria and only 8% (7/87) for patients presenting symptoms suggestive of NF2. Six of these seven patients were under 25 of age. Our approach showed that 77% of NF2 identified variants were detected by coding exons sequencing. Multiplex ligation-dependent probe amplification allowed the identification of restricted rearrangements (23% of NF2 identified variants corresponding to complete deletion or partial deletion/duplication of NF2). CONCLUSION: High mutation detection rate can be achieved if well phenotyped NF2 patients are studied with multiple complementary and optimized techniques. NF2 somatic mosaicism detection was improved by frozen tumor samples molecular analysis.

'COV'COP' allows to detect CNVs responsible for inherited diseases among amplicons sequencing data.

SUMMARY: In order to help molecular geneticists to rapidly identify CNVs responsible for inherited diseases among amplicons sequencing data generated by NGS, we designed a user-friendly tool ' Cov'Cop '. Using the run's coverage file provided by the sequencer, Cov'Cop simultaneously analyzes all the patients of the run using a two-stage algorithm containing correction and normalization levels and provides an easily understandable output, showing with various colors, potentially deleted and duplicated amplicons. AVAILABILITY AND IMPLEMENTATION: https://git.unilim.fr/merilp02/CovCop. CONTACT: asliabaldini@unilim.fr. SUPPLEMENTARY INFORMATION: Supplementary data are available at Bioinformatics online.

SOS1: a new player in the Noonan-like/multiple giant cell lesion syndrome.

Noonan-like/multiple giant cell lesion syndrome is a rare condition with phenotypic overlap with Noonan syndrome (NS) and cherubism. PTPN11 gene mutations were described in several individuals with this phenotype, and it is recently considered as a variant phenotype of NS. Gain-of-function mutations in the SOS1 gene were recently described as the second major cause of NS. Here, we report for the first time the involvement of SOS1 gene in a family with the Noonan-like/multiple giant cell lesion phenotype.

SPRED1 germline mutations caused a neurofibromatosis type 1 overlapping phenotype.

OBJECTIVE: Germline loss-of-function mutations in the SPRED1 gene have recently been identified in patients fulfilling the National Institutes of Health (NIH) diagnostic criteria for neurofibromatosis type 1 (NF1) but with no NF1 (neurofibromin 1) mutation found, suggesting a neurofibromatosis type 1-like syndrome. METHODS: 61 index cases with NF1 clinical diagnosis but no identifiable NF1 mutation were screened for SPRED1 mutation. RESULTS: We describe one known SPRED1 mutation (c.190C>T leading to p.Arg64Stop) and four novel mutations (c.637C>T leading to p.Gln213Stop, c.2T>C leading to p.Met1Thr, c.46C>T leading to p.Arg16Stop, and c.1048_1060del leading to p.Gly350fs) in five French families. Their NF1-like phenotype was characterised by a high prevalence of café-au-lait spots, freckling, learning disability, and an absence of neurofibromas and Lisch nodules in agreement with the original description. However, we did not observe Noonan-like dysmorphy. It is noteworthy that one patient with the p.Arg16Stop mutation developed a monoblastic acute leukaemia. CONCLUSIONS: In our series, SPRED1 mutations occurred with a prevalence of 0.5% in NF1 patients and in 5% of NF1 patients displaying an NF1-like phenotype. SPRED1 mutated patients did not display any specific dermatologic features that were not present in NF1 patients, except for the absence of neurofibromas that seem to be a specific clinical feature of NF1. The exact phenotypic spectrum and the putative complications of this NF1 overlapping syndrome, in particular haematological malignancies, remain to be further characterised. NIH diagnostic criteria for NF1 must be revised in view of this newly characterised Legius syndrome in order to establish a specific genetic counselling.

How do Shp2 mutations that oppositely influence its biochemical activity result in syndromes with overlapping symptoms?

