Of abscission and other breakthroughs

Plexiform fibrohistiocytic tumors are rare lesions of proposed myofibroblastic origin occurring primarily in infants and children. There is a characteristic biphasic histology comprised of both fibroblastic and histiocyte-like components. These tumors tend to be locally aggressive with prognosis dependent on completeness of resection. A previous cytogenetic case report of this tumor described a stemline clone with a karyotype of 46,XY,-6,-8, del(4)(q25q31),del(20)(q11.2),+der(8)t(8;?) (p22;?),+mar. We report a different cytogenetic finding in another plexiform fibrohistiocytic tumor which demonstrated a simpler karyotype of 46,XY,t(4;15)(q21;q15). The implications of cytogenetic heterogeneity in fibroblastic tumors is briefly discussed.     

Are duodenal ulcer seasonal fluctuations paralleled by seasonal changes in 24-hour gastric acidity and Helicobacter pylori infection?

Short-term cultures from two histologically benign chemodectomas, one from the carotid body and one from the vagal nerve, were analyzed cytogenetically. The former had a small abnormal clone with the karyotype 46,XX,t(3;19)(q21;q13),t(12;15) (p13;q12-14), whereas the majority of the cells from the latter tumor displayed two related abnormal clones: 46,XY,i(I)(q10)/ 46,iderm,add(2)(q37). The findings add to the evidence that chemodectomas are heterogeneous neoplasms and suggest that the heterogeneity may possibly be associated with the site of origin.     

Partial deletion of chromosome 6p: autopsy findings in a premature infant and review of the literature

Autopsy findings for a premature infant with terminal deletion of 6p [46, XY, del(6)p23] are reported. The infant had multiple dysmorphic features, cleft lip and palate, abnormal external genitalia, diverticulum of right ventricle, and hydrocephalus with cerebellar hypoplasia, with absent corpus callosum and cerebellar vermis.     

Genetic localization of Cd63, a member of the transmembrane 4 superfamily, reveals two distinct loci in the mouse genome

We describe a patient with Philadelphia chromosome (Ph1)-positive acute lymphoblastic leukaemia (ALL) who developed it 2.5 years after being diagnosed with myelodysplastic syndrome (MDS). The patient initially had refractory anaemia (RA), but progressed to refractory anaemia with excess blasts (RAEB) 2 years later, that terminated in ALL. An immunophenotypic analysis of the lymphoblasts revealed CD10 and CD19 positive cells. The karyotype was normal 46,XY in RA phase, 46,XY,20q-during the RAEB phase, and 46,XY,t(9;22)(q34;q11),20q-during the ALL phase. Furthermore, p190 BCR-ABL mRNA was detected in the ALL blasts. These findings indicate that this ALL arose from the MDS clone through multiple cytogenetic evolutions, the final event of which was the acquisition of p190 BCR-ABL type Ph1.     

Febrile episodes in children with cancer in the United Arab Emirates

We report the first patient with a partial trisomy and a partial monosomy of the long arm of chromosome 4: 46,XY, inv dup(4)(pter-->q32::q32-->q26), del(4)(q32-->qter). The boy died from a complex cardiac defect (monoventricle, monoatrium and truncus arteriosus) in combination with a diaphragmatic hernia. In addition he had preaxial polydactyly of the right hand. We compare the clinical features with data from the literature. The phenotype of the patient mainly resembles that in patients with a terminal deletion 4q32.     

Receptor-activated Ca2+ influx via human Trp3 stably expressed in human embryonic kidney (HEK)293 cells. Evidence for a non-capacitative Ca2+ entry

