Multiple structural chromosome rearrangements, including del(7q) and del(10q), in an adenocarcinoma of the prostate

Cytogenetic analysis of a poorly differentiated adenocarcinoma of the prostate revealed the complex karyotype: 76-86,X, -Y, +X, +X, +del(X)(q24), +t(1;10) (p22;q24), -2, +der(2) t(1;2;?)(p32;q24p13;?), +der(2)t(1;2;?) (p32;dq24p13;?), +3, +3, +4, +5, +5, +6, +7, +del(7) (q22), -8, +der(8)t(8;?)(q24;?), + der(8)t(8;?)(q24;?), +9, +10, +10, +der(10)t (1;10)(q24;q22), +del (10)(q23), +11, +11, +12, +der(12)t(4;12)(q11;p11), +der(12)t(4;12) (q11;p11), +14, +der (15)t(1;15)(q21;p11), +t(16;?) (q21;?), +17, +18, +19, +19, +20, +20, +21, +22, +2-5 mar. The karyotype contains deletions of both 7q and 10q, abnormalities that also have been described previously in prostatic adenocarcinomas, and which hence may represent primary chromosomal rearrangements in this type of cancer.     

Complex karyotypic anomalies, including an i(5p) marker chromosome, in malignant mixed mesodermal tumor of the ovary

Cytogenetic analysis of short-term cultures initiated from an ovarian malignant mixed mesodermal tumor yielded the following karyotype: 59-61, XX,t(1;?)(p36;?), +t(1;9) (q43;q21), +t(2;?)(p25;?), +i(5p), +i(5p), +7, +t(7;?)(p13;?), +8,der(11) (pter----cen----q23::q13----q23::q13----q23::?), +12, + der(13)t(13;15)(q21;q15), -15,der(16) (16qter----cen----16p13::hsr::8q21----8qter), +19, + der(20)t(X;20)(q13;p13), -22, +4 - 6mar. Because the only other cytogenetically characterized ovarian neoplasm of this rare histopathologic subtype also had a small metacentric marker interpreted as an isochromosome for the short arm of a B-group chromosome, we suggest that i(5p) constitutes a nonrandom anomaly in mixed mesodermal tumors.     

Significance of chromosomal abnormalities in a malignant giant cell tumor of bone.

Cytogenetic analysis of a malignant giant cell tumor of the sacrum from a 62-year-old female revealed the following chromosomal complement: 47,XX, -1, -11, +22,del(2)(p22),t(7;7) (p22;q32), +der(1)t(1;11;21)(p32;q13;q22), +der(19)t(19;?)(q13.4;?), der(8)t(8;?)(p11;?), der(7)t(17;?)(p13;?). Metaphase cells with 92-127 chromosomes sharing identical structural abnormalities detected in the near-diploid cells were also observed. Several of these abnormalities have previously been described in the benign giant cell tumors supporting a direct relationship between these benign and malignant neoplastic counterparts.     

Comparative cytogenetic analysis between cyclophosphamide-sensitive and -resistant lines of acute myeloid leukemia in the Lewis Brown Norway hybrid rat

An animal model of acute myeloid leukemia (AML) has been developed in the Brown Norway (BN) rat and has successfully been introduced into the Lewis x BN F₁ hybrid (LBN) and designated LBN AML. The original LBN AML is sensitive to the chemotherapeutic agent cyclophosphamide (CY). Recently, a CY-resistant cell line of LBN AML has been established. To characterize this animal model of human leukemia better, we analyzed and compared the chromosomal makeup of both the CY-sensitive and CY-resistant LBN AML lines. The CY-sensitive LBN AML cultures contained two cell lines—line 1 (88%):41, XX, –1, –2, –9,del(12)(q16),+der(1)t(1;?8)(p13;q31),+der(2)t(2;9)(p11;q11); and line 11 (12%): 41,XX,–1,–2,–9,del(12),del(20)(q13)+der(1)t(1;?8)(p13;q31),+der(2)t(2;9)(p11;q11). The recently developed CY-resistant AML cells contained two cell lines—line 1 (88%): 41,XX,–1,–2,–9,del(3)(q36q42.1),del(4)(q42.2),?t(5;?)(q35;?),?t(8;?)(q24;?),del(12)(q16),+der (1)t(1;?8)(p13;q31),+der(2)t(2;9)(p11;q11); and line II (12%): 42,XX (probably represents host contamination). The new chromosomal aberrations in the CY-resistant line 1 [del(3)(q36q42.1),del(4)(q42.2),?t(5;?)(q35;?), and ?t(8;?)(q24;?)] suggest a possible interrelationship between these secondary karyotypic abnormalities and acquisition of resistance to the chemotherapeutic agent.     

