Aiysha Abid

ATOH7 mutations cause autosomal recessive persistent hyperplasia of the primary vitreous

The vertebrate basic helix-loop-helix (bHLH) transcription factor ATOH7 (Math5) is specifically expressed in the embryonic neural retina and is required for the genesis of retinal ganglion cells (RGCs) and optic nerves. In Atoh7 mutant mice, the absence of trophic factors secreted by RGCs prevents the development of the intrinsic retinal vasculature and the regression of fetal blood vessels, causing persistent hyperplasia of the primary vitreous (PHPV). We therefore screened patients with hereditary PHPV, as well as bilateral optic nerve aplasia (ONA) or hypoplasia (ONH), for mutations in ATOH7. We identified a homozygous ATOH7 mutation (N46H) in a large family with an autosomal recessive PHPV disease trait linked to 10q21, and a heterozygous variant (R65G, p.Arg65Gly) in one of five sporadic ONA patients. High-density single-nucleotide polymorphism analysis also revealed a CNTN4 duplication and an OTX2 deletion in the ONA cohort. Functional analysis of ATOH7 bHLH domain substitutions, by electrophoretic mobility shift and luciferase cotransfection assays, revealed that the N46H variant cannot bind DNA or activate transcription, consistent with structural modeling. The N46H variant also failed to rescue RGC development in mouse Atoh7-/- retinal explants. The R65G variant retains all of these activities, similar to wild-type human ATOH7. Our results strongly suggest that autosomal recessive persistent hyperplastic primary vitreous is caused by N46H and is etiologically related to nonsyndromic congenital retinal nonattachment. The R65G allele, however, cannot explain the ONA phenotype. Our study firmly establishes ATOH7 as a retinal disease gene and provides a functional basis to analyze new coding variants.

A spectrum of novel NPHS1 and NPHS2 gene mutations in pediatric nephrotic syndrome patients from Pakistan

BACKGROUND Mutations in the NPHS1 and NPHS2 genes are among the main causes of early-onset and familial steroid resistant nephrotic syndrome respectively. This study was carried out to assess the frequencies of mutations in these two genes in a cohort of Pakistani pediatric NS patients. METHODS Mutation analysis was carried out by direct sequencing of the NPHS1 and NPHS2 genes in 145 nephrotic syndrome (NS) patients. This cohort included 36 samples of congenital or infantile onset NS cases and 39 samples of familial cases obtained from 30 families. RESULTS A total of 7 homozygous (6 novel) mutations were found in the NPHS1 gene and 4 homozygous mutations in the NPHS2 gene. All mutations in the NPHS1 gene were found in the early onset cases. Of these, one patient has a family history of NS. Homozygous p.R229Q mutation in the NPHS2 gene was found in two children with childhood-onset NS. CONCLUSIONS Our results show a low prevalence of disease causing mutations in the NPHS1 (22% early onset, 5.5% overall) and NPHS2 (3.3% early onset and 3.4% overall) genes in the Pakistani NS children as compared to the European populations. In contrast to the high frequency of the NPHS2 gene mutations reported for familial SRNS in Europe, no mutation was found in the familial Pakistani cases. To our knowledge, this is the first comprehensive screening of the NPHS1 and NPHS2 gene mutations in sporadic and familial NS cases from South Asia.

Mutation screening of Pakistani families with congenital eye disorders

To map the disease loci several Pakistani families suffering from autosomal recessive retinitis pigmentosa with preserved para-arteriolar retinal pigment epithelium and Leber congenital amaurosis (LCA) were analyzed. Analysis revealed close genetic linkage between the disease phenotype of some of the families (3330RP, 111RP and 010LCA) and the microsatellite markers on chromosome 1q31. Mutation screening of the candidate gene CRB1 revealed a G to A transversion in exon 7 in arRP family 330RP and a T to C substitution in another arRP family, 111RP. In exon 9 of the CRB1 gene a T to C transversion was found in the family suffering from LCA (010LCA). The LCA phenotype of another family (011LCA) in which the CRB1 locus was excluded, showed linkage with microsatellite markers D17S1294 and D17S796 on chromosome 17p13.1. The association of the candidate gene GUCY2D (17p13.1) with the disease phenotype was excluded as no disease-associated mutation was found in any of its exons. Mutation screening of another candidate gene, AIPL1 located in the same region, showed a novel homozygous C to A substitution in exon 2. These sequence changes are unique for the Pakistani families and some of these have not been reported previously.