Gonadal differentiation involves a complex interplay of developmental pathways. The sex determining region Y (SRY) gene plays a key role in testis determination, but its interaction with other genes is less well understood. Abnormalities of gonadal differentiation result in a range of clinical problems. 46,XY complete gonadal dysgenesis is defined by an absence of testis determination. Subjects have female external genitalia and come to clinical attention because of delayed puberty. Individuals with 46,XY partial gonadal dysgenesis usually present in the newborn period for the valuation of ambiguous genitalia. Gonadal histology always shows an abnormality of seminiferous tubule formation. A diagnosis of 46,XY true hermaphroditism is made if the gonads contain well-formed testicular and ovarian elements. Despite the pivotal role of the SRY gene in testis development, mutations of SRY are unusual in subjects with a 46,XY karyotype and abnormal gonadal development. 46,XX maleness is defined by testis determination in an individual with a 46,XX karyotype. Most affected individuals have a phenotype similar to that of Klinefelter syndrome. In contrast, subjects with 46,XX true hermaphroditism usually present with ambiguous genitalia. The majority of subjects with 46,XX maleness have Y sequences including SRY in genomic DNA. However, only rare subjects with 46,XX true hermaphroditism have translocated sequences encoding SRY. Mosaicism and chimaerism involving the Y chromosome can also be associated with abnormal gonadal development. However, the vast majority of subjects with 45,X/46,XY mosaicism have normal testes and normal male external genitalia.     

Lesions of the collateral ligaments of the ankle: diagnosis and follow-up with magnetic resonance and ultrasonography]

Routine chromosomal analysis using GTG-banding alone showed a mosaic terminal deletion of 6q in a 14-week-old boy with developmental retardation, facial anomalies, agenesis of corpus callosum, cleft palate, hypotonia, short neck and pterygium colli, and minor anomalies of hands and feet. Discrepancies between the clinical findings on our patient and those described in the literature on patients having terminal deletions led to a more precise analysis of the karyotype. Reverse painting was performed on normal G-banded metaphases for exact determination of the breakpoints and on metaphases of the patient for evaluation of mosaicism. A DNA library that was obtained by microdissection of three deleted chromosomes 6 was used as a painting probe. Subsequent DNA amplification was performed with the help of topoisomerase-pretreated degenerate oligonucleotide primers. Unexpectedly, the hybridization pattern on normal metaphase chromosomes revealed an interstitial deletion with breakpoints at 6q25.1 and 6q27 instead of a terminal deletion. Hybridization on metaphases of the patient showed one deleted chromosome 6 in all metaphases analyzed at a higher resolution rather than mosaicism as previously assumed [karyotype, 46,XY,del(6)(q25.1 --> q27)]. We assume that in the single cases of 6q- described in the literature the deletions are misclassified. This might be due to difficulties in distinguishing between interstitial and terminal deletions at 6q and in precisely defining chromosomal breakpoints after GTG-banding alone.     

Prenatal diagnosis of ring chromosome 6 in a fetus with hydrocephalus

A patient with ring chromosome 6/monosomy 6 mosaicism is presented. At 25 weeks' gestation, ultrasound examination demonstrated fetal hydrocephalus. Amniocentesis was performed. The fetal karyotype was 45,XY,-6/ 45,XY,-6,+f/46,XY,r(6)(p25q27). Delivery of this male infant was by Caesarean section at 37 weeks' gestation. The karyotype in peripheral blood lymphocytes was 46,XY,r(6)(p25q27) with no indications of mosaicism. The infant had hydrocephalus which required treatment with a ventriculoperitoneal shunt at 22 days of age. He had no other obvious serious congenital anomalies. By 17 months he had developed microcephaly, seizures, severe bilateral hearing loss, and global development delay. This patient provides information regarding phenotypic variability of ring chromosome 6 and also reinforces the importance of offering amniocentesis if fetal hydrocephalus is detected as an isolated anomaly.     

A cytogenetic survey of 200 unclassifiable mentally retarded children with congenital anomalies and 200 normal controls