Multiple apparently unrelated clonal chromosome abnormalities in a squamous cell carcinoma of the tongue

We have cytogenetically examined short-term cultures from a squamous cell carcinoma of the tongue, a tumor type in which chromosome aberrations hitherto have not been reported. No less than 12 pseudodiploid clones were detected, giving the tumor karyotype 46,X,der(X)t(X;1)(q26;p32),der(1)(Xqter→Xq26::1p32→cen→1q42:),del(13)(q11q21),t(15;?) (q26;?)/46,XX,t(1;?)(p34;?),inv(2)(p21q11)/46,XX,t(1;10)(p32;q24)/46,XX,+der(1)(12pter→ 12p11::1p11→cen→1q32::11q13→11q32→1q42:),del(11)(q13q22), - 12, der(17)t(1:17) (q42;p13)/46,XX,inv(1)(p22q44)/47,XX,del(1)(q32),der(17)t(1:17)(p22;q25),der(1)inv(1) (q25q44)t(1;17)(p22;q25),ins(14;7)(q11;q22q36), + 14/46,XX,t(1;4)(q23;q35)/46,XX,t(1;21) (q25;q22),t(2;10)(q31;q26),t(22;?)(q12;?)/46,XX,del(1)(q32)/46,XX,t(1;8)(q44;q21)/46,XX, t(2;21)(q11;p11)/46,XX,t(9;11)(q34;q13). The large number of apparently unrelated abnormalities leads us to suggest that the carcinoma may have been of multiclonal origin.     

Complex karyotypic anomalies in a bizarre leiomyoma of the uterus

Cytogenetic investigation of short-term cultures from a bizarre leiomyoma of the uterus, a tumor type not hitherto karyotypically characterized, revealed two abnormal clones with multiple complex rearrangements. Three-fourths of the aberrant cells were hypodiploid with the composite karyotype 38–44, XX,?6,?7,?10,?11,+20,?22, r(1), der(2) (:2p23→cen→2q13::1q21→1qter), der(2)t(2;9)(p21;q13), t(5;?)(q35;?), t(5;?),(q35;?), + der(5)t(5;15)(q11;q15), der(8)t(8;11)(q24;q13), t(15;?)(p12;?), der(16)t(12;16)(q13;p13),+r,+mar. The remaining abnormal mitoses were hypotetraploid, with chromosome numbers ranging from 74 to 86. These massively rearranged cells showed the same markers that were found in the hypodiploid clone, but in duplicate, indicating that this clone had arisen through polyploidization of hypodiploid cells. Flow cytometry revealed a DNA index of 1.03.     

Chromosome abnormalities in a pancreatic adenocarcinoma

Short-term cultures initiated from a pancreatic adenocarcinoma were cytogenetically investigated. The composite karyotype was 74-76,XX,+X,+2,+3,+del(3)(p21),+5,+5,+der(7) t(1;7)(q21;p22),+der(7),del(8)(p21),+del(8)(p21),+der(8)t(8;?)(q24; +),+9,+9,+10,+10,+11,+11,+12,+13,+14,+der(14)t(14; +)(p11;?),+der(16)t(15;16)(q11;p13),+der(16),+der(17)t(17;?) (p11;?),+der(17),+18,+20,+20,-21,-21,+22,+22,+1-3mar. A comparison with the few previously cytogenetically characterized cases of this tumor type reveals no consistent abnormalities.     

Endometrial stromal sarcoma with clonal complex chromosome abnormalities. Report of a case and review of the literature.