Activating and inactivating mutations of SHP-2 are responsible, respectively, for the Noonan (NS) and the LEOPARD (LS) syndromes. Clinically, these developmental disorders overlap greatly, resulting in the apparent paradox of similar diseases caused by mutations that oppositely influence SHP-2 phosphatase activity. While the mechanisms remain unclear, recent functional analysis of SHP-2, along with the identification of other genes involved in NS and in other related syndromes (neurofibromatosis-1, Costello and cardio-facio-cutaneous syndromes), strongly suggest that Ras/MAPK represents the major signaling pathway deregulated by SHP-2 mutants. We discuss the idea that, with the exception of LS mutations that have been shown to exert a dominant negative effect, all disease-causing mutations involved in Ras/MAPK-mediated signaling, including SHP-2, might lead to enhanced MAPK activation. This suggests that a narrow range of MAPK signaling is required for appropriate development. We also discuss the possibility that LS mutations may not simply exhibit dominant negative activity.

The CGA gene as new predictor of the response to endocrine therapy in ER alpha-positive postmenopausal breast cancer patients.

We recently identified CGA (coding for the alpha subunit of glycoprotein hormones) as a new estrogen receptor alpha (ER alpha)-responsive gene in human breast tumors. Here, we assessed the relationship between CGA status (as determined by real-time quantitative RT-PCR) and the response to tamoxifen therapy in a well-defined cohort of 125 ER alpha-positive postmenopausal breast cancer patients treated with primary surgery followed by adjuvant tamoxifen alone. CGA overexpression, observed in 37.6% of patients, was associated with good relapse-free survival (P=0.037; univariate analysis). CGA status, combined with ERBB2 status (a marker of poor outcome), was an independent predictor of the response to tamoxifen (P=0.020; multivariate analysis). CGA status, especially when combined with ERBB2 status, may thus provide useful predictive information on tamoxifen responsiveness in breast cancer.

High glucose and hyperinsulinemia stimulate connective tissue growth factor expression: a potential mechanism involved in progression to fibrosis in nonalcoholic steatohepatitis.

Nonalcoholic steatohepatitis (NASH) may progress to liver fibrosis and cirrhosis. Mechanisms directly involved in the development of fibrosis have been poorly investigated. Because connective tissue growth factor (CTGF) is an intermediate key molecule involved in the pathogenesis of fibrosing chronic liver diseases and is potentially induced by hyperglycemia, the aims of this study were to (1) study the expression of CTGF in vivo both in human liver biopsy specimens of patients with NASH and in an experimental model of obesity and type II diabetes (Zucker rats); and (2) analyze the effects of hyperglycemia and insulin in vitro on hepatic stellate cells. In vivo, CTGF overexpression was observed in the liver tissue of all of the 16 patients with NASH. CTGF immunostaining was mild in 7 cases (44%) and moderate or strong in 9 cases (56%). Staining was mainly detected in the liver extracellular matrix in parallel with the amount of liver fibrosis. Liver from fa/fa rats also showed CTGF overexpression by comparison with Fa/fa rats both at the messenger RNA (mRNA) level (3-fold increase) and protein level. In vitro, both CTGF mRNA and protein were significantly increased when hepatic stellate cells were incubated with either glucose or insulin. A slight increase in type I procollagen mRNA level was also observed in hepatic stellate cells incubated with glucose. In conclusion, this study suggests that hyperglycemia and insulin are key-factors in the progression of fibrosis in patients with NASH through the up-regulation of CTGF.

Quantitation of androgen receptor gene expression in sporadic breast tumors by real-time RT-PCR: evidence that MYC is an AR-regulated gene.

Little is known of the function and clinical significance of the androgen receptor (AR) in human breast cancer. Paradoxically, synthetic progestins, such as medroxyprogesterone acetate, are used for second line hormone therapy of breast cancer following tamoxifen failure. A sensitive and accurate assay for AR expression in breast tumors is thus required. Here we have developed and validated a real-time RT-PCR assay to quantify AR gene expression at the mRNA level in a series of 131 patients with unilateral invasive primary breast tumors. AR expression varied widely in tumor tissues (by at least 3 orders of magnitude), being underexpressed in 24/131 (18.3%) and overexpressed in 45/131 (34.4%) relative to normal breast tissues. We observed links (or trends) between AR status and age, menopausal status, Scarff-Bloom-Richardson histopathological grade, lymph node status and estrogen receptor alpha and progesterone receptor status. High AR mRNA levels were negatively linked to MYC gene overexpression (P = 8 x 10(-6)), confirming previous in vitro studies. Our results also suggest a role of the ARA70 gene (which encodes a major AR co-activator) in the AR pathway dysregulation observed in breast cancer. This simple, rapid and semi-automated method will be useful for screening cancer patients for altered AR expression and for predicting the response to androgen therapy in AR-related cancer patients.