A cytogenetic survey was carried out on 200 patients with mental retardation and multiple congenital anomalies, and on 200 normal adult controls. Patients with a known syndrome were excluded from the survey. Chromosome analyses were carried out on 'blind-coded' slides using the ASG banding technique as the routine stain. After the initial analyses (at least 15 cells per person) the slides were decoded, destained and reused for C and Q band polymorphism studies. Five major chromosome abnormalities were detected in the patient group during the survey. They included three patients with de novo, apparently balanced, reciprocal translocations, karyotypes 46,XY,rcp(3;16)(q21;p12); 46,XX,rcp(5;8)(p15;q22); and 46,XX,rcp(5;12)(p11;q24); one with karyotype 47,XX,+mar and one with karyotype 46,XX,der(13),t(13;?)(q34;?). One additional patient whose karyotype in lymphocytes was 46,XX,inv(9)(p11;q13) was found to have a mosaic karyotype 46,XX,inv(9)(p11;q13)/46,XX,inv(9) (p11;q13), der(12),t(12;?)p13;?) in cultured skin fibroblasts. None of the 200 controls had a major chromosome abnormality. From the combined results of this and previous surveys it is now apparent that about 6.2% of the unclassifiable mentally retarded patients with three or more congenital anomalies and about 0.7% of the controls reveal major chromosome abnormalities.     

Israeli dentists: a survey of infection control office practices and care of medically compromised patients

A familial complex chromosomal rearrangement (CCR) was ascertained through a mentally retarded, dysmorphic individual. Carriers of the CCR have the karyotype 46,XX or XY, t(6;15)(q16;q21), ins(3;6)(q12;q14q16), and malsegregation of the CCR resulted in loss of the segment 6q14 to 6q16 in the proband, and in an additional copy of the same segment in three members of the extended family. The proband has features similar to other reported cases with deletion of 6q1. The individuals with duplication of 6q14 to 6q16 have moderate mental retardation, short stature, obesity, microcephaly, brachycephaly, a short smooth philtrum, central hair whorl, simian creases, 5th finger brachydactyly and skeletal disproportion. In the 4-generation family, CCR carriers have a 20% empiric risk of phenotypically abnormal livebirths.     

Karyotypic changes in phyllodes tumors of the breast

Cytogenetic analysis of short-term cultures of five phyllodes tumors of the breast-classified as benign (one tumor), borderline malignant (two tumors removed from the same breast in 1991 and 1993), and malignant (two tumors)--revealed clonal changes with simple structural abnormalities in the benign tumor, the borderline malignant tumors, and one malignant tumor in which benign areas and areas of borderline malignancy were also present. In contrast, the malignant tumor without admixed borderline malignant or benign areas had a complex karyotype. The karyotype of the benign phyllodes tumor was 46,XX,del(12)(p11p12)/46,XX,t(8;18)(p11;p11)/46,XX. The first borderline malignant phyllodes tumor had t(3;20)(p21;q13) as the sole abnormality. When the tumor recurred, this was no longer the only clone detected and the tumor karyotype was now 46,XX,t(3;20)(p21;q13)/46,XX,t(9;10)(p22;q22)/46,XX,t(1;8) (p34;q24)/46,XX,del(11)(q22-23)/46,XX. The malignant/borderline malignant/benign tumor had t(1;6)(p34;p22) as the sole clonal abnormality. Finally, the karyotype of the malignant phyllodes tumor which contained no benign or borderline malignant areas was 42,XX,der(1)t(1;4)(q21;q21),der(3)t(3;17)(q29;q21), -4,i(8)(q10), -10, -13,i(13)(q10),der(14)t(1;14)(q21;p11),der(14)t(4;14) (p12;p11), -17/80-90,idemx2, +del(1)(q12), +i(1)(p10), +dic(5;5)(p14;p14), +i(6)(p10), +del(7)(p11), +dup(7)(q11q36), +i(15)(q10),inc/46,XX. The findings indicate some cytogenetic similarities between benign/borderline malignant phyllodes tumors and fibroadenomas of the breast, presumably reflecting similar pathogenetic mechanisms in the two types of mixed-lineage tumors.     

Constitutional mosaicism for a chromosome 9 inversion resulting in recombinant aneusomy in an offspring

We report on a case of constitutional mosaicism for a large pericentric inversion of chromosome 9 in a man whose daughter had recombinant aneusomy resulting in partial 9q duplication and partial 9p deletion. At age 6 months, the girl was evaluated because of congenital anomalies [corrected] and developmental delay. Chromosomal analysis on this infant showed a derivative chromosome 9 which was later determined to be a recombinant chromosome with trisomy of 9q34.1-->qter and monosomy of pter-->9p24. Chromosomal analysis in her father showed the presence of two cell lines; 75% of lymphocytes had a 46,XY pattern, and 25% had a 46,XY,inv(9)(p24q34.1) karyotype. The infant's physical findings represent a composite of the reported cases of both trisomy 9q34.1-->qter and monosomy pter-->9p24. The infant's father was phenotypically and cognitively normal. This case broadens the spectrum of reported cases of mosaicism for an autosomal structural rearrangement generating unbalanced gametes, and further supports the tenet that constitutional mosaicism has clinical relevance for genetic counseling.     

