Frequency of the common fragile site at Xq27.2 under conditions of thymidylate stress: implications for cytogenetic diagnosis of the fragile-X syndrome

The distal long arm of the X chromosome contains at least 2 fragile sites, the well known rare site at Xq27.3 (FRAXA), associated with the fragile-X syndrome, and a common fragile site at Xq27.2 (FRAXD), inducible by high doses of aphidicolin. Lesions at Xq26 have also been reported in lymphocytes of mentally retarded individuals cultured under folate deprivation or thymidylate stress. This study determines the frequency of the fragile site at Xq27.2 and lesions at Xq26 in individuals referred to our laboratory to rule out the fragile-X syndrome and in control individuals using our routine culture system for the diagnosis of the syndrome. FRAXD was expressed in 1/20 (5%) individuals in each of the study groups, in 1-2% of cells. Lesions at Xq26 were found in 1-2% of the lymphocytes of 5/166 (3%) patients referred for fragile-X analysis who were FRAXA negative, and in 1% of cells of 1/20 (5%) control individuals. We conclude (1) the fragile site at Xq27.2 can be demonstrated in normal individuals under conditions of thymidylate stress routinely used for cytogenetic diagnosis of the fragile-X syndrome, (2) this fragile site is present at low levels (1-2%) in all individuals who express it and, therefore, its expression is unlikely to cause false positive diagnoses of the syndrome, (3) lesions at Xq26 are also seen at low levels in lymphocytes of individuals without the syndrome, and (4) accurate differentiation of the rare site at Xq27.3 from other distal Xq fragile sites or lesions will lead to avoidance of unnecessary repeat studies.

Cytogenetic and molecular investigation of a balanced Xq13q translocation in a patient with retinoblastoma

We report on a 4-year-old girl with retinoblastoma and de novo balanced translocation [46,X,t (X;13) (q23;q13)]. Unilateral retinoblastoma was discovered at age 9 months along with developmental delay and several manifestations of Turner syndrome. Chromosome studies showed an X/13 translocation and an X inactivation pattern showing the translocated X chromosome active in all 50 cells examined. Standard Southern blot analysis and pulsed field gel electrophoresis using a 3.8 kb EcoR1 fragment of the cDNA probe to the 3' end of the RB1 locus demonstrated a normal genomic pattern. The results of the cytogenetic and molecular analysis suggests that the RB1 locus has not been disrupted by the chromosome rearrangement. This case is the fifth report of an X/13 translocation associated with a retinoblastoma.

Ocular albinism in a male with del (6)(q13-q15): candidate region for autosomal recessive ocular albinism?

We describe a boy with an interstitial deletion of 6(q13-q15) and include "coarse" facial features, upslanting palpebral fissures, thin vermilion border of the upper lip, elongated philtrum, developmental delay, and profound hypotonia. The child's eye findings, pedigree, paucity of maternal ocular changes, and lack of melanin macroglobules in the skin suggest that this individual's phenotype is clinically similar to that of autosomal recessive ocular albinism. Though it is possible that this deletion and his ophthalmic disorder are coincidental, we postulate that the ocular albinism may be due to hemizygosity for a paternally derived ocular albinism gene located on chromosome 6 in the region q13-q15. This patient's deletion is secondary to a recombination of a maternal intrachromosomal inverted insertion of this region. Of the 7 reported 6q1 deletions, this is the only case that is due to a familial chromosome rearrangement.

Structural analysis of a carcinogen-induced genomic rearrangement event

We have explored the mechanism of genomic rearrangement in a hamster fibroblast cell culture system in which rearrangements are induced 5' to the endogenous thymidine kinase gene by chemical carcinogen treatment. The wild-type region around one rearrangement breakpoint was cloned and sequenced. With this sequence information, the carcinogen-induced rearrangement was cloned from the corresponding rearranged cell line by the inverse polymerase chain reaction. After the breakpoint fragment was sequenced, the wild-type rearrangement partner (RP15) was isolated by a second inverse polymerase chain reaction of unrearranged DNA. Comparison of the sequence of the rearrangement breakpoint with the wild-type RP15 and 5' thymidine kinase gene regions revealed short repeats directly at the breakpoint, as well as nearby A + T-rich regions in each rearrangement partner. Pulsed-field electrophoresis analysis demonstrated that this rearrangement is an interstitial deletion of 35 kilobases. Southern blot analysis of the RP15 region in unrearranged parental cells showed a demethylated CpG island and a complex of DNase I-hypersensitive sites adjacent to the breakpoint in the region deleted by the rearrangement. Therefore, these studies reveal interesting sequence and chromatin features near the rearrangement breakpoints and suggest a role for nuclear organization in the mechanism of carcinogen-induced genomic rearrangement.