Prenatal diagnosis of respiratory chain deficiency by direct mutation screening.

Respiratory chain deficiency (RCD) is responsible for a clinically heterogeneous group of early-onset untreatable disorders. Enzymological prenatal diagnosis (PD) can only be offered to a fraction of families. Moreover, due to the two-fold genetic origin of the respiratory chain (nuclear and mitochondrial DNA) and owing to the large number of nuclear genes involved in the respiratory chain assembly, maintenance and functioning, the identification of the disease causing gene in a given family remains challenging. Here, we report on PD of RCD by direct screening of NDUFV1, SDH-Fp, SCO1 and SURF1 mutations in five unrelated families with complex I, II and IV deficiency, respectively. The identification of the disease-causing gene in a given family with RCD is a major issue to provide both adequate genetic counselling and early, reliable PD.

Analysis of the human CGB/LHB gene cluster in breast tumors by real-time quantitative RT-PCR assays.

The six genes of the human chorionic gonadotropin beta subunit (CGB) and the gene of the luteinizing hormone beta subunit (LHB) are located in a cluster that spans 50 kb on chromosome 19q13.3. Only genes CGB7, B8, B5 and B3 can generate the human chorionic gonadotropin (hCG) beta molecule. The other two genes, CGB1 and B2, encode unidentified proteins. We have previously shown that malignant breast transformation is associated with the emergence of the 'trophoblastic' CGB genes (B8, B5 and B3), in addition to the CGB7 gene, which is the only CGB gene expressed in normal breast tissue. To better understand the dysregulation of the CGB/LHB gene cluster in breast cancer, we have developed real-time quantitative RT-PCR assays to analyze each subgroup of genes (the overall CGB genes, CGB1 and B2 together, and LHB alone) in 17 unilateral invasive primary breast tumor RNAs. We also analyzed the chorionic gonadotropin alpha (CGA) gene coding for the human CGA subunit. We found that the emergence of the 'trophoblastic' CGB genes in breast tumors is (i) accompanied by an increase in the total CGB mRNA steady-state level, (ii) mainly due to overexpression of genes CGB8, B5 and B3 (expression of other genes in the CGB/LHB gene cluster (CGB7, B2, B1 and LHB) changes little if at all), and (iii) not accompanied by overexpression of the CGA gene which is necessary to produce ectopic hCG heterodimeric hormone in breast tumor cells, these latter which yet expressed the LH/CG receptor. These observations suggest that it is mainly the CGB8, B5 and B3 genes which are upregulated in the 19q13.3 CGB gene cluster in breast tumors. They also point to a role (like growth factor) of the CGbeta subunit in breast tumorigenesis, via a novel pathway independent of the LH/CG receptor.

Identification of CGA as a novel estrogen receptor-responsive gene in breast cancer: an outstanding candidate marker to predict the response to endocrine therapy.

The estrogen receptor (ER) status of breast tumors is used to identify patients who may respond to endocrine agents such as tamoxifen. However, ER status alone is not perfectly predictive, and there is a pressing need for more reliable markers of endocrine responsiveness. Here, we identified the well-known CGA gene (coding for the alpha subunit of glycoprotein hormones) as a new ERalpha-responsive gene in human breast cancer cells. We used a real-time quantitative reverse transcription-PCR assay to quantify CGA mRNA copy numbers in a large series of breast tumors. CGA overexpression (> 10 SD above the mean for normal breast tissues) was observed in 44 of 131 (33.6%) breast tumor RNAs, ranging from 20 to 16,500 times the level in normal breast tissues; the highest levels of CGA gene expression were close to those observed in placenta. Significant links were observed between CGA gene overexpression and Scarff-Bloom-Richardson histopathological grade I+II (P = 0.015), and progesterone (P = 0.0009) and estrogen (P < 10(-7)) receptor positivity, which suggested that CGA is a marker of low tumor aggressiveness. We observed CGA mRNA overexpression in 44 of 90 (48.9%) ERalpha-positive tumors and in none of the 41 ERalpha-negative tumors. Immunohistochemical studies demonstrated that human chorionic gonadotropin alpha protein was strictly limited to ERalpha-positive tumor cells. Overexpression of the CGA gene was not accompanied by overexpression of the CGB gene. Our results also suggest that CGA could be a more reliable marker than PS2 and PR for ERalpha functionality and, thus, for endocrine responsiveness. Moreover, the CGA marker has the added value of dichotomizing ERalpha-positive patients into two subgroups of similar size. Specific antibodies directed to secreted human chorionic gonadotropin alpha protein are commercially available, thus facilitating the future application of this marker to the clinical management of breast cancer.