A case of HTLV-I associated polyradiculoneuropathy and cerebral white matter lesions with smouldering type adult T cell leukemia

Chronic myelogenous leukemia (CML) is associated with an acquired karyotypic abnormality, the Philadelphia (Ph) chromosome, in 95% of cases. The Ph chromosome is the product of a balanced translocation that results in a hybrid gene that is considered essential for the pathogenesis of this disease. We have found a complex translocation involving chromosomes 9, 12, and 15 in a 42-year-old Haitian male with the clinical findings of CML. Complex translocations have been shown to result in the masking of the Ph chromosome. We used a mixture of two BCR-specific DNA probes for Southern blot analysis in order to test this hypothesis in our patient. High-molecular weight DNA was digested with the restriction enzymes BglII, BamHI and HindIII. The BglII digestion revealed the presence of two abnormal fragments of 3.9 and 3.0 kb and the BamHI digestion an abnormal 15-kb fragment. These data suggest there is a breakpoint in region 2 of M-bcr. The identification of this breakpoint confirms our hypothesis that a rearrangement involving 22q11 has occurred in the leukemic cells of our patient. A secondary translocation involving chromosomes 12 and 15 has hidden the effects of this translocation. Combined cytogenetic and molecular analysis establishes the karyotype of our patient as 46,XY,t(9;12;15;22)(q34;q12;q21;q11).     

Agonist and antagonist actions of (-)pindolol at recombinant, human serotonin1A (5-HT1A) receptors

Prenatal diagnosis and clinical follow up of a patient with mosaicism for anomalies of chromosome 18 are reported. The fetus appeared on ultrasound to have multiple anomalies, including clubbed feet, abnormal hand positioning, edema of the scalp, cleft palate, and polyhydramnios. The karyotype on amniocytes was 47,XY,+i(18p). Postnatally, the peripheral blood karyotype was 46,XY,+i(18q), whereas the skin fibroblast karyotype was 47,XY,+i(18p). The infant had many features consistent with those previously described in cases of tetrasomy 18p and some that were consistent with trisomy 18q.     

Pharmacological properties of traditional medicines. XXIV. Classification of antiasthmatics based on constitutional predispositions

A 13q isodisomy in a balanced karyotype: 45,XY,-13,-13, + i(13)(q10) was found in cultured amniocytes studied because of advanced maternal age. The isochromosome was monocentric and a new mutation as both parents had normal chromosomes. Fetal blood was studied to exclude 13-trisomy mosaicism. All (100) lymphocytes studied had the same karyotype with i(13)(q10) as the amniocytes. To determine the origin of the isochromosome, six microsatellite markers from 13q were analysed: D13S175, D13S166, D13S162, AC224, COLAC1 and D13S122. The results indicated that the i(13)(q10) was of paternal origin and isodisomic. The father had a risk of 1/20 for being a carrier for an autosomal recessive, progressive brain disorder, variant late infantile neuronal ceroid lipofuscinosis (CLN5). The risk for the fetus for this disorder of chromosome 13 was excluded by haplotype analysis. A healthy child was born at week 40 of pregnancy, supporting the idea that there are no paternally imprinted genes on chromosome 13q. Analysis of extra embryonal tissue (four samples studied) revealed the same balanced karyotype with the i(13)(q10)pat chromosome. According to the cytogenetic and molecular studies, the origin of the isochromosome 13 could be a transverse centromere cleavage at the paternal meiosis II or at an early mitosis.     

A case of true hermaphroditism with 45X/46XY mosaicism

The authors describe a case of true hermaphroditism of mainly female phenotype, ambiguous genitalia, and ovotestis. The cytogenetic revealed 45X/46XY mosaicism and an absence of Barr bodies.     

