New Genetic Variants of RUNX2 in Mexican Families Cause Cleidocranial Dysplasia.

Cleidocranial dysplasia (CCD) is an autosomal dominant skeletal dysplasia characterized by persistent open skull sutures with bulging calvaria, hypoplasia, or aplasia of clavicles permitting abnormal opposition of the shoulders; wide public symphysis; short middle phalanx of the fifth fingers; and vertebral, craniofacial, and dental anomalies. It is a rare disease, with a prevalence of 1-9/1,000,000, high penetrance, and variable expression. The gene responsible for CCD is the Runt-related transcription factor 2 (RUNX2) gene. We characterize the clinical, genetic, and bioinformatic results of four CCD cases: two cases within Mexican families with six affected members, nine asymptomatic individuals, and two sporadic cases with CCD, with one hundred healthy controls. Genomic DNA analyses of the RUNX2 gene were performed for Sanger sequencing. Bioinformatics tools were used to predict the function, stability, and structural changes of the mutated RUNX2 proteins. Three novel heterozygous mutations (c.651_652delTA; c.538_539delinsCA; c.662T>A) and a previously reported mutation (c.674G>A) were detected. In silico analysis showed that all mutations had functional, stability-related, and structural alterations in the RUNX2 protein. Our results show novel mutations that enrich the pool of RUNX2 gene mutations with CCD. Moreover, the proband 1 presented clinical data not previously reported that could represent an expanded phenotype of severe expression.

Recurrent Mutation (p.Arg718Pro) in the COMP Gene with Clinical Heterogeneity of Pseudoachondroplasia.

Introduction: Pseudoachondroplasia (PSACH) and multiple epiphyseal dysplasia (MED) are allelic and caused by mutations in the COMP gene. Other mutations in the genes MMP13, AIFM1, B3GALT6, MATN3, COL9A1, COL9A2, COL9A3, and SLC26A2 have also been associated with evidence of dysplasia in the epiphysis, metaphysis, and spine. Case Presentation: We report on the first Mexican patient diagnosed with PSACH. The diagnosis was confirmed by identifying a recurrent heterozygous mutation c.2153G>C (p.Arg718Pro) in the COMP gene using whole-exome sequencing. Discussion: The anterior spindle-shaped vertebral bodies and severe short stature are not observed in patients carrying p.Arg718Pro, identifying another amino acid site associated with clinical heterogeneity. Reporting new cases with clinical heterogeneity in terms of phenotype plays a crucial role in understanding PSACH and MED pathogenesis. The most important aspect of this presentation is providing a new perspective on a recognized clinical scenario, thus setting the standard for better genetic counseling.

Partial Trisomy 13q/Monosomy 3p Resulting from a Paternal Reciprocal 3p;13q Translocation in a Boy with Facial Dysmorphism and Hypertrophic Cardiomyopathy.

Individuals with 3p deletion show a great clinical variability. Apparently, a 1.5-Mb terminal deletion, including the CRBN and CNTN4 genes, is sufficient to cause this syndrome. Partial trisomy 13q is a rare chromosomal abnormality with a variable phenotypic expression, but in most cases, patients have a phenotype resembling complete trisomy 13. The aim of the present study is to describe a 9-month-old Mexican male patient with 3p deletion/13q duplication and a novel clinical finding. He presented with facial dysmorphism and multiple congenital alterations. Echocardiogram revealed cardiac insufficiency with hypertrophic cardiomyopathy and pulmonary hypertension, not previously reported. Karyotype from the patient and his father were 46,XY,add(3)(p26) and 46,XY,t(3;13), respectively. Microarray assay of the proband exhibited an approximately 2.6-Mb loss at terminal 3p26.3 and a 27.7-Mb gain of the long arm in terminal chromosome 13 at q31.1q34. A chromosomal imbalance with a partial trisomy 13q31.1q34 and monosomy 3p26.3 of paternal origin were detected. Microarray assay of both parents were normal. The proband has a cardiomyopathy not previously reported. These data enrich the spectrum of clinical manifestations in 3p deletion/3q duplication chromosomopathy.