Quantification of estrogen receptor alpha and beta expression in sporadic breast cancer.

The recent cloning of a second estrogen receptor (ER), designated ERbeta, has prompted a reevaluation of the role of ERs in breast cancer. We have developed and validated a real-time RT-PCR assay to quantify ERalpha and ERbeta gene expression at the mRNA level in a series of 131 patients with unilateral invasive primary breast cancer. Although ERbeta expression showed wide variations in tumor tissues, its range (nearly three orders of magnitude) was smaller than that of ERalpha (nearly four orders of magnitude), suggesting that ERbeta is more tightly controlled than ERalpha. We observed a negative correlation between ERalpha and ERbeta expression. 'ERalpha-negative' tumors (containing very low ERalpha mRNA levels) were associated with SBR histopathological grade III, RB1 underexpression and ERBB2 overexpression, confirming that ERalpha negativity delineates poorly differentiated tumors. The amount of ERalpha mRNA (but not that of ERbeta mRNA) increased with age and was consequently higher in postmenopausal patients' tumors. Expression of ERalpha (but not that of ERbeta) also correlated strongly with progesterone receptor (PR) and PS2 expression, suggesting that ERalpha has stronger transcriptional activity than ERbeta towards genes containing an ERE (estrogen response element) in their promoters. Interestingly, we found a negative correlation between the expression of ERbeta (but not ERalpha) and CCND1, which contains an AP1 element but not an ERE in its promoter. Taken together, these data confirm that ERalpha and ERbeta play different roles in breast cancer, partly by mediating the transcription of various genes via different types of DNA enhancer. PR and PS2 seem to be mainly ERalpha-responsive genes, whereas CCND1 may be mainly ERbeta-responsive. Our findings also underline the need for a reliable method, providing full range of quantitative values, to determine ERalpha and ERbeta status in the clinical setting.

Human TIP49b/RUVBL2 gene: genomic structure, expression pattern, physical link to the human CGB/LHB gene cluster on chromosome 19q13.3.

Bacterial DNA helicase RuvB protein is an essential component in homologous recombination and DNA double-strand break repair. Here, we report the gene structure of TIP49b/RUVBL2, a second putative human homologue of the bacterial RuvB gene. This gene contains 15 exons and 14 introns. The TIP49b/RUVBL2 open reading frame encodes a protein of 463 amino acids, showing 43% identity with the RUVBL1 protein. The TIP49b/RUVBL2 gene is physically linked to the human CGB/LHB gene cluster on chromosome 19q13.3. Genomic sequence analysis revealed that the TIP49b/RUVBL2 gene is very close (55 nucleotides in length) to the LHB gene, in the opposite orientation. The very close co-location of the mouse homologues of the human TIP49b/RUVBL2 and LHB genes was also conserved on mouse chromosome 7. Co-ordinated transcriptional regulation between the TIP49b/RUVBL2 and LHB genes was not observed. TIP49b/RUVBL2, like RUVBL1, was expressed ubiquitously in all human tissues examined and more strongly in testis. As TIP49b/RUVBL2 is expected to be involved in recombination repair and is located in a chromosome region frequently amplified in breast cancer, we quantified TIP49b/RUVBL2 gene expression by using real-time quantitative RT-PCR in a series of breast tumour samples. None of the tumour samples showed an altered TIP49b/RUVBL2 transcription level relative to normal breast tissue.

Compound heterozygous mutations in the flavoprotein gene of the respiratory chain complex II in a patient with Leigh syndrome.

