Aneek Das Bhowmik

MAOA promoter polymorphism and attention deficit hyperactivity disorder (ADHD) in indian children

Attention deficit hyperactivity disorder (ADHD) is a highly disabling, early onset childhood neurobehavioral disorder with a higher occurrence in boys as compared to girls. Pharmacological and molecular genetic studies have revealed the influence of dopaminergic and serotonergic systems in the etiology of the disorder. Monoamine oxidase A (MAOA) is a mitochondrial enzyme that regulates the dopaminergic signals in the pre‐synaptic region. Polymorphism in the promoter region of the MAOA gene, which comprises of 30 bp repeats with repeat number varying between 2.5, 3.5, 4.5, and 5.5, has been shown to be associated with various neurobehavioral disorders including ADHD. This is the first study on Indian ADHD cases to validate an association between transmission of MAOA promoter polymorphism and risk of ADHD. We have analyzed the MAOA promoter polymorphism in a group of ADHD probands, their parents and ethnically matched controls by UNPHASED. Our findings indicate significant difference in the frequency of 3.5 repeat allele (P = 0.02) between cases and controls and preferential transmission of the short allele (3.5 repeat) from mothers to male ADHD probands (P = 0.005). We conclude that the short 3.5 repeat allele of the MAOA‐u VNTR is probably associated with ADHD in our population and could be the reason for making boys prone to ADHD as compared to girls.

Association of XRCC1, XRCC3, and NAT2 polymorphisms with the risk of oral submucous fibrosis among eastern Indian population

BACKGROUND Arecanut and smokeless tobacco usage is a major cause for oral submucous fibrosis (OSF) and its subsequent development to oral squamous cell carcinoma in South-east Asian population. Polymorphisms at N-acetyltransferase 2 locus, coding for an enzyme catalyzing acetylation of aromatic amines, might cause DNA adduct formation because of improper acetylation of these polyaromatic hydrocarbons. DNA repair enzymes remove these adduct to prevent malignancy. METHODS In this hospital-based study, 100 controls and 88 OSF patients were genotyped at four polymorphic sites on NAT2 481 (C > T; silent), 590 (G > A; Arg197 > Gln), 803 (A > G; Lys268 > Arg), 857 (G > A; Gly286 > Glu) and two on XRCC1 18067 (C > T Arg 194 > Trp), 28152 (G > A Arg 399 > Gln), and one of XRCC3 26304 (C > T Thr 241 > Met) loci by PCR-RFLP to determine the risk of the disease. RESULTS Heterozygous XRCC3 codon 241 [OR 2.07 (1.05-4.06)], homozygous variant of NAT C481T [OR 2.81 (1.09-7.21)], and both heterozygous and homozygous variants of NAT codon 268 and 286 [OR 2.31 (1.20-4.45) and 4.98 (1.87-13.14), and 6.12 (2.75-13.62) and 2.65 (1.04-6.72)] individually influenced susceptibility to OSF in the population. CONCLUSION Gene-gene interaction analysis by multifactor dimensionality reduction (MDR) revealed that XRCC3 Thr 241 Met had the largest univariate effect followed by XRCC3 Thr 241 Met - NAT2 A857G in men that presents a highly synergistic interaction as one of the potential combinations of single nucleotide polymorphisms (SNPs) to increase the risk of OSF in men if exposed to arecanut or smokeless tobacco usage. These observations can speculate the impact of the studied SNPs on the etiology of OSF.

Significance of Dopaminergic Gene Variants in the Male Biasness of ADHD

Objective: ADHD is frequently detected in boys though there is no established cause. One possibility is that genes predisposing to ADHD have sexually dimorphic effects. With an aim to find out the reason for this male biasness, contribution of 14 functional polymorphisms was investigated in ADHD subjects. Method: Genomic DNA of probands, their parents, and ethnically matched controls was subjected to analysis of single-nucleotide polymorphisms and variable number of tandem repeats (VNTRs). Results: Case–control analysis revealed significant higher occurrence of DAT1 intron 8 VNTR “5R” allele (p = .028), DBH rs1108580 “A” allele (p = .027), and MAOA-u VNTR-rs6323 3R-T haplotype (p = .007) in male probands. Family-based analysis showed significant preferential transmission of Dopamine receptor D4 exon 3 VNTR-rs1800955 7R-T haplotype from parents to male probands (p = .008). Interaction between DBH gene variants and low enzymatic activity was also noticed, especially in male probands. Conclusion: Data obtained may partly answer the male biasness of ADHD.

A splice site mutation in HERC1 leads to syndromic intellectual disability with macrocephaly and facial dysmorphism: Further delineation of the phenotypic spectrum.

We report on a sib pair of Indian origin presenting with intellectual disability, dysmorphism, and macrocephaly. Exome sequencing revealed a homozygous splice site HERC1 mutation in both probands. Functional analysis revealed use of an alternate splice site resulting in formation of a downstream stop codon and nonsense mediated decay. In the light of recent reports of HERC1 mutations in two families with a similar phenotypic presentation, this report reiterates the pathogenic nature and clinical consequences of HERC1 disruption.