Psychiatric symptoms in an adolescent reveal a novel compound heterozygous mutation of the PANK2 gene in the atypical PKAN syndrome.

The proband in this study was a 16-year-old Mexican girl with psychotic and dyskinetic symptoms, and brain MRI showed at the basal ganglia the 'eye-of-the-tiger' sign. DNA direct sequencing identified a novel compound heterozygous mutation in the PANK2 gene. The diagnosis of pantothenate kinase-associated neurodegeneration (PKAN) disorder was made. This novel change increases the pool of PANK2 mutations. It supports the published data suggesting that PANK2 plays a significant role in patients expressing psychiatric phenotypes in the PKAN syndrome. When a patient presents with dyskinesia and psychiatric symptoms, PANK2 should be investigated as a possible diagnosis, and genetic consultation should be recommended.

Severe Phenotype of Keratitis-Ichthyosis-Deafness Syndrome With Presumed Ocular Surface Squamous Neoplasia.

PURPOSE: The aim of this study was to describe a case of severe keratitis-ichthyosis-deafness (KID) syndrome with ocular surface squamous neoplasia. METHODS: The affected patient underwent complete ocular and systemic examinations. The molecular studies included polymerase chain reaction amplification and automated DNA sequencing of the complete gap junction beta-2 (GJB2) gene coding sequence. RESULTS: A 30-year-old man presented with generalized erythro-hyperkeratosis and deafness and complaints of decreased visual acuity, tearing, and photophobia. Ophthalmic examination showed corneal erosion, vascularization, and a gray gelatinous lesion partially covering the right cornea, suggestive of squamous neoplasia. The clinical features were characteristic of KID syndrome. This diagnosis was confirmed with a DNA analysis showing the pathogenic variant p.D50N in the GJB2 gene. Presumed squamous neoplasia was treated with topical interferon α2b. CONCLUSIONS: KID syndrome is a very rare disease that has been reported with an incremental incidence of squamous cell carcinoma of the mucous membranes and skin (12%-15%). Here, we presented a case of severe systemic KID syndrome with ocular surface squamous neoplasia.

Two novel compound heterozygous families with a trimutation in the GJB2 gene causing sensorineural hearing loss.

BACKGROUND: Sensorineural hearing loss (SNHL) is a genetically heterogeneous disease. GJB2 gene mutations seem to be the most frequent cause of hereditary hearing impairment in several populations. There is variability in the mutations in the GJB2 gene worldwide; this remarks the influence of ethnic background in SNHL. OBJECTIVE: To describe the presence of two trimutations in the GJB2 gene in two Mexican families with hereditary SNHL. MATERIALS AND METHODS: Two unrelated Mexican families with prelingual SNHL were included in the study. Analysis of the GJB2 gene through PCR and DNA direct sequencing analysis was performed in all members of the families and in 100 normal controls. RESULTS: Affected member of the family 1 showed the trimutation p.S19R/p.R32S/p.E47*, whereas affected members of the family 2 showed the trimutation p.F31I/p.W44*/p.V84M. Parents of both families were heterozygous with normal audition. CONCLUSION: We found a novel mutation in the GJB2 gene and two trimutations with SNHL not previously reported. This remarks the complexity in the pattern of mutations in the GJB2 gene in SNHL and enriches the spectrum of the type of molecular defects in the GJB2 gene.

Novel mutation and white matter involvement in an Indian child with pycnodysostosis.