Only eleven endometrial stromal sarcomas (ESS) with clonal chromosomal abnormalities have been reported in the literature. Of these, four have been reported to harbor the t(7;17) translocation. We report here an additional ESS that exhibited clonal complex chromosome abnormalities not described earlier: 38,XX,-1,del(1)(q11),-2,add(2)(p13),-3,der(4)add(4)(p12)psu dic(4;14)(q35;q11.2), add(6)(p21.3),add(7)(q22),del(7)(p11.2p13),-8,-9,add(9)(q34),- 10,add(10)(q24),-11,-11,ins(12;?) (q13;?),-14,-14,-15,ins(15;?)(q22;?),add(16)(q22),add(17)(q11.2),- 18,der(18)t(7;18)(q11.2;p11.2),-19, add(20)(p13),add(21)(p11.2),-22,add(22)(p11.2),+6mar in metaphase cells from primary short-term culture.     

Chromosome analyses in chronic lymphocytic leukemia and related B-cell neoplasms

Chromosome analyses were performed by routine G-banding in 29 patients with B-cell chronic lymphocytic leukemia (B-CLL), six with immunocytoma (IC), three with centroblastic-centrocytic (cb-cc) lymphoma, and one with hairy cell leukemia (HCL). Ages of the patients were between 46 and 81 years (mean, 63 years). 12-O-tetradecanoyl-phorbol-13-acetate (TPA) was used as a mitogen to stimulate leukemic B-cells in 72-hour cultures. Twenty-one patients had one or more chromosomal abnormalities; and in 13 patients, they were clonal; 18 patients had a normal karyotype. Seven patients had trisomy 12 (three B-CLL, two IC, two cb-cc lymphoma); two (B-CLL) had it as the sole abnormality. One patient with B-CLL had trisomy 18 as the sole abnormality, and one with IC had trisomy 18 in combination with trisomy 19. One patient with B-CLL had t(1;6)(p36;p21) as a clonal structural abnormality. A t(11;14)(q13;q32) was consistently observed in one patient with cb-cc lymphoma together with inv(1) (p22p36), der(4)t(4;?)(p16;?), del(6)(q13) and other variable changes. One patient with morphologically atypical B-CLL had t(1;11)(p36;q13) together with der(X)t(X;?)(q26;?), der(3)t(3;?)(q29;?), der(8)t(4;8)(q12;q24.1) and additional variable changes. Both patients with these complex karyotypes were in an advanced stage of disease (Binet stage C) and died within 3-6 months after chromosome analysis.     

Cytogenetic findings in a pleomorphic xanthoastrocytoma

We report a pleomorphic xanthoastrocytoma with an abnormal clonal cell line of 48,XY, +3, +5, -20, -22, +der(7)t(7;?)(p22;?), +der(20)t(15;20)(q11;q13).     

Clonal chromosome aberrations in a keratoacanthoma and a basal cell papilloma

Clonal chromosome abnormalities were found in short-term cultures from two epithelial skin tumors, a basal cell papilloma and a keratoacanthoma. The three-way translocation t(2;6;11)(q21;q27;p13) was the sole clonal rearrangement in the basal cell papilloma. The karyotype of the keratoacanthoma was more complex: 46,XX,der(2)(2pter----2p13::2p11----cen----2q37: :5q33----5qter),der(2) (:2p13----cen----2q37::6q23----6qter),der(5)t(2; 7;5)(q37;q11;q33),der(6) (6pter----cen----6q23::2p13----2pter),der(7)t(2; 7;5)(q37;q11;q33), del(13)(q11q14). In addition, several nonclonal structural changes were seen in both tumors.     

