De-novo 'pure' partial trisomy (6)(p22.3→pter): a case report and review of the literature.

Partial trisomy of the short arm of chromosome 6 is a rare and clinically distinct syndrome. The breakpoints have been found to be variable ranging from bands 6p11 to 6p25. This study reports partial trisomy for 6p22.3→pter in a 2-year-old boy referred with a complaint of developmental delay and facial dysmorphism. Conventional cytogenetic analysis showed the presence of an abnormal chromosome 5 resulting from an unbalanced translocation in the proband. Array comparative genomic hybridization revealed trisomy of distal 6p which was confirmed by fluorescence in situ hybridization using subtelomeric probes for chromosomes 5 and 6. A comparison of the phenotypic features in similar cases of trisomy for different segments of 6p will facilitate an accurate karyotype-phenotype correlation and, subsequently, in the identification of the candidate genes through molecular characterization of the potential genes mapped to these loci.

Ring Chromosome 9 and Chromosome 9p Deletion Syndrome in a Patient Associated with Developmental Delay: A Case Report and Review of the Literature.

Ring chromosomes have been described for all human chromosomes and are typically associated with physical and/or mental abnormalities resulting from a deletion of the terminal ends of both chromosome arms. This report describes the presence of a ring chromosome 9 in a 2-year-old male child associated with developmental delay. The proband manifested a severe phenotype comprising facial dysmorphism, congenital heart defects, and seizures. The child also exhibited multiple cell lines with mosaic patterns of double rings, a dicentric ring and loss of the ring associated with mitotic instability and dynamic tissue-specific mosaicism. His karyotype was 46,XY,r(9)(p22q34)[89]/46,XY,dic r(9; 9)(p22q34;p22q34)[6]/45, XY,-9[4]/47,XY,r(9),+r(9)[1]. However, the karyotypes of his parents and elder brother were normal. FISH using mBAND probe and subtelomeric probes specific for p and q arms for chromosome 9 showed no deletion in any of the regions. Chromosomal microarray analysis led to the identification of a heterozygous deletion of 15.7 Mb from 9p22.3 to 9p24.3. The probable role of the deleted genes in the manifestation of the phenotype of the proband is discussed.

Chromosome territory repositioning induced by PHA-activation of lymphocytes: A 2D and 3D appraisal.

BACKGROUND: Genomes and by extension chromosome territories (CTs) in a variety of organisms exhibit nonrandom organization within interphase nuclei. CTs are susceptible to movement upon induction by a variety of stimuli, including: cell differentiation, growth factors, genotoxic agents, proliferating status, and stimulants that induce novel transcription profiles. These findings suggest nuclear architecture can undergo reorganization, providing support for a functional significance of CT organization. The effect of the initiation of transcription on global scale chromatin architecture has been underexplored. This study investigates the organization of all 24 human chromosomes in lymphocytes from two individuals in resting and phytohaemagglutinin activated lymphocytes using 2D and 3D approaches. RESULTS: The radial organization of CTs in lymphocytes in both resting and activated lymphocytes follows a gene-density pattern. However, CT organization in activated nuclei appears less constrained exhibiting a more random organization. We report differences in the spatial relationship between homologous and heterologous CTs in activated nuclei. In addition, a reproducible radial hierarchy of CTs was identified and evidence of a CT repositioning was observed in activated nuclei using both 2D and 3D approaches. CONCLUSIONS: Alterations between resting and activated lymphocytes could be adaptation of CTs to the new transcription profile and possibly the formation of new neighborhoods of interest or interaction of CTs with nuclear landmarks. The increased distances between homologous and heterologous CTs in activated lymphocytes could be a reflection of a defensive mechanism to reduce potential interaction to prevent any structural chromosome abnormalities (e.g. translocations) as a result of DNA damage that increases during lymphocyte activation.

Spatial positioning of all 24 chromosomes in the lymphocytes of six subjects: evidence of reproducible positioning and spatial repositioning following DNA damage with hydrogen peroxide and ultraviolet B.

The higher-order organization of chromatin is well-established, with chromosomes occupying distinct positions within the interphase nucleus. Chromatin is susceptible to, and constantly assaulted by both endogenous and exogenous threats. However, the effects of DNA damage on the spatial topology of chromosomes are hitherto, poorly understood. This study investigates the organization of all 24 human chromosomes in lymphocytes from six individuals prior to- and following in-vitro exposure to genotoxic agents: hydrogen peroxide and ultraviolet B. This study is the first to report reproducible distinct hierarchical radial organization of chromosomes with little inter-individual differences between subjects. Perturbed nuclear organization was observed following genotoxic exposure for both agents; however a greater effect was observed for hydrogen peroxide including: 1) More peripheral radial organization; 2) Alterations in the global distribution of chromosomes; and 3) More events of chromosome repositioning (18 events involving 10 chromosomes vs. 11 events involving 9 chromosomes for hydrogen peroxide and ultraviolet B respectively). Evidence is provided of chromosome repositioning and altered nuclear organization following in-vitro exposure to genotoxic agents, with notable differences observed between the two investigated agents. Repositioning of chromosomes following genotoxicity involved recurrent chromosomes and is most likely part of the genomes inherent response to DNA damage. The variances in nuclear organization observed between the two agents likely reflects differences in mobility and/or decondensation of chromatin as a result of differences in the type of DNA damage induced, chromatin regions targeted, and DNA repair mechanisms.