Localization of the rhabdomyosarcoma t(2;13) breakpoint on a physical map of chromosome 13

Previous investigations of the pediatric soft tissue tumor alveolar rhabdomyosarcoma have identified a characteristic translocation t(2;13)(q35;q14). We have employed a physical mapping strategy to localize the site of this translocation breakpoint on chromosome 13. Using a panel of somatic cell hybrid and lymphoblast cell lines with deletions and unbalanced translocations involving chromosome 13, we have mapped numerous probes from the 13q12-q14 region and demonstrate that this region is divisible into five physical intervals. These probes were then mapped with respect to the t(2;13) rhabdomyosarcoma breakpoint by quantitative Southern blot analysis of an alveolar rhabdomyosarcoma cell line with two copies of the derivative chromosome 13 and one copy of the derivative chromosome 2. Our findings demonstrate that the t(2;13) breakpoint is localized within a map interval delimited by the proximal deletion breakpoints in lymphoblast lines GM01484 and GM07312. Furthermore, the breakpoint is most closely flanked by loci D13S29 and TUBBP2 within this map interval. These findings will facilitate chromosomal walking strategies for cloning the regions disrupted by the alveolar rhabdomyosarcoma translocation. In addition, this physical map will permit rapid determination of the proximity of new cloned sequences to the translocation breakpoint.

A map of 22 loci on human chromosome 22

We constructed a genetic linkage map of the entire long arm of human chromosome 22 with 30 polymorphic markers, defining 22 loci. The map consists of a continuous linkage group 110 cM long, when male and female recombination fractions are combined; average distance between the loci is 5.2 cM. All loci were placed on the map with high support against alternative orders (odds in excess of 1000:1). The order of loci presented in our map is in full agreement with that of the previous linkage maps of chromosome 22 and with the physical assignment of markers. Two markers included in this map, KI-831 (D22S212) and pEFZ31 (D22S32), allowed us to better define the region of the (11;22) translocation breakpoint specific for Ewing sarcoma. Ten additional polymorphic markers were placed on the 22-loci map with odds lower than 1000:1 against alternative locations. In total, we have introduced 29 new markers on the linkage map of chromosome 22.

Chromosomal translocation t(1;13)(p36;q14) in a case of rhabdomyosarcoma

Cytogenetic studies of a rhabdomyosarcoma of mixed embryonal and alveolar histology in an 11-month-old male revealed a single structural abnormality, t(1;13)(p36;q14). This abnormality may define a subset of patients with a variant of the t(2;13)(q35;q14) translocation frequently seen in alveolar rhabdomyosarcoma.

Detection of deletions and cryptic translocations in Miller-Dieker syndrome by in situ hybridization

Fluorescence in situ hybridization (FISH) using two cosmid probes (41A and P13) from the Miller-Dieker syndrome (MDS) critical region in 17p13.3 was performed in a blinded comparison of three MDS patients with submicroscopic deletions and in four normal relatives used as controls. The controls showed both chromosome 17 homologues labeled in 85%-95% of cells, while each patient showed only one homologue labeled in 75%-80% of cells. Two MDS patients with cryptic translocations were also studied. In one case, a patient and her mother had the same der(17) (p+), but the reciprocal product of the translocation could not be identified in the mother by G-banding (i.e., it was a "half-cryptic" translocation). FISH revealed a 3q;17p translocation. The other case involved a patient with apparently normal karyotype. Because a large molecular deletion was found, a translocation involving two G-negative telomeres (i.e., a "full-cryptic" translocation) was postulated. FISH studies on her father and normal brother showed an 8q;17p translocation. These studies demonstrate that in situ hybridization is an efficient method for deletion detection in Miller-Dieker syndrome. More important, parental studies by FISH on patients demonstrating molecular deletions and a normal karyotype may identify cryptic translocation events, which cannot be detected by other molecular genetic strategies. Similar in situ strategies for deletion detection can be developed for other microdeletion syndromes, such as Prader-Willi/Angelman syndrome or DiGeorge syndrome.