Cytogenetic changes at 11q11, 11q23, and 17q11 in myelodysplastic syndrome

Cytogenetic studies were performed on two patients with myelodysplastic syndromes. One patient was a 68 year old Japanese male in whose bone marrow cells two translocations were established, i.e., t(4;11)(q13;q23) and t(11;17)(q11?;q11), as well as other karyotypic changes (-6,-18,15p+). The other patient was a 74 year old white male whose bone marrow cells showed six marker chromosomes, i.e., der(5),t(5;17)(q12;q11), der(6),t(6;5)(q27;q22), der(8),t(8;11;?)(q11;q11----q23;?), der(11),t(11;?)(q11;?), an isochromosome of the long arm of chromosome #8, and a small G-group sized marker chromosome of unknown origin. Though the translocation patterns in the abnormal cells in these two cases were different, the breakpoints of the marker chromosomes were almost the same, i.e., 11q11, 11q23, and 17q11. Also, changes of chromosome #6 were observed; the first case showed monosomy 6 and the second a 6q+ marker chromosome. In these two cases of myelodysplastic syndromes, common sites of chromosome breakage and reunion of 11q23 and 17q11 were close to recently established sites of human cellular oncogene homologs, c-ets (11q23) and c-erbA (17q21----24). These associations draw attention to a possible relationship between chromosome changes in myelodysplastic syndromes and oncogene (or other gene) activation and/or dysfunction.     

Cytogenetic findings in a case of pediatric glioblastoma.

We report a patient with glioblastoma multiforme (GBM) which showed stable and unstable telomeric associations involving the short arms of chromosomes 4 and 7. The karyotype was hyperdiploid, with chromosome numbers ranging from 84 to 87 in all cells, and showed a single stemline with variations in the number of marker chromosomes, teleomeric associations, and double minutes (dmin). The karyotype designation is 83-86,XX,-X,rea(X),-4,tas(4;7)(p16;?p22),der(6)t(6;?)(p21;?), -8, -9, der(9)t(9;?)(?p11;?), dup(9)(p12p23), -10 x 2, del(10)(p11), -11,del(11)(p11), -12, der(12)t(12;?) (p13;?),-13, -14 x 2,der(14)t(14;?) (p11;?), -16 x 2, -19, -21 x 2, -22 x 2, + 9-13mar, + dmin. Loss of the short arm of chromosome 10, structural aberrations of the short arm of chromosome 9, and dmin are consistent findings in GBM, whereas the high chromosome number is less common. Chromosome instability associated with the phenomenon of telomeric association/fusion has not been reported in GBM.     

Clonal chromosome abnormalities in two liposarcomas

Two liposarcomas were analyzed with chromosome banding technique. The sole chromosomal abnormality in one of the tumors, a mixed type (myxoid and round cell) liposarcoma, was t(12;16)(q13;p11), a rearrangement previously reported to be associated with myxoid liposarcoma. The other tumor, a pleomorphic liposarcoma, displayed massive numerical rearrangements (modal chromosome number 94-112), and numerous, mostly unidentifiable, marker chromosomes. The following clonal structural aberrations were recognized: del(1)(p22), del(1)(q23), t(7;?)(p22;?), i(17q), and t(19;?)(q13;?).     

Cytogenetic abnormalities in a squamous cell carcinoma of the penis.

Cytogenetic findings in a squamous cell carcinoma (SCC) of the penis in a 60-year-old patient was observed for the first time. The stemline karyotype of the tumor was 46,XY,del(2) (q33q36),der(4)t(4;?)(p16;?),der(5;15)(q10;q10),der(8)t(8;?13)(p21 ;?),-13,- 13,-15,+3mar.     

Reciprocal translocation t(12;22)(q13;q13) in clear-cell sarcoma of tendons and aponeuroses.

Clearcell sarcoma is a rare soft tissue sarcoma that displays certain similarities to malignant melanoma. In this paper we describe the karyotypic findings and in vitro growth characteristics of a shorttermcultured clearcell sarcoma. The cultured tumor cells had preserved immunohistochemical characteristics and certain ultrastructural features of the primary tumor, including positivity for vimentin, S-100 protein, and a melanomaassociated antigen, supporting the authenticity of the cultured cells. Cytogenetic analysis revealed an abnormal stemline karyotype of 49,XY, –1, + 8, + 8, + 12, + der(l)t(1;?)(p36.1 –.3;?), t(12,22)(q13;q13). A similar or identical t(12;22) was recently reported in two of four clear-cell sarcomas. It is suggested that the t(12;22)(q13;q13) is a primary cytogenetic abnormality in clear-cell sarcoma and distinguishes this tumor type from malignant melanoma.     

