Molecular cytogenetic analysis of head and neck squamous cell carcinoma: By comparative genomic hybridization, spectral karyotyping, and expression array analysis

Background A combination of molecular cytogenetic and expression array analysis has been performed on head and neck squamous cell carcinoma (HNSCC) of the oral cavity and supraglottis. These studies were performed to identify consensus regions of chromosomal imbalance and structural rearrangement to...

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Published inHead & neck Vol. 24; no. 9; pp. 874 - 887
Main Authors Squire, Jeremy A., Bayani, Jane, Luk, Catherine, Unwin, Lianne, Tokunaga, Jason, MacMillan, Christina, Irish, Jonathan, Brown, Dale, Gullane, Patrick, Kamel-Reid, Suzanne
Format Journal Article
LanguageEnglish
Published New York Wiley Subscription Services, Inc., A Wiley Company 01.09.2002
Subjects
Carcinoma, Squamous Cell - genetics
Chromosome Aberrations
Chromosome Banding
Cytogenetic Analysis - methods
DNA, Neoplasm - genetics
Down-Regulation
Gene Expression Profiling
Head and Neck Neoplasms - genetics
Humans
Karyotyping - methods
Nucleic Acid Hybridization
Oligonucleotide Array Sequence Analysis
Pilot Projects
RNA, Neoplasm - genetics
Tongue Neoplasms - genetics
Tumor Cells, Cultured
Up-Regulation
Online AccessGet full text
ISSN1043-3074
1097-0347
DOI10.1002/hed.10122

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Abstract Background A combination of molecular cytogenetic and expression array analysis has been performed on head and neck squamous cell carcinoma (HNSCC) of the oral cavity and supraglottis. These studies were performed to identify consensus regions of chromosomal imbalance and structural rearrangement to determine whether genes located in these genomic regions are subject to alterations in gene expression. Such combinatorial studies may help to identify recurrent patterns of altered gene expression in the context of specific chromosomal changes. Methods Comparative genomic hybridization (CGH) was used to identify net genomic imbalances and spectral karyotyping (SKY) to visualize the numerical and structural chromosomal changes in metaphase preparations. Expression microarray analysis of HNSCC cell lines and primary tongue tumors was also performed to identify genes that were commonly overexpressed or underexpressed compared with adjacent normal tissue. Results CGH detected gains at 3q (64%), 8q (45%) and 6q22‐qter (45%) and losses at 18q22‐qter (27%). SKY analysis of seven cell lines identified frequent structural rearrangement of the following chromosomal regions: 3q, 5p13–q11.2, 5q32–q34, 7p12–q11.2, 8p12–q12, 9p, 10p, 13p13–q12, 14q11.1–q11.2, 15p13–q11.2, 16p11.1–q11.1, 18q22–q23, and 22p13–q11.2. Consistent deregulation of interleukin 8, integrin alpha‐6, c‐MYC, epithelial discoidin domain receptor 1, and sterol regulatory element binding protein were apparent by expression analysis. Interestingly, some of these genes map to regions of genomic imbalance and chromosomal rearrangement as determined by our molecular cytogenetic analysis. Conclusions In this small study, a combinatorial analysis using SKY, CGH, and microarray provides a model linking the changes in gene expression to changes in chromosomal dosage and structure. This approach has identified a subset of genetic changes that provide new opportunities for investigating the genetic basis of tumorigenesis in HNSCC. © 2002 Wiley Periodicals, Inc. Head Neck 24: 874–887, 2002
AbstractList A combination of molecular cytogenetic and expression array analysis has been performed on head and neck squamous cell carcinoma (HNSCC) of the oral cavity and supraglottis. These studies were performed to identify consensus regions of chromosomal imbalance and structural rearrangement to determine whether genes located in these genomic regions are subject to alterations in gene expression. Such combinatorial studies may help to identify recurrent patterns of altered gene expression in the context of specific chromosomal changes. Comparative genomic hybridization (CGH) was used to identify net genomic imbalances and spectral karyotyping (SKY) to visualize the numerical and structural chromosomal changes in metaphase preparations. Expression microarray analysis of HNSCC cell lines and primary tongue tumors was also performed to identify genes that were commonly overexpressed or underexpressed compared with adjacent normal tissue. CGH detected gains at 3q (64%), 8q (45%) and 6q22-qter (45%) and losses at 18q22-qter (27%). SKY analysis of seven cell lines identified frequent structural rearrangement of the following chromosomal regions: 3q, 5p13-q11.2, 5q32-q34, 7p12-q11.2, 8p12-q12, 9p, 10p, 13p13-q12, 14q11.1-q11.2, 15p13-q11.2, 16p11.1-q11.1, 18q22-q23, and 22p13-q11.2. Consistent deregulation of interleukin 8, integrin alpha-6, c-MYC, epithelial discoidin domain receptor 1, and sterol regulatory element binding protein were apparent by expression analysis. Interestingly, some of these genes map to regions of genomic imbalance and chromosomal rearrangement as determined by our molecular cytogenetic analysis. In this small study, a combinatorial analysis using SKY, CGH, and microarray provides a model linking the changes in gene expression to changes in chromosomal dosage and structure. This approach has identified a subset of genetic changes that provide new opportunities for investigating the genetic basis of tumorigenesis in HNSCC.