Refinement of the locus for autosomal recessive cone-rod dystrophy (CORD8) linked to chromosome 1q23-q24 in a Pakistani family and exclusion of candidate genes

AbstractCone-rod retinal dystrophy (CORD) characteristically leads to early impairment of vision due to the simultaneous involvement of both cone and rod photoreceptor cells. Several loci/genes have been identified for CORD, including the cone-rod dystrophy (CORD8) locus [OMIM#605549] identified for a Pakistani family. All members of this family underwent detailed clinical re-examination to determine the nature of the dystrophy. All affected individuals suffered from bilateral CORD8 with an autosomal recessive mode of inheritance. The CORD8 locus, mapped on chromosome 1q12-q24, consisted of a very large critical disease region of 21 cM. Analysis with more recently available microsatellite markers within the reported region showed heterozygosity with some of the new markers, and the crossovers lead to a refinement of the disease region from 21 to 11.53 cM. Mutation screening has excluded some of the candidate genes in the region. The disease phenotype of this family could be due to a mutation in a novel gene located within the refined CORD8 locus.

Mapping of a novel type III variant of Knobloch syndrome (KNO3) to chromosome 17q11.2

Knobloch syndrome (KNO) is an autosomal recessive disorder characterized by ocular abnormalities (myopia and retinal detachment) and occipital encephalocele. The syndrome is clinically and genetically heterogeneous (KNO1, KNO2). Previously germline mutations in COL18A1 (21q22.3) were detected in some families, but in other kindreds linkage to COL18A1 was excluded. We ascertained a large consanguineous family with high myopia, vitreoretinal degeneration and occipital scalp defect with autosomal recessive mode of inheritance. Due to the overlapping clinical presentation of this family with Knobloch syndrome we propose this phenotype as a type III variant of KS (KNO3). A genome wide linkage study using microsatellite markers at 10–20 cM interval revealed linkage to 17q11.2 with a maximum LOD scores 3.40 (θ = 0.00) for markers D17S1307 and D17S1166. Fine mapping defined a 2.67 cM disease region between D17S1307 and D17S798. Mutation analysis of three candidate genes (UNC119, MYO1D, and RAB11FIP4) within the disease region did not identify any disease‐associated mutation in affected individuals.

Locus heterogeneity and Knobloch syndrome

Locus Heterogeneity and Knobloch Syndrome Sarah Joyce, Louise Tee, Aiysha Abid, Shagufta Khaliq, S. Qasim Mehdi, and Eamonn R. Maher* Department of Medical and Molecular Genetics, School of Clinical and Experimental Medicine, Institute of Biomedical Research, University of Birmingham College of Medical and Dental Sciences, Birmingham, UK Centre for Human Genetics, Sindh Institute of Urology & Transplantation, Karachi, Pakistan Regional Genetics Service, Birmingham Women’s Hospital, Birmingham, UK

Unique molecular alteration patterns in von Hippel-Lindau (VHL) gene in a cohort of sporadic renal cell carcinoma patients from Pakistan.

BACKGROUND Renal cell carcinoma (RCC) is the most frequent form of kidney cancer in adults. Somatic mutations that inactivate the von Hippel-Lindau (VHL) gene are the most common cause of RCC. The frequencies of molecular changes in the VHL gene in RCCs vary among different populations. So far, a single chromosomal-based study has been reported from a South Asian population. This report presents, for the first time, the somatic changes and promoter hypermethylation in VHL in a cohort of 300 RCC patients from Pakistan. METHODS To identify mutations in the VHL gene, direct DNA sequencing was carried out. Epigenetic silencing was investigated by using methylation-specific polymerase chain reaction. RESULTS Our data showed molecular alterations in the VHL gene in 163 (54%) renal cell carcinoma patients. Somatic mutations were found in 87 (29%) patients and 35 novel mutations were identified. VHL promoter hyper-methylation analysis showed epigenetic changes in 106 (35%) out of 300 patients. Patients who had no evidence of molecular alterations in the VHL gene were significantly younger than patients who carried some molecular change. Molecular alterations in the VHL gene were not restricted to clear-cell RCCs (ccRCCs). CONCLUSIONS This is the first report that identifies molecular aberrations in the VHL gene from a South Asian population. The frequency of somatic mutation is lower and that of promoter hypermethylation is higher when compared with data from other parts of the world. The data has important implications in the population-specific application of tailored preventive and therapeutic regimens in non-familial RCCs.

Association of the ACE-II genotype with the risk of nephrotic syndrome in Pakistani children.

