Spectrum of mutations in genes associated with familial colorectal cancer syndrome (MLH1, MSH2, PMS2, MSH6, and APC): A not so common hereditary cancer syndrome in Indian population.

Incidence of colorectal cancer (CRC) is lower in India than in other parts of the world. Approximately 5% to 10% of CRC is inherited. Hereditary non-polyposis colorectal cancer (HNPCC) syndrome and familial adenomatous polyposis (FAP) syndrome are the two known familial cancer syndromes of gastrointestinal tract, which occur due to inherited genetic predisposition. Not much is known about the molecular profile of families with inherited CRC syndromes seen in Indian population. At our institute, we have been providing genetic testing and counseling service to all the families referred to us with suspicion of inherited cancer predisposition syndrome. We analyzed 36 suspected families at our clinic. Personal and family history of cancer was obtained from the proband and appropriate genetic testing was performed in 19 patients (13 with HNPCC, 5 with FAP, and 1 with Cowden syndrome). We present here our experience and spectrum of pathogenic variants observed in this patient cohort and review on published studies describing molecular profile of Indian patients with CRC syndromes.

A novel CHEK2 variant identified by next generation sequencing in an Indian family with hereditary breast cancer syndrome.

Genetic variations in CHEK2 (checkpoint kinase 2) gene have been associated with hereditary predisposition to various cancers including breast and ovarian cancer. CHEK2 tumor suppressor gene encodes for a checkpoint kinase that responds to breaks in DNA, regulates DNA repair and cellular proliferation. We report a BRCA negative family with multiple affected women having breast cancer, with a novel, missense, likely pathogenic variant in the CHEK2 gene (c.1376T>G; p.Ile459Ser) that segregated with subjects with breast cancer. This case provides insight into the role of the CHEK2 gene in causing breast cancer susceptibility in families and supports the use of multigene panel testing in cases with hereditary predisposition to breast cancer.

Clinical and molecular characterization of Indian patients with fructose-1, 6-bisphosphatase deficiency: Identification of a frequent variant (E281K).

Fructose-1, 6-bisphosphatase deficiency is an autosomal recessive disorder of gluconeogenesis caused by genetic defect in the FBP1 gene. It is characterized by episodic, often life-threatening metabolic acidosis, liver dysfunction, and hyperlactatemia. Without a high index of suspicion, it may remain undiagnosed with devastating consequences. Accurate diagnosis can be achieved either by enzyme assay or gene studies. Enzyme assay requires a liver biopsy and is tedious, invasive, expensive, and not easily available. Therefore, genetic testing is the most appropriate method to confirm the diagnosis. Molecular studies were performed on 18 suspected cases presenting with episodic symptoms. Seven different pathogenic variants were identified. Two common variants were noted in two subpopulations from the Indian subcontinent; p.Glu281Lys (E281K) occurred most frequently (in 10 patients) followed by p.Arg158Trp (R158W, in 4 patients). Molecular analysis confirmed the diagnosis and helped in managing these patients by providing appropriate genetic counseling. In conclusion, genetic studies identified two common variants in the Indian subcontinent, thus simplifying the diagnostic algorithm in this treatable disorder.

Genetic Testing in Pediatric Ophthalmology.

The authors review the utility of genetic testing in ophthalmic disorders - precise diagnosis, accurate prognosis, genetic counseling, prenatal diagnosis, and entry into gene-specific therapeutic trials. The prerequisites for a successful outcome of a genetic test are an accurate clinical diagnosis, a careful family history that guides which genes to study, and genetic counseling (both pre-test and post-test). The common eye disorders for which genetic testing is commonly requested are briefly discussed - anophthalmia, microphthalmia, coloboma, anterior segment dysgenesis, corneal dystrophies, cataracts, optic atrophy, congenital glaucoma, congenital amaurosis, retinitis pigmentosa, color blindness, juvenile retinoshisis, retinoblastoma etc. A protocol for genetic testing is presented. If specific mutations in a gene are common, they should form the first tier test, as the mutations in Leber hereditary optic neuropathy. If mutations in one gene are likely, sequencing of that gene should be carried out, e.g. GALT gene in galactosemia, RS1 gene in retinoshisis. Disorders with genetic heterogeneity require multi-gene panel tests, and if these show no abnormality, then deletion / duplication or microarray studies are recommended, followed in sequence by clinical exome (5000 to 6000 genes), full exome (about 20,000 genes or whole genome studies (includes all introns). It is fortunate that most genetic tests in ophthalmology are available in India, including gene panel and whole exome/genome sequencing tests.