Isolation and regional localization of 35 unique anonymous DNA markers for human chromosome 22

Thirty-five new, unique, DNA probes have been isolated and each has been assigned to one of five regions on chromosome 22. The distribution of probes along the chromosome is what would be expected based on the estimated size of each region with the exception of the short arm (22p). RFLP analysis was performed using 13 different restriction enzymes and over 50% of the probes were found to have useful polymorphisms. Probes mapping to 22q11 were further characterized by pulsed-field gel analysis and it has been possible to link several on large restriction fragments. These 35 new probes will be useful reagents for producing genetic and physical maps of chromosome 22.

Interstitial deletion of 4(q21q25) in a liveborn male

We describe a liveborn male with a de novo deletion of 4(q21q25). The findings in this infant are compared with those of other 4q interstitial deletion patients with similar break-points. Given the reproducible findings including skull asymmetry, cardiac defects, renal cysts, "butterfly" vertebrae, as well as a particular dysmorphic face with developmental delay, there is evidence for an interstitial 4q deletion syndrome.

Congenital nystagmus in a (46,XX/45,X) mosaic woman from a family with X-linked congenital nystagmus

X-linked congenital nystagmus is a rare disorder in which affected males manifest binocular uniplanar nystagmus with associated head oscillation. In the families previously reported, affected females have been described. We report on a multigeneration family with X-linked congenital nystagmus with an affected woman. She was a (46,XX/45,X) mosaic. Magnetic resonance images of the brain of affected individuals were normal.

Molecular and cytogenetic analysis of chromosomal arms 2q and 13q in alveolar rhabdomyosarcoma

We present cytogenetic and molecular genetic analyses of two cases of alveolar rhabdomyosarcoma. The characteristic translocation between chromosomes 2 and 13, t(2;13)(q35;q14), has been identified in both cases. Using cell lines derived from these tumor specimens, we have performed Southern blot analysis to investigate the possibility of rearrangement of 14 candidate genes mapping to the relevant regions of 2q and 13q. These candidate genes can be divided into 5 groups: signal transduction proteins (RB1, inhibin alpha, FLT1, and HOX4B), muscle-specific products [myosin light chain, desmin, and nicotinic cholinergic receptor subunits gamma and delta (CHRNG and CHRND)], extracellular matrix proteins (collagen type VI alpha 3 chain, elastin, and fibronectin), transformation-associated products (intestinal alkaline phosphatase and L-plastin), and other genes (esterase D). Conventional gel electrophoresis followed by Southern blot analysis indicated no evidence of rearrangement within or near these genes except for a rearrangement in the CHRNG-CHRND locus, which occurred only in a subpopulation of the late recurrence tumor cells of one patient. In addition, we employed pulsed-field gel electrophoresis-Southern blot analysis to demonstrate the absence of detectable rearrangements within a larger region around each of these genes.

Bone morphogenetic protein: chromosomal localization of human genes for BMP1, BMP2A, and BMP3

Bone morphogenetic protein (BMP) induces endochondral bone formation in vivo. The human genes have been cloned for a group of proteins containing BMP activity (BMP1, BMP2A, and BMP3). Two of the proteins are members of the transforming growth factor-beta supergene family (BMP2A and BMP3), while BMP1 is a novel regulatory protein. Using somatic cell hybrid lines, cDNA probes were used to map BMP1 to chromosome 8, BMP2A to chromosome 20, and BMP3 to the p14-q21 region of chromosome 4. This analysis reveals that the BMP2A and BMP3 genes map to conserved regions between mouse and human, while the BMP1 gene does not. The locations of the BMP genes were found to overlap with the loci for several disorders of cartilage and bone formation.