Succinate dehydrogenase (SDH) deficiency represents a minor cause of Leigh syndrome (LS). Noticeably, the first mutation in a nuclear-encoded respiratory chain component, a mutation in the 5p15 copy of the flavoprotein (Fp) subunit gene of the SDH, was reported 4 years ago in two siblings with LS and SDH deficiency. We now report a new patient with LS and SDH deficiency. Because two copies of the Fp gene are present in the human genome, we first determined the complete structure of these two copies. This allowed us to identify a 1 bp deletion creating a frameshift in the 3q29 copy, confirming that this second copy was a pseudogene. We also sequenced the promoter region of the 5p 15 gene and, in addition, screened for mutations in the patient. Sequencing of the Fp SDH cDNA in the patient only allowed us to identify a heterozygous C to T transition, changing an alanine to a valine in one allele. This transition was found to be heterozygous in the patient's father but was absent from 150 controls. Transfection of the corresponding mutant cDNA into human Fp-deficient cells failed to restore normal SDH activity, confirming the deleterious effect of this mutation. The second allele, inherited from the mother, carried an A to C substitution changing the methionine translation initiation codon to a leucine. This mutant transcript represented only 10% of total Fp transcript suggesting instability of this transcript. So far, profound deficiencies in complex II activity resulting from mutations in the Fp gene of the SDH present only as LS, a striking observation in view of the ubiquitous expression of this typical housekeeping gene in humans.

A mitochondrial cytochrome b mutation but no mutations of nuclearly encoded subunits in ubiquinol cytochrome c reductase (complex III) deficiency.

Ubiquinol cytochrome c reductase (complex III) deficiency represents a clinically heterogeneous group of mitochondrial respiratory chain disorders that can theoretically be subject to either a nuclear or a mitochondrial mode of inheritance. In an attempt to elucidate the molecular bases of the disease, we first determined the nucleotide sequence of three unknown subunits (9.5 kDa, 7.2 kDa, 6.4 kDa) by cyberscreening of human expressed sequence tag data bases and sequenced the 11 cDNA subunits encoding complex III in five patients with isolated complex III deficiency. No mutation in the nuclearly encoded complex III subunits was observed, but a mutation in the cd2 helix of the mitochondrial (mt) cytochrome b gene was found to alter the conformation of the bc1 complex in one patient with severe hypertrophic cardiomyopathy. The present study is highly relevant to genetic counseling as the absence of mtDNA mutations in all but one patient in our series strongly supports autosomal rather than maternal inheritance in the majority of patients with complex III deficiency.

Respiratory chain deficiency presenting as recurrent myoglobinuria in childhood.

Myoglobinuria is an abnormal urinary excretion of myoglobin due to an acute destruction of skeletal muscle fibres. Several metabolic diseases are known to account for myoglobinuria including defects of glycolysis and fatty acid oxidation. Here, we report on respiratory chain enzyme deficiency in three unrelated children with recurrent episodes of myoglobinuria and muscle weakness (complex I: one patient, complex IV: two patients). All three patients had generalized hyporeflexia during attacks, a feature which is not commonly reported in other causes of rhabdomyolysis. Studying respiratory chain enzyme activities in cultured skin fibroblasts might help diagnosing this condition, especially when acute rhabdomyolysis precludes skeletal muscle biopsy during and immediately after episodes of myoglobinuria.

The neurogenic weakness, ataxia and retinitis pigmentosa (NARP) syndrome mtDNA mutation (T8993G) triggers muscle ATPase deficiency and hypocitrullinaemia.

UNLABELLED: Based on the study of three unrelated families, we report what we believe to be the first in vivo evidence of muscle ATPase deficiency in individuals carrying the neurogenic weakness, ataxia and retinitis pigmentosa (NARP) syndrome mtDNA mutation (T8993G). Since plasma citrulline was consistently low in 4/5 patients, we suggest that the NARP mutation caused complex V deficiency in the small intestine as well, thus reducing the availability of mitochondrial ATP required for citrulline synthesis. CONCLUSION: We suggest giving consideration to hypocitrullinaemia as a hallmark of the neurogenic weakness, ataxia and retinitis pigmentosa syndrome mutation and more generally of impaired oxidative phosphorylation in the small intestine in vivo.