Molecular Basis of Proxysomal Disorders in Zellweger Syndrome

Peroxisomes are organelles present in all eukaryotic cells from yeast to human cells. It is now well known that approximately fifty different biochemical reactions occur within the peroxisome, including synthesis of bile acids, cholesterol, ether-phospholipids (plasmalogens), docosahexaenoic acid and catabolism of certain fatty acids, particularly very long chain fatty acids (VLCFAs). Proteins involved in peroxisomal function are known as peroxins. At least 29 peroxins are required for peroxisome membrane biogenesis, fission, and protein import. So far, mutations in 13 genes that encode peroxins are associated with human disease. Peroxisomal disorders currently falling into one of three groups peroxisome biogenesis disorders (PBDs), peroxisomal multi-enzyme disorders, and peroxisomal single-enzyme disorders. Infantile Refsum’s disease (IRD), neonatal adrenoleukodystrophy (NALD) and Zellweger’s syndrome (ZS) are different variants of a group of congenital diseases known as peroxisome biogenesis disorders. These disorders are characterized by the absence of normal peroxisomes in the cells of the body which mostly are fatal. Here we describe molecular events that cause these deficiencies and we introduce current molecular approaches for diagnosis of these disorders like mutation analysis and fibroblasts characterization derived from the patients

Yunis-Varón Syndrome: The First Report of Two Iranian Cases

The Yunis-Varón syndrome represents a rare autosomal recessive syndrome of easy recognition characterized by defective growth of the cranial bone along with complete or partial absence of the clavicles (cleidocranial dysplasia), absence of thumbs and halluces, distal aphalangia, ectodermal anomalies, growth retardation and poor outcome. The molecular genetic basis is unknown. Here, we report an 8 months old girl with Yunis-Varón syndrome, born to a consanguineously married, with normal parents. She had micrognathia, wide fontanels, prominent eyes, poor sucking, congenital heart diseases, asymmetric face, ambiguous genitalia, reduction anomaly in right hand including thumb, and hypoplastic distal phalanges of 3th fingers, and hypo plastic clavicles. She has glaucoma and lenses opacity. There is another similar case in her family. Karyotype is normal. She is the first Iranian known case of Yunis-Varón syndrome

Prenatal diagnosis in a mentally retarded woman with mosaic ring chromosome 18

We present a pregnant woman with mental retardation and mosaic for ring 18 referred for prenatal diagnosis. Major clinical features included short stature with clinodactyly in feet, foot deformity and club feet, hypotonia, kyphosis, and absence of breast development, low set ears, high arched palate, dental decay and speech disorder. Prenatal diagnosis was carried. Using amniocentesis. The fetus had a normal karyotype described as 46,XX. The fetus was evaluated for clinical features after delivery; she was healthy with no abnormal clinical characterizations

Fraccaro Syndrome: Report of Two Iranian Cases: An Infant and an Adult in A Family

49,XXXXY is rare chromosomal pattern and these patients have mental retardation, small penis, cryptorchidism and skeletal anomalies. We reported a 10 month-old boy who has hypotonia, microcephaly, hypertelorism, depressed nasal bridge, epicanthic folds and bilateral multiple ear tags, high arched palate, down set ears, micrognathia and congenital heart disease such as patent ductus arteriosus (PDA), Atrial septal defect (ASD), mild pulmonary stenosis. Among the skeletal anomalies, he has kyphoscoliosis, clinodactyly of the fourth and fifth fingers of both hands, and bilateral club foot and unilateral dysplasia of the hip. Karyotype was found as 49,XXXXY[44]/48,XXXY[6] and this cytogenetic analysis was help to establish clinical diagnosis Fraccaro syndrome

Evaluation of Methylation Status in the 5'UTR Promoter Region of the DBC2 Gene as a Biomarker in Sporadic Breast Cancer

Objective: Breast cancer is one of the most common malignancies in women worldwide. It is caused by a number of genetic and epigenetic factors. Aberrant hypermethylation of the promoter regions in specific genes is a key event in the formation and progression of breast cancers as well as the DBC2 gene, as a tumor suppressor gene. Different studies show that the DBC2 gene is inactivated through epigenetic mechanisms such as methylationin its promoter region. In this study, authors have tried to analyze methylation status in the promoter region of DBC2 gene in affected women and healthy controls.Materials and Methods: In this experimental study, we evaluated the methylation status of DBC2 gene with nested methylation-specific PCR (MSPCR) using specific methylated and unmethylated primer sets, in three separate PCR reactions. We used 50 tissue and blood samples of patients with breast cancer, 5 normal tissues and also 30 normal blood samples. Results were evaluated by the Mann-Whitney test, SPSS 16.0 statistical software.Results: Nested MSPCR results demonstrated that the frequency of the DBC2 promoter region methylation status in tumor and blood samples of the affected patients was significantlyhigher than that of the corresponding normal controls.Conclusion: DBC2 gene inactivation by methylation of CpG islands in the promoter regionprobably is a crucial step in the process of cell proliferation and susceptibility to differentcancers, including breast cancer. Our study provides new evidence that aberrant methylation of the DBC2 gene is involved in the tumorigenesis of breast cancer. DNA methylation in this gene is proven to be a potential marker for tumor diagnosis and prognosis,as well as a novel therapeutic target

Brachyphalangy, polydactyly and tibial aplasia/hypoplasia syndrome (OMIM 609945): case report and review of the literature.