Whole exome sequencing identifies a novel frameshift mutation in GPC3 gene in a patient with overgrowth syndrome

Overgrowth syndromes are a heterogeneous group of diseases characterized by focal or generalized overgrowth. Many of the syndromes have overlapping clinical features and it is difficult to diagnose the condition based on clinical features alone. In the present study we report on a patient with overgrowth syndrome where extensive investigation did not reveal the cause of disease. Finally exome sequencing revealed a novel hemizygous single base pair deletion in exon 8 of GPC3 gene (chrX:132670203delA) resulting in a frameshift and creating a new stop codon at 62 amino acids downstream to codon 564 (c.1692delT; p.Leu565SerfsTer63) of the protein. The mutation was confirmed by Sanger sequencing. The mother was found to be heterozygous for the mutation. This variation is not reported in the 1000 Genomes, Exome Variant Server (EVS), Exome Aggregation Consortium (ExAC) and dbSNP databases and the region is conserved across primates. Exome sequencing was helpful in establishing diagnosis of Simpson-Golabi-Behmel syndrome type 1 (SGBS1) in a patient with unknown overgrowth syndrome.

Screening for methylenetetrahydrofolate reductase C677T and A1298C polymorphisms in Indian patients with idiopathic mental retardation.

Abstract Although genetic, nutritional, and environmental factors have been found to aggravate mental retardation in ∼1% of individuals, no cause is known till date. In this study, two genetic polymorphisms in methylenetetrahydrofolate reductase (MTHFR), C677T (rs#1801133) and A1298C (rs#1801131), have been investigated in idiopathic mental retardation (IMR) subjects. Significantly higher frequency of the C677 allele was observed in IMR (n = 155; χ2 = 5.5; P = 0.019) and moderate IMR (n = 67; χ2 = 6.16; P = 0.013) groups as compared to controls (n = 126); for A1298C, no significant difference was noticed. TDT analysis revealed preferential transmission of C677 allele to a small group of mild IMR probands (χ2 = 5.545; P = 0.018). Higher frequency of CA haplotype was also noticed in IMR cases as compared to controls (χ2 = 6.28; P = 0.012). We infer from the present investigation that these polymorphisms are not contributing to the aetiology of IMR in this population since both case-control and family-based analysis revealed no significant transmission of the mutated allele.

Complex Camptosynpolydactyly and Mesoaxial synostotic syndactyly with phalangeal reduction are allelic disorders

Complex Camptosynpolydactyly is an autosomal recessive disorder characterized by complex hand deformities described earlier by us in a consanguineous family. We report on identification of mutations in BHLHA9 gene in this condition. Our results indicate that Complex Camptosynpolydactyly and Mesoaxial synostotic syndactyly with phalangeal reduction (MSSD) are likely to be allelic disorders.

Lack of association between down syndrome and polymorphisms in dopamine receptor D4 and serotonin transporter genes.

Down Syndrome (DS) patients suffer from cognitive dysfunction, depression, hyperactivity, irritability etc. Dopamine (DA) and serotonin (5HT) are known to control cognitive and behavioral attributes. An increased number of the DA receptor 4 (DRD4) is detected in brain regions primarily involved in cognition. Impairments in executive function have also been reported with depletion in 5HT. A variable number of tandem repeat (VNTR) in the exon 3 of DRD4 and an insertion/deletion polymorphism in the promoter region of 5HT transporter (5HTTLPR) have been found to be associated with different neurobehavioral disorders; however, association of these polymorphisms with DS has never been explored. The present family-based analysis on DS revealed significant over-transmission of a DRD4 VNTR allele which encodes for D4 receptor with average activity. No association was noticed for the 5HTTLPR. We may conclude that these genetic polymorphisms are not contributing to the neuromotor and cognitive dysfunctions observed in DS.

Homozygosity for a nonsense variant in AIMP2 is associated with a progressive neurodevelopmental disorder with microcephaly, seizures, and spastic quadriparesis

We ascertained two unrelated consanguineous families with two affected children each having microcephaly, refractory seizures, intellectual disability, and spastic quadriparesis. Magnetic resonance imaging showed atrophy of cerebrum, cerebellum and spinal cord, prominent cisterna magna, symmetric T2 hypo-intensities in the bilateral basal ganglia and thinning of corpus callosum. Whole-exome sequencing of three affected individuals revealed c.105C>A [p.(Tyr35Ter)] variant in AIMP2. The variant lies in a common homozygous region of 940 kb on chromosome 7 and is likely to have been inherited from a common ancestor. The phenotype noted in our subjects’ shares marked similarity with that of hypomyelinating leukodystrophy-3 caused by mutations in closely related gene AIMP1. We hereby report the first human disease associated with deleterious mutations in AIMP2.

Whole exome sequencing reveals a mutation in ARMC9 as a cause of mental retardation, ptosis, and polydactyly

Intellectual disability (ID) refers to deficits in mental abilities, social behavior, and motor skills to perform activities of daily living as compared to peers. Numerous genetic and environmental factors may be responsible for ID. We report on elucidation of molecular basis for syndromic ID associated with ptosis, polydactyly, and MRI features suggestive of Joubert syndrome using homozygosity mapping followed by exome sequencing. The analysis revealed a novel synonymous variation p.T293T (c.879G>A) which leads to a splicing defect in ARMC9 gene. The variant is present in conserved region of ARM domain of ARMC9 protein, which is predicted to form a platform for protein interaction. This domain is likely to be altered in patient due to splicing defect caused by this synonymous variation. Our report of variant in ARMC9 Leading to Joubert syndrome phenotype (JS30), elucidates the genetic heterogeneity of Joubert syndrome, and expands the gene list for ciliopathies.