Association of E-cadherin single-nucleotide polymorphisms with the increased risk of breast cancer: a study in South Indian women.

BACKGROUND: E-cadherin (CDH1) plays an important role in intercellular adhesion, cell signaling, and cellular differentiation. Association of single-nucleotide polymorphisms (SNPs) of CDH1 has been identified in a number of epithelial malignancies; however, studies related to breast cancer are very few. AIM: To investigate the association between CDH1 SNPs and breast cancer risk in south Indian women. METHODS: Genotyping of CDH1 functional SNPs (-347G/GA, -160C/A, and +54C/T) was carried out on genomic DNA of blood from breast cancer patients (n=202) and controls (n=250) of south Indian origin by PCR-sequencing and PCR-restriction fragment length polymorphism techniques. Haplotype frequencies for multiple loci and the standardized disequilibrium coefficient (D') for pairwise linkage disequilibrium (LD) were assessed by Haploview Software. RESULTS: The frequencies of -160A/A genotypes (p=0.038) and -160A alleles (p=0.046) were significantly higher in patients compared to controls. In addition, the frequency of the -347GA/-160A/+54C haplotype was also significantly elevated in patients (p=0.0238). Strong LD was observed between -347G/GA and +54C/T loci (D'=0.44) in patients compared to controls. CONCLUSION: The CDH1 -160C/A polymorphism may constitute an inheritable risk factor for breast cancer in south Indian women.

Unique case reports associated with ovarian failure: necessity of two intact x chromosomes.

Premature ovarian failure is defined as the loss of functional follicles below the age of 40 years and the incidence of this abnormality is 0.1% among the 30-40 years age group. Unexplained POF is clinically recognized as amenorrhoea (>6 months) with low level of oestrogen and raised level of Luteinizing Hormone (LH) and Follicle Stimulating Hormone (FSH > 20 IU/l) occurring before the age of 40. It has been studied earlier that chromosomal defects can impair ovarian development and its function. Since there is paucity of data on chromosomal defects in Indian women, an attempt is made to carry out cytogenetic evaluation in patients with ovarian failure. Cytogenetic analysis of women with ovarian defects revealed the chromosome abnormalities to be associated with 14% of the cases analyzed. Interestingly, majority of the abnormalities involved the X-chromosome and we report two unique abnormalities, (46,XXdel(Xq21-22) and q28) and (mos,45XO/46,X+ringX) involving X chromosome in association with ovarian failure. This study revealed novel X chromosome abnormalities associated with ovarian defects and these observations would be helpful in genetic counseling and apart from, infertility clinics using the information to decide suitable strategies to help such patients.

De novo 7p partial trisomy characterized by subtelomeric FISH and whole-genome array in a girl with mental retardation.

Chromosome rearrangements involving telomeres have been established as one of the major causes of idiopathic mental retardation/developmental delay. This case of 7p partial trisomy syndrome in a 3-year-old female child presenting with developmental delay emphasizes the clinical relevance of cytogenetic diagnosis in the better management of genetic disorders. Application of subtelomeric FISH technique revealed the presence of interstitial telomeres and led to the ascertainment of partial trisomy for the distal 7p segment localized on the telomeric end of the short arm of chromosome 19. Whole-genome cytogenetic microarray-based analysis showed a mosaic 3.5 Mb gain at Xq21.1 besides the approximately 24.5 Mb gain corresponding to 7p15.3- > pter. The possible mechanisms of origin of the chromosomal rearrangement and the clinical relevance of trisomy for the genes lying in the critical regions are discussed.

The genetic bases of uterine fibroids; a review.

Uterine leiomyomas/fibroids are the most common pelvic tumors of the female genital tract. The initiators remaining unknown, estrogens and progesterone are considered as promoters of fibroid growth. Fibroids are monoclonal tumors showing 40-50% karyo-typically detectable chromosomal abnormalities. Cytogenetic aberrations involving chromosomes 6, 7, 12 and 14 constitute the major chromosome abnormalities seen in leiomyomata. This has led to the discovery that disruptions or dysregulations of HMGIC and HMGIY genes contribute to the development of these tumors. Genes such as RAD51L1 act as translocation partners to HMGIC and lead to disruption of gene structure leading to the pathogenesis of uterine fibroids. The mechanism underlying this disease is yet to be identified. The occurrence of PCOLCE amid a cluster of at least eight Alu sequences is potentially relevant to the possible involvement of PCOLCE in the 7q22 rearrangements that occur in many leiomyomata. PCOLCE is implicated in cell growth processes. Involvement of Alu sequences in rearrangements can lead to the disruption of this gene and, hence, loss of control for gene expression leading to uncontrolled cell growth. This can also lead to the formation of fibroids. Though, cytogenetics provides a broad perspective on uterine fibroid formation, further molecular analysis is required to understand the etiopathogenesis of uterine fibroids.