A combination of molecular cytogenetic and expression array analysis has been performed on head and neck squamous cell carcinoma (HNSCC) of the oral cavity and supraglottis. These studies were performed to identify consensus regions of chromosomal imbalance and structural rearrangement to determine whether genes located in these genomic regions are subject to alterations in gene expression. Such combinatorial studies may help to identify recurrent patterns of altered gene expression in the context of specific chromosomal changes.BACKGROUNDA combination of molecular cytogenetic and expression array analysis has been performed on head and neck squamous cell carcinoma (HNSCC) of the oral cavity and supraglottis. These studies were performed to identify consensus regions of chromosomal imbalance and structural rearrangement to determine whether genes located in these genomic regions are subject to alterations in gene expression. Such combinatorial studies may help to identify recurrent patterns of altered gene expression in the context of specific chromosomal changes.Comparative genomic hybridization (CGH) was used to identify net genomic imbalances and spectral karyotyping (SKY) to visualize the numerical and structural chromosomal changes in metaphase preparations. Expression microarray analysis of HNSCC cell lines and primary tongue tumors was also performed to identify genes that were commonly overexpressed or underexpressed compared with adjacent normal tissue.METHODSComparative genomic hybridization (CGH) was used to identify net genomic imbalances and spectral karyotyping (SKY) to visualize the numerical and structural chromosomal changes in metaphase preparations. Expression microarray analysis of HNSCC cell lines and primary tongue tumors was also performed to identify genes that were commonly overexpressed or underexpressed compared with adjacent normal tissue.CGH detected gains at 3q (64%), 8q (45%) and 6q22-qter (45%) and losses at 18q22-qter (27%). SKY analysis of seven cell lines identified frequent structural rearrangement of the following chromosomal regions: 3q, 5p13-q11.2, 5q32-q34, 7p12-q11.2, 8p12-q12, 9p, 10p, 13p13-q12, 14q11.1-q11.2, 15p13-q11.2, 16p11.1-q11.1, 18q22-q23, and 22p13-q11.2. Consistent deregulation of interleukin 8, integrin alpha-6, c-MYC, epithelial discoidin domain receptor 1, and sterol regulatory element binding protein were apparent by expression analysis. Interestingly, some of these genes map to regions of genomic imbalance and chromosomal rearrangement as determined by our molecular cytogenetic analysis.RESULTSCGH detected gains at 3q (64%), 8q (45%) and 6q22-qter (45%) and losses at 18q22-qter (27%). SKY analysis of seven cell lines identified frequent structural rearrangement of the following chromosomal regions: 3q, 5p13-q11.2, 5q32-q34, 7p12-q11.2, 8p12-q12, 9p, 10p, 13p13-q12, 14q11.1-q11.2, 15p13-q11.2, 16p11.1-q11.1, 18q22-q23, and 22p13-q11.2. Consistent deregulation of interleukin 8, integrin alpha-6, c-MYC, epithelial discoidin domain receptor 1, and sterol regulatory element binding protein were apparent by expression analysis. Interestingly, some of these genes map to regions of genomic imbalance and chromosomal rearrangement as determined by our molecular cytogenetic analysis.In this small study, a combinatorial analysis using SKY, CGH, and microarray provides a model linking the changes in gene expression to changes in chromosomal dosage and structure. This approach has identified a subset of genetic changes that provide new opportunities for investigating the genetic basis of tumorigenesis in HNSCC.CONCLUSIONSIn this small study, a combinatorial analysis using SKY, CGH, and microarray provides a model linking the changes in gene expression to changes in chromosomal dosage and structure. This approach has identified a subset of genetic changes that provide new opportunities for investigating the genetic basis of tumorigenesis in HNSCC.