Granulocyte colony-stimulating factor (G-CSF) mediated mobilization of leukemic cells in Philadelphia chromosome positive acute lymphoblastic leukemia expressing myeloid antigens (my+Ph+ALL)

We report a male infant who has impaired penile development, hypospadias, and mild developmental delay with a 46,XY,t(1;18)(q32.1;q22.1) karyotype. Fluorescent in situ hybridization (FISH) was performed to more precisely map the translocation breakpoint. The translocation breakpoint maps to a region that has been implicated in genitourinary malformations in the 18q- syndrome. This case report suggests that a gene involved in genitourinary development maps at or near the chromosome 18 translocation breakpoint.     

Cytogenetic profile of lymphoma of follicle mantle lineage: correlation with clinicobiologic features

Conventional chromosome analysis (CCA) and interphase fluorescence in situ hybridization (FISH) was performed in 42 patients with mantle-cell lymphoma (MCL), with BCL1 rearrangement. The t(11;14)(q13;q32) or 11q abnormalities were detected by CCA in 34 cases, 20 of which had additional aberrations. A normal karyotype was observed in 8 cases. Probes detecting the chromosome aberrations that were observed in at least 3 cases by CCA, ie, +12, 13q14 deletion, and 17p deletion, were used for interphase FISH analysis. FISH detected total or partial +12, 13q14 deletion and 17p- in 28.5%, 52.4%, and 26% of the cases, respectively. The presence of these anomalies was not a function of karyotype complexity. Based on the results of CCA/FISH, three groups of increasing karyotype complexity were recognized: group 1, including 11 patients without detectable aberrations in addition to BCL1 rearrangement; group 2, including 14 patients with 1 to 2 additional anomalies; and group 3, including 17 patients with three or more additional anomalies. Clinical parameters associated with shorter survival were male sex (P =.006) and primary lymph-node involvement compared with primary bone marrow involvement (P =.015). Trisomy 12 was the only single cytogenetic parameter predictive of a poor prognosis (P =.006) and the best prognostic indicator was the derived measure of karyotype complexity (P <.0001), which maintained statistical significance in multivariate analysis (P<.0001). We arrived at the following conclusions: 13q14 deletion occurs at a high incidence in MCL; 17p deletion and total/partial +12 are relatively frequent events in MCL, the latter aberration being associated with a shorter survival; and the degree of karyotype complexity has a strong impact on prognosis in this neoplasia.     

Cytogenetic and molecular-cytogenetic investigation of Rett syndrome: analysis of 31 cases

Rett syndrome (RS) is a progressive encephalopathy restricted to the female sex. In the present study we investigated 30 females and one male with RS by cytogenetic and molecular-cytogenetic methods. We failed to identify any chromosomal rearrangements within the female groups and no correlation between fra(X)(p22) and RS in either the female group or the male. The boy with RS has karyotype 46,XY/47,XXY with abnormal cell clone (47,XXY) in 6-12% of his lymphocytes (revealed by fluorescence in situ hybridization analysis (FISH) of interphase cells with chromosome X-specific DNA probe). Our results indicated a possible connection between RS and X-chromosome replication disturbance. A late-replicating X-chromosome with a specific banding pattern (type 'C') has been observed in RS patients only. We propose to analyse the X-chromosome replication pattern as a test for confirmation of RS at preclinical diagnosis.     

A case of distal 9q trisomy syndrome associated with an unusual inheritance of ABO blood type

A male infant with distal 9q trisomy syndrome associated with an unusual inheritance of ABO blood type is reported. His clinical features were concordant with those of distal 9q trisomy syndrome. His karyotype was 46,XY, -10, +der (10) t(9;10) (q22.3;q24.3) confirmed by G-banding and high resolution methods. His father had the balanced translocation t(9;10) (q22.3;924.3). He had a blood type of AB, despite his father's blood type of AB and his mother's blood type of O. The gene of ABO blood type is located at 9q34.1-q34.2. Therefore, he would have received A and B type alleles from his father. 9q trisomy syndrome should be carefully investigated with ABO blood type.