Pycnodysostosis (OMIM # 265800) is an inherited lysosomal disorder due to affection of cathepsin K gene, localised to 1q21. Pycnodysostosis can present with both skeletal and extraskeletal features. The index patient presented with cardinal features of short stature, dental and digital anomalies with history of multiple fractures. He, in addition had an unreported finding of white matter hyperintensity suggesting dysmyelination on neuroimaging. Molecular analysis revealed a homozygous insertion of single nucleotide in exon 5 of the CTSK gene that produces the substitution of phenylalanine instead of leucine at position 160 of protein and a premature termination of protein synthesis due to insertion of a stop codon. This mutation (c.480_481insT), (p.L160fsX173) is a novel frameshift mutation. The index case extends the phenotypic spectrum and the list of previously reported mutations in the CTSK gene.

Particular distribution of the GJB2/GJB6 gene mutations in Mexican population with hearing impairment.

BACKGROUND: Hereditary sensorineural hearing loss (SNHL) is a genetically heterogeneous disorder worldwide. Mutations in the GJB2 gene are a frequent cause of hereditary SNHL. There is a prevalence of certain mutations in various populations which suggests that specific mutations may be influenced by ethnic background. OBJECTIVE: To analyze the prevalence of GJB2, GJB6 mutations in several geographic areas of Mexico in patients with hereditary SNHL. MATERIALS AND METHODS: One hundred and forty Mexican unrelated propositi with prelingual SNHL were included in the study. All patients had three previous generations born in Mexico and belonged to no specific ethnic group. Analyses of the GJB2 and GJB6 genes and mt.1555AG mutation was not detected. CONCLUSION: We found a great variety of mutations depending on the analyzed region in patients with SNHL; 57.86% of patients had affection in one or two alleles in GJB2 or GJB6 genes whereas 42.14% were wild-type. In some cases, allele distribution depended on region. Molecular studies of more genes involved in hereditary non-syndromic SNHL are required to completely confirm the molecular basis of hearing loss in Mexican population.

ADRB1 and ADBR2 gene polymorphisms and the ocular hypotensive response to topical betaxolol in healthy Mexican subjects.

BACKGROUND: The ß adrenergic receptors (ADRB) are expressed in the ciliary body and trabecular meshwork, structures involved in aqueous humor production and outflow, respectively. ADRB are members of the adrenergic family of G-protein-coupled receptors. Topic ß blockers have a good local and systemic tolerance; they reduce the aqueous humor production and eye strain blocking the ADRB of the ciliary body and interfering with adenylate cyclase. However, the ocular hypotensive response is not the same in all patients and could be mediated by the polymorphisms of the ADRB genes. MATERIALS AND METHODS: Seventy-two healthy subjects were studied after treatment with topical betaxolol in both eyes. We analyzed ADRB1 and ADRB2 gene polymorphisms by PCR and automated DNA sequencing. RESULTS: There was statistically significant difference between baseline intraocular pressure (IOP) and final IOP of both eyes (baseline IOP 16.2 ± 1.2 - follow-up IOP 13.6 ± 2.0 (mean difference-2.5 ± 1.3, p < 0.001). Gly389 had a higher baseline IOP than Arg389 (17.0 ± 1.2 mmHg versus 16.0 ± 1.2 mmHg; p = 0.02), and conversely Arg389 had a greater magnitude of response than Gly389 to betaxolol therapy (-2.9 ± 1.1 mmHg versus -0.7 ± 0.4 mmHg; p < 0.001). Gln27 had a higher response than Glu27 (-2.7 ± 1.3 mmHg versus -1.9 ± 1.0; p = 0.02). CONCLUSION: Arg389 polymorphism of the ADRB1 gene and Gln27 polymorphism of the ADRB2 gene were associated with the hypotensive response to topic betaxolol in healthy Mexican volunteers.

Discordant retinoblastoma in monozygotic twins due to deletion of 13q14.