Background A combination of molecular cytogenetic and expression array analysis has been performed on head and neck squamous cell carcinoma (HNSCC) of the oral cavity and supraglottis. These studies were performed to identify consensus regions of chromosomal imbalance and structural rearrangement to determine whether genes located in these genomic regions are subject to alterations in gene expression. Such combinatorial studies may help to identify recurrent patterns of altered gene expression in the context of specific chromosomal changes. Methods Comparative genomic hybridization (CGH) was used to identify net genomic imbalances and spectral karyotyping (SKY) to visualize the numerical and structural chromosomal changes in metaphase preparations. Expression microarray analysis of HNSCC cell lines and primary tongue tumors was also performed to identify genes that were commonly overexpressed or underexpressed compared with adjacent normal tissue. Results CGH detected gains at 3q (64%), 8q (45%) and 6q22‐qter (45%) and losses at 18q22‐qter (27%). SKY analysis of seven cell lines identified frequent structural rearrangement of the following chromosomal regions: 3q, 5p13–q11.2, 5q32–q34, 7p12–q11.2, 8p12–q12, 9p, 10p, 13p13–q12, 14q11.1–q11.2, 15p13–q11.2, 16p11.1–q11.1, 18q22–q23, and 22p13–q11.2. Consistent deregulation of interleukin 8, integrin alpha‐6, c‐MYC, epithelial discoidin domain receptor 1, and sterol regulatory element binding protein were apparent by expression analysis. Interestingly, some of these genes map to regions of genomic imbalance and chromosomal rearrangement as determined by our molecular cytogenetic analysis. Conclusions In this small study, a combinatorial analysis using SKY, CGH, and microarray provides a model linking the changes in gene expression to changes in chromosomal dosage and structure. This approach has identified a subset of genetic changes that provide new opportunities for investigating the genetic basis of tumorigenesis in HNSCC. © 2002 Wiley Periodicals, Inc. Head Neck 24: 874–887, 2002
Author Irish, Jonathan
Unwin, Lianne
Bayani, Jane
Brown, Dale
Luk, Catherine
Tokunaga, Jason
Squire, Jeremy A.
MacMillan, Christina
Gullane, Patrick
Kamel-Reid, Suzanne
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  organization: Department of Medical Biophysics, The University of Toronto and The University Health Network, Toronto, Ontario, Canada
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  fullname: Luk, Catherine
  organization: Department of Laboratory Medicine and Pathobiology, The University of Toronto and The University Health Network, Toronto, Ontario, Canada
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  surname: Unwin
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  organization: Department of Laboratory Medicine and Pathobiology, The University of Toronto and The University Health Network, Toronto, Ontario, Canada
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  organization: Department of Otolaryngology, The University of Toronto and The University Health Network, Toronto, Ontario, Canada
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  organization: Department of Otolaryngology, The University of Toronto and The University Health Network, Toronto, Ontario, Canada
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  surname: Kamel-Reid
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BackLink https://www.ncbi.nlm.nih.gov/pubmed/12211052$$D View this record in MEDLINE/PubMed
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PublicationDate September 2002
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PublicationDate_xml – month: 09
  year: 2002
  text: September 2002
PublicationDecade 2000
PublicationPlace New York
PublicationPlace_xml – name: New York
– name: United States
PublicationTitle Head & neck
PublicationTitleAlternate Head Neck
PublicationYear 2002
Publisher Wiley Subscription Services, Inc., A Wiley Company
Publisher_xml – name: Wiley Subscription Services, Inc., A Wiley Company
References Boring C, Squire TS, Tong T. Cancer statistics. CA Cancer J Clin 1992; 42: 19-38.
Vokes EE, Liebowitz DN, Weichselbaum RR. Nasopharyngeal carcinoma. Lancet 1997; 350: 1087-1091.