Is the diagnostic yield influenced by the indication for fetal autopsy?

The utility of fetal autopsy to corroborate antenatal ultrasound findings and to aid genetic counseling is well known. However, the ability to identify an underlying cause for the common indications for which it is performed is not well studied. This study aimed to determine if the diagnostic yield of fetal autopsy in identifying the underlying cause is determined by the indication of the autopsy. Five groups of fetuses were defined based on the indication for the autopsy performed in 903 cases: (i) malformations, (ii) intrauterine death (IUD), (iii) cystic hygroma and hydrops fetalis, (iv) isolated abnormalities of amniotic fluid, and (v) intrauterine growth restriction (IUGR). The highest diagnostic yield was in fetuses with isolated abnormalities of amniotic fluid (77%), followed by those with IUGR (75%), with IUD (69.6%), those in group five (55.2%) and lowest (45%) in fetuses with malformations (P < 0.001). A cause was identified in 77.8% fetuses with multiple malformations compared to 37.5% with isolated malformations (P < 0.001), with chromosomal abnormalities in 31.8% versus 9.9% respectively (P < 0.001) and malformation syndromes in 42.5% versus 26.3% (P < 0.001). Placental examination provided the highest yield in IUD, IUGR, and oligohydramnios (43.1%; P < 0.003) whereas chromosomal analysis was most useful in cystic hygroma/NIHF (28.9%; P < 0.001). This information on the diagnostic yield in fetal autopsy related its common indications, can be utilized to counsel families of the utility of autopsy to establish cause and recurrence risks and thereby assist then to make an informed decision to consent for the procedure. © 2016 Wiley Periodicals, Inc.

Mutation analysis of the CFTR gene in 225 children: identification of five novel severe and seven reported severe mutations.

BACKGROUND: Cystic fibrosis (CF) is the most common inherited disorder in Caucasian populations, with more than 1400 cystic fibrosis transmembrane conductance regulator (CFTR) gene mutations. The type of mutations and their distributions varies widely between different countries and/or ethnic groups. METHODS: We characterized the mutations in the CFTR gene by single-strand conformation polymorphism followed by sequencing in CF patients. RESULTS: Twelve mutations were found in 79/225 (35.1%) patients. The most frequent mutations were F508 deletion (31.1%), p.R1162× (2.2%), p.M1T (0.8%), and S559N (0.8%). Five novel severe mutations (p.R80N11fs*11, p.R75G, p.Y577×, p.Y808Yfs*10, and p.I331×) and three reported mutations (p.C343×, p.Ile1000×, p.M469V) were detected. CONCLUSION: The protocol for identification of mutations in cases of CF in developing countries would have to include a different set of mutations than those reported from western countries.

Mutation studies in the CFTR gene in Asian Indian subjects with congenital bilateral absence of vas deferens: report of two novel mutations and four novel variants.

BACKGROUND: Congenital bilateral absence of vas deferens (CBAVD) is a form of male infertility in which mutations occur in the cystic fibrosis transmembrane conductance regulator (CFTR) gene. The molecular basis of CBAVD is not completely understood, especially in developing countries. METHODS: We characterized the mutations/variants in the CFTR gene by single strand conformation polymorphism followed by sequencing in 35 CBAVD patients. None of the patients had systemic manifestations of cystic fibrosis. Fifty normal subjects were studied as controls. RESULTS: Mutations/variants in the CFTR gene were found in all CBAVD patients. Five mutations and 10 variants were detected in 35 patients. The most frequent severe mutation was F508del (34.2%) and the most common variant was IVS8-5T (54.2%). Two novel severe mutations (p.E217Gfs*11 and p.A1285V) and four novel variants (pT438A, c.4095+30insCT, c.-737G>A, and c.2909-92A>G) were detected. CONCLUSION: The protocol for identification of mutations in cases of CBAVD in developing countries would have to include a different set of mutations than those reported from western countries.