Brachyphalangy, polydactyly and tibial aplasia/hypoplasia syndrome (OMIM 609945) is a rare congenital disorder. Only seven patients have been reported to date, and the etiology of this syndrome is unknown. Autosomal dominant inheritance with variable expression has been suggested based on the presence of minor features in some parents and the fact that neither parental consanguinity nor pairs of affected siblings were observed. We report on the first patient with this syndrome who was born to consanguineous parents. Neither the mother nor the father, who were first cousins, had clinical features suggestive of a manifestation of brachyphalangy, polydactyly and tibial aplasia/hypoplasia syndrome. The patient had no siblings, and the family history was unremarkable. Clinical problems included brachydactyly of hands and feet, splaying of fingers and toes, preaxial polydactyly of feet, bilateral tibial aplasia, shortened radius and ulna, and characteristic facial dysmorphic signs. The detailed description of this patient adds to our knowledge of the clinical manifestations of brachyphalangy, polydactyly and tibial aplasia/hypoplasia syndrome and will eventually also contribute to the elucidation of the underlying gene defects

A Missense Mutation of G257A at Exon 3 in PEX7 CDS Was Responsible for the Incidence of Rhizomelic Chondrodysplasia Punctata Type 1

Background Rhizomelic chondrodysplasia punctata (RCDP) type 1 is among of the rare autosomal recessive peroxisome biogenesis disorders caused by mutations in the PEX7 gene. RCDP patients with the classic form of RCDP1 do not live more than 10- year. Materials and Methods In the present study, a two-year-old girl with skeletal abnormalities and dysmorphic facial appearance is reported to be suffered from RCDP. The patient's parents were second cousins and healthy and there was no similar case in the parents’ family. PEX7 gene was sequenced in the patient and her parents. Results A homozygous mutation, G257A, was identified PEX7 in the genome of patient while the parents were compound heterozygous. Conclusion Taken together, clinical presentation and peroxisome profile of the patient suggested a missense mutation led to formation of a pathogenic PEX7, responsible for incidence of RCDP

Compound heterozygous p. Arg949Trp and p. Gly970Ala mutations deteriorated the function of PEX1p: a study on PEX1 in a patient with Zellweger syndrome

The peroxisome is responsible for a variety of vital pathways in primary metabolism, including the very long-chain fatty-acid oxidation and plasmalogen lipid biosynthesis. Autosomal recessive disorder of the Zellweger spectrum (ZSD) is a major subset of peroxisome biogenesis disorders (PBDs) that can be caused by mutations in any of the 14 PEX genes. Zellweger syndrome (ZS) is the foremost common and severe phenotype within the heterogeneous ZSD. However, missense mutations encode proteins with residual functions, which are associated with phenotypes that are milder than ZS. Mutations in the PEX1 gene are among the most prevalent. PEX1 and PEX6 proteins, belonging to the AAA family of ATPases, form a hexameric complex, which is associated with peroxisome membranes and essential for peroxisome biology. In this study, a two-month-old Iranian boy with hypotonia, poor feeding, and difficulty in breathing was diagnosed with Zellweger syndrome. The parents of the patient were second cousins and healthy and no similar cases were observed in the parents' family. The PEX1 gene was sequenced in the patient and his parents. The compound heterozygous mutations, p. Arg949Trp and p. Gly970Ala, were identified in the patient, while the parents were heterozygous for these alleles. Sequence analysis of the mutant PEX1 D2 domain revealed that mutation p. Arg949Trp precisely occurred in a conserved arginine residue (P4 Arg), which hinders the substrate processing of the complex. Several database records have reported mutation p. Arg949Trp(R949W) but its clinical significance is given as uncertain. We report here a novel mutation, p. Gly970Ala, which is not recorded before and may prevent proper interaction of PEX1 and PEX6 proteins. In summary, the clinical findings and peroxisome profile of the patient suggested that compound heterozygosity for these two missense mutations resulted in a nonfunctional PEX1/PEX6 complex causing the severe ZS phenotype

Prenatal diagnosis in a mentally retarded woman with mosaic ring chromosome 18

We present a pregnant woman with mental retardation and mosaic for ring 18 referred for prenatal diagnosis. Major clinical features included short stature with clinodactyly in feet, foot deformity and club feet, hypotonia, kyphosis, and absence of breast development, low set ears, high arched palate, dental decay and speech disorder. Prenatal diagnosis was carried. Using amniocentesis. The fetus had a normal karyotype described as 46,XX. The fetus was evaluated for clinical features after delivery; she was healthy with no abnormal clinical characterizations