Veldman T, Vignon C, Schrock E, Rowley JD, Ried T. Hidden chromosome abnormalities in haematological malignancies detected by multicolour spectral karyotyping. Nat Genet 1997; 15: 406-410.
Hong TM, Yang PC, Peck K, et al. Profiling the downstream genes of tumor suppressor PTEN in lung cancer cells by complementary DNA microarray. Am J Respir Cell Mol Biol 2000; 23 (3): 355-363.
Califano J, van der Riet P, Westra W, et al. Genetic progression model for head and neck cancer: implications for field cancerization. Cancer Res 1996; 56 (11): 2488-2492.
Dracopoli NC. Current protocols in human genetics. New York: John Wiley & Sons Inc, 2001.
Vokes EE, Weichselbaum RR, Lippman SM, Hong WK. Head and neck cancer. N Engl J Med 1993; 328: 184-194.
Gillison ML, Koch WM, Shah KV. Human papillomavirus in head and neck squamous cell carcinoma: are some head and neck cancers a sexually transmitted disease? Curr Opin Oncol 1999; 11: 191-199.
Van Dyke DL, Worsham MJ, Benninger MS, et al. Recurrent cytogenetic abnormalities in squamous cell carcinomas of the head and neck region. Genes Chromosome Cancer 1994; 9: 192-206.
Ayala-Torres S, Johnson BH, Thompson EB. Oxysterol sensitive and resistant lymphoid cells: correlation with regulation of cellular nucleic acid binding protein mRNA. J Steroid Biochem Mol Biol 1994; 48 (4): 307-315.
Hahn SA, Schutte M, Hoque AT, et al. DPC4, a candidate tumor suppressor gene at human chromosome 18q21.1. Science 1996; 271: 350-353.
Bockmuhl U, Wolf G, Schmidt S, et al. Genomic alterations associated with malignancy in head and neck cancer. Head Neck 1998; 145-151.
Alves F, Vogel W, Mossie K, Millauer B, Hofle H, Ullrich A. Distinct structural characteristics of discoidin I subfamily receptor tyrosine kinases and complementary expression in human cancer. Oncogene 1995; 10 (3): 609-618.
Golub TR, Slonim DK, Tamayo P, et al. Molecular classification of cancer: class discovery and class prediction by gene expression monitoring. Science 1999; 286: 531-537.
Rajavashisth TB, Taylor AK, Andalibi A, Svenson KL, Lusis AJ. Identification of a zinc finger protein that binds to the sterol regulatory element. Science 1989; 245 (4918): 640-643.
Mai S, Fluri M, Siwarski D, Huppi K. Genomic instability in MycER-activated Rat1A-MycER cells. Chromosome Res 1996; 4 (5): 365-371.
Schrock E, du Manoir S, Veldman T, et al. Multicolour spectral karyotyping of human chromosomes. Science 1996; 273: 494-497.
Fearon ER, Cho KR, Nigro JM, et al. Identification of a chromosome 18q gene that is altered in colorectal cancers. Science 1990; 247 (4938): 49-56.
Wittes J, Friedman HP. Searching for evidence of altered gene expression: a comment on statistical analysis of microarray data. J Natl Cancer Inst 1999; 91: 400-401.
Piper J, Rutovitz D, Sudar D, et al. Computer image analysis of comparative genomic hybridization. Cytometry 1995; 19: 10-26.
Tumilowicz JJ, Nichols WW, Cholon JJ, Greene AE. Definition of a continuous human cell line derived from neuroblastoma. Cancer Res 1970; 30: 2110-2118.
Decker J, Goldstein JC. Risk factors in head and neck cancer. N Engl J Med 1982; 306: 1151-1151.
Bergamo NA, Rogatto SR, Poli-Frederico RC, et al. Comparative genomic hybridization analysis detects frequent over-representation of DNA sequences at 3q, 7p, and 8q in head and neck carcinomas. Cancer Genet Cytogenet 2000; 119 (1): 48-55.
Soder AI, Hopman AHN, Ramaekers PCS, Conradt C, Bosch FX. Distinct nonrandom patterns of chromosomal aberrations in the progression of squamous cell carcinomas of the head and neck. Cancer Res 1995; 55: 5030-5037.