Occupations of parents of children with retinoblastoma: a report from the Children's Cancer Study Group

A matched case-control study was conducted by the Children's Cancer Study Group to investigate the role of parental occupation in the etiology of sporadic heritable and nonheritable retinoblastoma. Eligible cases were those patients with retinoblastoma diagnosed in 1982-1985 at any of the Children's Cancer Study Group member hospitals. Telephone interviews of 201 parents of cases and their pair-matched controls selected by random digit dialing were completed. Of the 201 cases, 19 were familial, 67 were sporadic heritable, and 115 were nonheritable. The 19 familial cases were excluded from the analysis. Paternal employment in the military [odds ratio (OR) 2.8, 95% confidence interval (CI) 1.1-8.8, P = 0.04] and in the metal industry (OR infinity, 95% CI 1.4-infinity, P = 0.02) was associated with sporadic heritable retinoblastoma (N = 67). For nonheritable retinoblastoma (N = 115), a significant association was observed for a job cluster consisting mostly of welders and machinists (OR 4.0, 95% CI 1.1-22.1, P = 0.04). Occupations of maternal grandparents were also studied and an association was observed with farming and nonheritable retinoblastoma (OR 10.0, 95% CI 1.4-433, P = 0.02). Many comparisons were made and the number of significant findings did not exceed that expected by chance. Thus, the results need to be interpreted very cautiously. However, the findings related to metal exposure corroborate observations on other childhood cancers.

Monosomy 22 in rhabdoid or atypical tumors of the brain

Cytogenetic studies of three rare childhood brain tumors were performed. Two children presented with pure rhabdoid tumors. The third child had a tumor composed of a mixture of rhabdoid elements with neuroepithelial, epithelial, and mesenchymal tissue - an atypical teratoid tumor. All three tumors demonstrated monosomy 22 as the only cytogenetic abnormality. The cytogenetic findings suggest that loss of a gene or genes on chromosome 22 may be involved in the initiation or progression of these malignant tumors. Further studies on additional fresh tumor specimens are warranted; however, it is possible that cytogenetic studies may be used as an additional means of diagnosing rhabdoid or atypical teratoid tumors of the brain.

Microphthalmia and chorioretinal lesions in a girl with an Xp22.2-pter deletion and partial 3p trisomy: clinical observations relevant to Aicardi syndrome gene localization

We present a 4-year-old girl with a maternally derived, unbalanced X;3 translocation resulting in partial Xp monosomy and partial 3p trisomy. She had chorioretinal defects, developmental delay, infantile seizures, and microphthalmia. These findings initially suggested a diagnosis of Aicardi syndrome. However, she had a normal-appearing corpus callosum on CT and magnetic resonance imaging scans of the brain and her retinal findings were not typical for Aicardi syndrome. This represents the 6th reported example of microphthalmia associated with an Xp22 chromosome abnormality. Four of these individuals also had features suggestive of focal dermal hypoplasia (FDH), which was not evident in our patient. The available evidence supports the hypothesis that gene disruption at Xp22 may lead to findings similar to those seen in Aicardi syndrome and FDH, both of which are believed to be X-linked dominant male lethal conditions.

Human central nervous system primitive neuroectodermal tumor expressing nerve growth factor receptors: CHP707m

A primitive neuroectodermal tumor (PNET) presented as a cerebral hemispheric mass in a 33-year-old man. Bone marrow metastases were discovered 11 months later. A cell line (CHP707m) was derived from these metastases. In culture, the cells showed features of neuronal differentiation, forming short neurites and synthesizing low-molecular-weight neurofilament protein. Northern blotting showed the tumor cells express nerve growth factor (NGF) receptor messenger RNA, and fluorescence-activated cell-sorting demonstrated NGF receptors on the cell surface. Western blotting showed CHP707m NGF receptors are truncated. The receptors are functional; they bind iodine 125-labeled mouse NGF with an affinity of 1.6 x 10(-9) M, and short-term treatment with NGF induces expression by the tumor cells of the proto-oncogene, c-fos. Although CHP707m is the first central nervous system PNET cell line proven to express NGF receptors, immunohistological survey of tissue sections prepared from human central nervous system PNETs showed that 13 of 35 contained NGF receptor-positive tumor cells. Thus, more than one-third of such tumors might be responsive to the effects of NGF.

Heterogeneity of clinical severity and molecular lesions in Aicardi syndrome

All patients with Aicardi syndrome are female or have a 47,XXY karyotype. This finding, along with a report of an Aicardi syndrome patient with an Xp22/autosome translocation, led to the hypothesis that Aicardi syndrome might be caused by an X-linked dominant, male-lethal mutation on the short arm of the X chromosome. To study this hypothesis, we investigated X chromosome inactivation patterns in peripheral lymphocytes from seven patients. We used two methods: methylation-sensitive restriction enzyme analysis and segregation of the active X chromosome in somatic cell hybrids. We found that three of seven cytogenetically normal girls with Aicardi syndrome had profoundly skewed X-inactivation in their lymphocytes, supporting the concept that Aicardi syndrome is X linked. Three of the five girls with the greatest degree of psychomotor retardation and the poorest seizure control had skewed X-inactivation. In contrast, the two highest-functioning children had random X-inactivation. We screened DNA using eight polymorphic probes from the Xp22 region but were unable to identify a deletion in any of the seven patients. Nonrandom X-inactivation in lymphocytes and possibly other tissues in some, but not all, patients with Aicardi syndrome may reflect heterogeneity of their molecular lesions.