PURPOSE: To report discordant retinoblastoma in monozygotic twins, confirmed by GeneScan. METHODS: One twin presented unilateral retinoblastoma that was treated with enucleation; the other twin had no retinoblastoma. To confirm monozygosity, DNA from leukocytes was analyzed through GeneScan with highly polymorphic markers; to exclude 13q14 deletion, FISH analysis was performed in leukocytes and oral cells of both twins and their parents and in retinal tissue of the affected twin with the cDNA LSI RB1 probe. RESULTS: GeneScan analysis confirmed monozygosity. 13q14 deletion was observed in homozygous state in retinal tissue and in heterozygous state in oral cells and leukocytes of the affected twin. The nonaffected twin and parents showed no deletion of 13q14. CONCLUSIONS: These data show unexpected differences in monozygotic twins that could be explained by postzygotic events in embryonic development.

Analysis of the KRT9 gene in a Mexican family with epidermolytic palmoplantar keratoderma.

Epidermolytic palmoplantar keratoderma (EPPK), an autosomal-dominant genodermatosis, is the most frequently occurring hereditary palmoplantar keratoderma. EPPK is characterized by hyperkeratosis of the palms and soles. Approximately 90% of patients present with mutations in the KRT9 gene, which encodes for keratin 9. Many of these mutations are located within the highly conserved coil 1A region of the alpha-helical rod domain of keratin 9, an important domain for keratin heterodimerization. The objective was to assess the clinical and molecular characteristics of a Mexican family with EPPK. The clinical characteristics of members of this family were analyzed. The KRT9 gene of affected members was polymerase chain reaction amplified from genomic DNA and sequenced. All affected members of the family had hyperkeratosis of the palms and soles with knuckle pads. The R163W mutation in the KRT9 gene was present in all affected individuals who were tested. Although R163W is the most frequent KRT9 mutation in patients with EPPK, only two families have been reported with knuckle pads associated with this mutation. Our findings indicate that knuckle pads can be associated with EPPK and the R163W mutation in a family with a genetic background different from that described here.

Complete monosomy mosaic of chromosome 21: case report and review of literature.

Complete monosomy mosaic of chromosome 21 is a rare disorder. The syndromic features are highly variable. This study describes a girl of Mexican origin with complete monosomy 21 in mosaicism with novel findings, including cortical atrophy, macrostomia, pectum excavatum and immune deficiencies. Parental karyotypes were normal. FISH analysis with probes from 21q22.1-q22.2 region and centromere of X DNA probe was performed on peripheral blood lymphocytes whereas 21q22.1-q22.2 and 21q, 4p, 4q subtelomeric DNA probes were tested in fibroblasts. We propose that the monosomy 21 mosaicism is the cause of the survival of children with more than 4 months of age.

Identification of two novel mutations in TRPS1 gene in families with tricho-rhino-phalangeal type I syndrome.

BACKGROUND: Autosomal dominant tricho-rhino-phalangeal syndrome I (TRPS I) is due to mutations in the TRPS1 gene. Tricho-rhino-phalangeal syndrome I is characterized by peculiar face and skeletal anomalies. Cone-shaped epiphyses are the characteristic radiographic findings. OBJECTIVE: To describe 2 families with TRPS I and 2 novel mutations in the TRPS1 gene. PATIENTS: The study included 2 nonrelated families with TRPS I. All exons of the TRPS1 gene were analyzed from genomic DNA. RESULTS: The TRPS1 gene mutation analysis showed in family 1 the c.978C>A nonsense mutation within exon 4 and in family 2 the c.164A>C missense mutation within exon 3. CONCLUSIONS: We found 2 families with TRPS1 caused by 2 novel mutations in the TRPS gene, particularly a missense mutation in exon 3, outside the GATA zinc finger domain, that leads a mild TRPS phenotype. Our data show a higher genotypic spectrum in the TRPS I and demonstrate that mutations in the amino terminus of the transcription factor result in TRPS I syndrome.

Familial pycnodysostosis: identification of a novel mutation in the CTSK gene (cathepsin K).