Speicher MR, Howe C, Crotty R, du Manoir S, Costa J, Ward D. Comparative genomic hybridization detects novel deletions and amplifications in head and neck squamous cell carcinomas. Cancer Res 1995; 55: 1010-1013.
Alizadeh AA, Eisen NB, Davis RE, et al. Distinct types of diffuse large B-cell lymphoma identified by gene expression profiling. Nature 2000; 403: 503-511.
Cowan JM, Beckett MA, Weichselbaum RR. Chromosome changes characterizing in vitro response to radiation in human squamous cell carcinoma lines. Cancer Res 1993; 53: 5542-5547.
Carey TE, Van Dyke DL, Worsham MJ. Nonrandom chromosome aberrations and clonal populations in head and neck cancer. Anticancer Res 1993; 13 (6B): 2561-2567.
Wilson M, DeRisi J, Kristensen HH, et al. Exploring drug-induced alterations in gene expression in Mycobacterium tuberculosis microarray hybridization. Proc Natl Acad Sci USA 1999; 96: 12833-12838.
Brzoska PM, Levin NA, Ru KK, et al. Frequent novel DNA copy number increase in squamous cell head and neck tumors. Cancer Res 1995; 55: 3055-3059.
Lusis AJ, Rajavashisth TB, Klisak I, Heinzmann C, Mohandas T, Sparkes RS. Mapping of the gene for CNBP, a finger protein, to human chromosome 3q13.3-q24 [published erratum appears in Genomics 1991 Mar;9(3):564]. Genomics, 1990; 8 (2): 411-414.
Ah-See KW, Cooke TG, Pickford IR, Soutar D, Balmain A. An allelotype of squamous carcinoma of head and neck using microsatellite markers. Cancer Res 1994; 54: 1617-1620.
Singh B, Gogineni SK, Sacks PG, Shaha AR, Stoffel A, Rao PH. Molecular Cytogenetic charactarization of head and neck squamous cell carcinoma and refinement of 3q amplification. Cancer Res 2001; 61 (11): 4506-4513.
Felsher DW, Bishop JM. Transient excess of MYC activity can elicit genomic instability and tumorigenesis. Proc Natl Acad Sci USA 1999; 96 (7): 3940-3944.
Schraml P, Kononen J, Bubendorf L, et al. Tissue microarrays for gene amplification surveys in many different tumor types. Clin Cancer Res 1999; 5 (8): 1966-1975.
Leethanakul C, Patel V, Gillespie J, et al. Distinct pattern of expression of differentiation and growth-related genes in squamous cell carcinomas of the head and neck revealed by the use of laser capture microdissection and cDNA arrays. Oncogene 2000; 19 (28): 3220-3224.
Jin Y, Mertens R, Mandahl N, et al. Chromosome abnormalities in eighty-three head and neck squamous cell carcinomas: influence of culture conditions on karyotypic pattern. Cancer Res 1993; 53: 2140-2146.
Worsham MJ, Wolman SR, Carey TE, Zarbo RJ, Benninger MS, Van Dyke DL. Chromosomal aberrations identified in culture of squamous carcinomas are confirmed by fluorescence in situ hybridisation. Mol Pathol 1999; 52 (1): 42-46.
Bockmuhl U, Schluns K, Kuchler I, Petersen S, Petersen I. Genetic imbalances with impact on survival in head and neck cancer patients. Am J Pathol 2000: 157 (2): 369-375.
DeRisi J, Penland L, Brown PO, et al. Use of a cDNA microarray to analyse gene expression patterns in human cancer. [see comments] Nat Genet 1996; 14: 457-460.
Boring CC, Squire TS, Tong T, Montgomery S. Cancer statistics. CA Cancer J Clin 1994; 44: 7-26.
Kallioniemi A, Kallioniemi OP, Sudar D, et al. Comparative genomic hybridization for molecular cytogenetic analysis of solid tumors. Science 1992; 258: 818-821.
du Manoir S, Schrock E, Bentz M, et al. Quantitative analysis of comparative genomic hybridization. Cytometry 1995; 19: 27-41.
Zwijsen A, Blockx H, Van Arnhem W, et al. Characterization of a rat C6 glioma-secreted follistatin-related protein (FRP). Cloning and sequence of the human homologue. Eur J Biochem 1994; 225 (3): 937-946.