Application of a subtraction hybridization technique involving photoactivatable biotin and organic extraction to solution hybridization analysis of genomic DNA

We have adapted a subtraction hybridization technique involving photoactivatable biotin, streptavidin binding, and organic extraction for solution hybridization analysis of mammalian genomic DNA. By combining maximal hybridization conditions of high salt, dextran sulfate, and formamide with successive hybridization steps and sequence enrichment by agarose gel electrophoresis, up to 97% of tracer DNA can be reproducibly driven to hybridize with photobiotinylated driver DNA. We demonstrate that the fractionation of hybridized from unhybridized sequences by this technique differs from hydroxyapatite chromatography with respect to the handling of nondenatured tracer, foldback sequences, and tracer-tracer hybrids. Strategies are presented to control the contribution of these species to the final subtracted product thereby making this technology a useful adjunct to solution hybridization approaches such as deletion cloning.

Molecular studies of DiGeorge syndrome

DiGeorge Syndrome (DGS) is often associated with loss of a portion of the proximal long arm of chromosome 22. Using a probe for the D22S9 locus, we have examined DNA from eight DGS cell lines and from one balanced-translocation carrier parent of a DGS proband. The D22S9 locus is deleted in four DGS patients, with deletion of 22pter----q11 because of unbalanced translocation. The locus is not deleted from three DGS probands with normal chromosomes or from two DGS probands with interstitial deletions of 22q11. The interstitial deletion DGS probands are also heterozygous for D22S43, another proximal 22q11 locus. This suggests that D22S9 and D22S43 are in a flanking but not critical region for DGS. One of the interstitial deletion DGS probands is monosomic for BCRL2 but has two copies of the flanking BCRL4 and BCR loci. Thus, the region critical to DGS (DGCR) may be in proximity to the BCRL2 locus.

Molecular and cytogenetic studies of a patient with Philadelphia-negative, BCR-positive chronic myeloid leukemia and t(12;12)(q13;p12)

A patient with Philadelphia (Ph1)-negative, breakpoint cluster region (bcr)-positive chronic myeloid leukemia (CML) is reported. Pulsed-field gel electrophoretic analysis demonstrated the comigration of both ABL and BCR sequences on the same BssHII and SacII fragment. Moreover, in situ hybridization studies demonstrated that ABL sequences had been moved from band 9q34 to 22q11 and that the additional t(12;12)(q13;p12) was not involved in the ABUBCR related translocation. Nevertheless, a possible role of oncogenes or regulatory sequences activated or inhibited by the additional translocation cannot be excluded.

Isochromosome 17q in primitive neuroectodermal tumors of the central nervous system

We have prepared karyotypes from 22 primitive neuroectodermal tumors (PNETs) from pediatric patients ranging in age from 10 months to 16 years. Twenty-one cases were newly diagnosed, primary, posterior fossa tumors. One case was a recurrent tumor in a patient previously treated with radiation. Cytogenetic results were obtained from direct preparations and/or short-term (1-10 day) culture. Three tumors had apparently normal karyotypes. Nineteen tumors demonstrated numerical and/or structural abnormalities. The most frequent structural chromosomal changes were deletions and nonreciprocal translocations. Four tumors contained double minutes. Several chromosomes appear to be nonrandomly involved in PNETs. These include chromosomes 5, 6, 11, 16, 17, and a sex chromosome. The most consistent change, however, was an i(17q), present in one-third (8/22) of the cases. Strikingly, in three of these eight tumors, the i(17q) was the only structural abnormality observed. An i(17q) is not specific for pediatric PNETs, as it is also seen in leukemias and other solid tumors. However, in PNETs it may be a primary change related to tumor development and/or progression. Clinically, there was no correlation of the cytogenetic findings with histologic features of the tumors, size of the tumor, extent of metastasis, or surgical resection.