Recessive cancer genes in meningiomas? An analysis of 31 cases

Cytogenetic studies on 31 human meningiomas revealed clonal abnormalities in 14 of them. Monosomy 22 was present in three cases as the only abnormality, and in five it was associated with monosomy 18, monosomy 14, loss of X, loss of Y, and trisomy 20, respectively. We found a number of rearrangements involving chromosome #22: an i psu dic(22)(pter----q11::q11----pter) in two cases and a t(18;22)(q12;q11) in another case. Two cases showed a complex translocation involving #7 and #14: t(2;7;14)(q23;q36;q22) and t(1;7;14)(q25;q32;q22), respectively. Other clonal chromosome abnormalities were del(1p) (present in two cases); der(9)t(9;?)(q34;?); der(7)t(7;?)(q31;?); der(22)t(22;?)(q11;?); and a 9p+ chromosome. The relevance for the pathogenesis of human meningiomas of these chromosome anomalies is also discussed with reference to the previous literature. The possible involvement of recessive cancer genes present on the long arm of chromosome #22 is also discussed.     

Cytogenetic study of malignant triton tumor: a case report

Malignant triton tumor (MTT) is a highly malignant neoplasm, classified as a variant of malignant peripheral nerve sheath tumor (MPNST) with rhabdomyoblastic differentiation. Few cytogenetic studies of MTT have been reported using conventional cytogenetic analysis. Here, we report a comprehensive cytogenetic study of a case of MTT using G-banding, Spectral Karyotyping(), and fluorescence in situ hybridization (FISH) for specific regions. A complex hyperdiploid karyotype with multiple unbalanced translocations was observed: 48 approximately 55,XY,der(7)add(7)(p?)dup(7)[2],der(7) t(7;20)(p22;?)ins(20;19)[5],der(7)ins(8;7)(?;p22q36)t(3;8)t(8;20)[15],-8[5],-8[19],r(8)dup(8), +der(8)r(8;22)[4],-9[9],der(11)t(11;20)(p15;?)ins(20;19)[22],der(12)t(8;12)(q21;p13)[21],der(13) t(3;13)(q25;p11),-17,-19,der(19)t(17;19)(q11.2;q13.1),-20,-22,+4 approximately 7r[cp24]/46,XY[13]. The 1995 International System for Human Cytogenetic Nomenclature was followed where possible. Note that breakpoints were frequently omitted where only SKY information was known for a small part of an involved chromosome. Our analysis revealed some breakpoints in common with those previously reported in MTT, MPNST, and rhabdomyosarcoma, namely 7p22, 7q36, 11p15, 12p13, 13p11.2, 17q11.2, and 19q13.1. FISH showed high increase of copy number for MYC and loss of a single copy for TP53.     

Cytogenetic study of a spindle-cell rhabdomyosarcoma of the parotid gland

The cytogenetic analysis of a spindle-cell rhabdomyosarcoma of the parotid gland in a 6-year-old boy is reported. The tumor cells showed an abnormal karyotype with a hypotriploid modal chromosome number and clonal structural rearrangements affecting chromosomes 1, 8, 12, 21, and 22. The tumor karyotype was: 59, XY, -1, -3, -4, -5, -6, +8, +8, +del(8)(q22q24), -9, -10, del(12)(q13), -15, -16, -17, -18, der(21)t(12;21)(p11;p11), -22, der(22)t(1;22)(q12;p11).     

Clonal structural chromosome aberrations in fibrous dysplasia

Cytogenetic analysis of short-term cultures from a case of monostotic fibrous dysplasia in a 14-year-old girl revealed multiple clonal structural rearrangements with evidence of clonal evolution. The karyotype was 46,XX,del(3)(q27),add(10)(q22), add(12)(p13)/46,idem,t(3;8)(p21;q13),add(10)(q26),der(15)del(15)(q15q22)ins(15;?)(q15;?)/46,idem,-X, + 2,t(3;8),add(10),der(15). The finding of clonal structural aberrations suggests that fibrous dysplasia is a neoplastic lesion which develops as the result of somatic mutations.