Nephrotic syndrome is a common pediatric glomerular disease associated with heavy proteinuria. Since, the angiotensin converting enzyme (ACE) gene insertion/deletion (I/D) polymorphism is a putative genetic risk factor for NS, in this study, ACE (I/D) polymorphism was analyzed in 268 NS and 223 control samples by a PCR-based method. The genotypic and allelic frequencies were determined and the association between ACE I/D polymorphism and NS was evaluated. The frequency distribution of the II, ID and DD genotypes was 82 (30.6%), 128 (47.8%) and 58 (21.6%) in the NS patients and 9 (4.0%), 171 (76.7%) and 43 (19.3%) in the control samples respectively. In the Pakistani pediatric NS population, the II genotypic and allelic frequencies were found to be significantly associated with the disease (OR=6.755; C.I=3-14.9). No significant association was found between this polymorphism and the response to standard steroid therapy. Thus, in contrast to reports from other parts of the world, the II genotype was found to be significantly associated with NS in the Indian and Malay populations and in the Pakistani population described here. To our knowledge, this is the first report from Pakistan describing the association of the ACE I/D polymorphism with pediatric NS. On the basis of these results, it is suggested that analysis of the ACE (I/D) polymorphism should be performed for the early diagnosis in the high risk NS patients in South Asia.

HLA class I and II polymorphisms in the Gujjar population from Pakistan

HLA polymorphisms at the HLA -A, -B, -C, -DRB and -DQB1 loci were investigated in the Gujjar population from the Punjab province of Pakistan. The Gujjars (n = 97) were genotyped using sequence specific primers for polymerase chain reaction. The allele and haplotype frequencies were calculated and a neighbor-joining (NJ) tree comparing the Gujjar with other populations was constructed. The class I allelic groups with a frequency greater than 10% include A*01, A*02, A*11, A*26 and A*31 at the HLA-A locus, B*08 and B*51 at the HLA-B locus and C*07 and C*14 at the HLA-C locus. Among the 12 allelic groups detected at the DRB1* locus, *03, *13, and *15 were present at frequencies higher than 10% whereas at the DQB1 locus, the allelic groups*06 and *02 accounted for over half of the Gujjar population. HLA-A*31-B*51-DRB1*13 was the most common (8.8%) haplotype in this population. A NJ tree revealed that the Pakistani Gujjar are closely related to the Golla tribe from Andhra Pradesh in India. The two populations are dedicated to the same profession, cattle breeding. HLA analyses of additional Punjab castes would provide valuable information for anthropological, organ transplantation and genetic disease studies.

The effect of chemokine receptor gene polymorphisms (CCR2V64I, CCR5-59029G>A and CCR5Δ32) on renal allograft survival in Pakistani transplant patients.

BACKGROUND Gene polymorphisms of the chemokine receptors CCR2 and CCR5 (CCR2V64I, CCR5-59029G>A and CCR5Δ32) have been shown to be associated with renal allograft rejection. The aim of this study was to investigate the association of these polymorphisms with allograft rejection among Pakistani transplant patients. METHOD A total of 606 renal transplant patients and an equal number of their donors were included in this study. DNA samples were used to amplify polymorphic regions of CCR2V64I, CCR5-59029G>A and CCR5Δ32 by polymerase chain reaction using sequence specific primers. The amplified products of CCRV64I and CCR5-59029G>A were digested with restriction enzymes (BsaB1 and Bsp12861) respectively. The CCR5Δ32 genotypes were determined by sizing the PCR amplicons. The association of these polymorphisms with the biopsy proven rejection and other clinical parameters was evaluated using the statistical software SPSS v.17. RESULTS In this study, the G/G genotype of CCR2V64I was associated with a high frequency of allograft rejection (p=0.009; OR=2.14; 95% CI=1.2-3.7). Rejection episode(s) in the GA+AA genotypes were found to be significantly lower as compared to the GG genotype (p=0.009; OR=0.4; 95% CI=0.2-0.8). The Kaplan-Meier curve also indicated a reduced overall allograft survival for patients with the G/G genotype of CCR2V64I (59.2 ± 1.4 weeks, log p=0.008). There was a significant association with rejection by female donors possessing the CCR2 GG genotype (p=0.02; OR=2.6; CI=1.1-6.3) and male donors with the CCR5-59029 GG genotype (p=0.004; OR=1.7; CI=1.03-3.01). CONCLUSION This study shows an association of the CCR2V64I (G/G) genotype with renal allograft rejection. However, no such association was found for the CCR5 gene polymorphisms. Therapeutic interventions such as blocking the CCR2 receptor (especially G polymorphism) may yield better survival of renal allograft in this patient group. Further, chemokine receptors may be added to the spectrum of the immunogenetic factors that are known to be associated with renal allograft rejection.