BACKGROUND: Pycnodysostosis, an autosomal recessive skeletal dysplasia, is characterized by short stature, osteosclerosis, delayed cranial suture closure, hypoplastic mandible, acro-osteolysis, hypoplastic clavicle, and dental anomalies. The disorder is caused by CTSK gene defects, a gene localized on 1q21. PURPOSE: To describe the clinical, radiological, and molecular findings in a family with pycnodysostosis. METHODS: The CTSK gene was analyzed from genomic DNA in a nonconsanguinity Mexican family with 3 affected members with pycnodysostosis and 100 healthy controls. RESULTS AND INTERPRETATION: We identified the novel homozygous mutation c.908G>A within exon 8 of the CTSK gene. This missense mutation leads to the substitution of the amino acid glycine at position 303 by glutamic acid (G303E) in cathepsin K protease. No genotype/phenotype correlation was present in affected members of the family with pycnodysostosis.

Noonan syndrome: prenatal diagnosis in a woman carrying a PTPN11 gene mutation.

OBJECTIVE: To describe the case of a pregnant woman and her fetus with Noonan syndrome (NS) whom were diagnosed through ultrasonography 3D and molecular analysis of the PTPN11 gene. STUDY DESIGN: Case report. RESULTS: We detected in a pregnant woman and her child the G

Two affected siblings with nuclear cataract associated with a novel missense mutation in the CRYGD gene.

PURPOSE: To identify the disease locus for nuclear congenital cataract in a nonconsanguineous family with two affected members. METHODS: One family with two affected members with congenital cataract and 170 normal controls were examined. DNA from leukocytes and bucal swabs was isolated to analyze the CRYGA-D cluster genes and microsatellite markers D2S325, D2S2382, and D2S126, and to discard paternity through gene scan with several highly polymorphic markers. RESULTS: DNA sequencing analysis of the CRYGA-D cluster genes of the two affected members showed a novel heterozygous missense mutation c.320A > C within exon 3 of the CRYGD gene. This transversion mutation resulted in the substitution of glutamic acid 107 by an alanine (E107A). Analysis of the two unaffected members of the family and the normal parents showed a normal sequence of the CRYGA-D cluster genes. This mutation was not found in a group of 170 unrelated controls. We consider that it is unlikely that this abnormal allele represents a rare polymorphism. DNA analysis showed no evidence for non-paternity while genotyping indicated that the haplotype of the mother co-segregated with the disease. CONCLUSIONS: In this study we describe the mutation c.320A > C (E107A) in the CRYGD gene associated with nuclear congenital cataract. Haplotype analysis strongly suggests that the origin of the mutation was transmitted through the mother.

Somatic and germinal mosaicism for the steroid sulfatase gene deletion in a steroid sulfatase deficiency carrier.

Steroid sulfatase deficiency results in X-linked ichthyosis, an inborn error of metabolism in which the principal molecular defect is the complete deletion of the steroid sulfatase gene and flanking markers. Mosaicism for the steroid sulfatase gene has not yet been reported in X-linked ichthyosis. In this study we describe an X-linked ichthyosis patient with complete deletion of the steroid sulfatase gene and his mother with somatic and germinal mosaicism for this molecular defect. The family (X-linked ichthyosis patient, grandmother, mother, and sister) was analyzed through steroid sulfatase enzyme assay, polymerase chain reaction, DNA markers, and fluorescence in situ hybridization of the steroid sulfatase gene. Steroid sulfatase activity was undetectable in the X-linked ichthyosis patient, very low in the mother, and normal in the grandmother and sister. The X-linked ichthyosis patient showed a 2 Mb deletion of the steroid sulfatase gene and flanking regions from 5'DXS1139 to 3'DXF22S1. The mother showed one copy of the steroid sulfatase gene in 98.5% of oral cells and in 80% of leukocytes. The grandmother and sister showed two copies of the steroid sulfatase gene. The origin of the X chromosome with the deletion of the steroid sulfatase gene corresponded to the grandfather of the proband. We report the first case of somatic and germinal mosaicism of the steroid sulfatase gene in an X-linked ichthyosis carrier and propose DNA slippage as the most plausible mechanism in the genesis of this mosaicism.