Fearon ER, Vogelstein BA. A genetic model for colorectal tumorigenesis. Cell 1990; 61: 759-767.
Jones SD, van der Flier A, Sonnenberg A. Genomic organization of the human alpha integrin suburm gene. Biochem Biophys Res Commun 1998; 248 (3): 896-898.
Nawroz H, Van der Riet P, Hruban RH, Koch W, Ruppert JM, Sidransky D. Alleotype of head and neck squamous cell carcinoma. Cancer Res 1994; 54: 1152-1155.
Watts SL, Brewer EE, Fry TL. Human papillomavirus DNA types in squamous cell carcinomas of the head and neck. Oral Surg Oral Med Oral Pathol 1991; 71: 701-707.
Johnson JD, Edman JC, Rutter WJ. A receptor tyrosine kinase found in breast carcinoma cells has an extracellular discoidin I-like domain [published erratum appears in Proc Natl Acad Sci USA 1993 Nov 15;90(22):10891. Proc Natl Acad Sci USA, 1993; 90 (12): 5677-5681.
Atula T, Silvoniemi P, Kurki T, Varpula M, Grenman R. The evaluation and treatment of the neck in carcinoma of the oral cavity. Acta Otolaryngol Suppl 1997; 529: 223-225.
Okami K, Wu L, Riggins G, et al. Analysis of PTEN/MMAC1 alterations in aerodigestive tract tumors. Cancer Res 1998; 58 (3): 509-511.
Forozan F, Karhu R, Kononen J, Kallioniemi A, Kallioniemi O-P. Genome screening by comparative genomic hybridization. Trends Genet 1997; 13 (10): 405-409.
Lundsteen C, Maahr J, Christensen EJ, Bryndorf T, Bentz M, Lichter P, Gerdes T. Image analysis in comparative genomic hybridization. Cytometry 1995; 19: 42-50.
Nemoto T, Ohashi K, Akashi T, Johnson JD, Hirokawa K. Overexpression of protein tyrosine kinases in human esophageal cancer. Pathobiology 1997; 65 (4): 195-203.
Sambrook J, Frisch EF, Maniatis T. Molecular cloning: a laboratory manual, 2nd ed. Cold Spring Harbor: Cold Spring Harbor Laboratory Press, 1989.
DeRisi JL, Iyer VR, Brown PO. Exploring the metabolic and genetic control of gene expression on a genomic scale. Science 1997; 278 (5338): 680-686.
1997; 278
1993; 328
1982; 306
1997; 350
1999; 286
1970; 30
1990; 61
2001; 61
2000; 19
1994; 225
2001
2000; 403
1997; 15
1997; 13
1999; 11
1999; 96
1999; 52
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1989
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1997; 65
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1995; 55
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Singh B (e_1_2_7_3_8_2) 2001; 61
Dracopoli NC (e_1_2_6_31_2) 2001
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Levine AJ (e_1_2_7_3_2_2) 1994; 123
Jin Y (e_1_2_6_14_2) 1993; 53
Alves F (e_1_2_6_51_2) 1995; 10
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Carey TE (e_1_2_6_13_2) 1993; 13
Sambrook J (e_1_2_6_30_2) 1989
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Califano J (e_1_2_6_10_2) 1996; 56
Singh B (e_1_2_7_3_7_2) 2002
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Tumilowicz JJ (e_1_2_6_33_2) 1970; 30
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Speicher MR (e_1_2_6_21_2) 1995; 55
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Okami K (e_1_2_6_55_2) 1998; 58
Belbin TJ (e_1_2_7_3_9_2) 2002; 62
Brzoska PM (e_1_2_6_20_2) 1995; 55
Singh B (e_1_2_6_56_2) 2001; 61
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Ah‐See KW (e_1_2_6_17_2) 1994; 54
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Nawroz H (e_1_2_6_11_2) 1994; 54
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Cowan JM (e_1_2_6_16_2) 1993; 53
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Soder AI (e_1_2_6_18_2) 1995; 55
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Schraml P (e_1_2_6_47_2) 1999; 5
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References_xml – reference: DeRisi J, Penland L, Brown PO, et al. Use of a cDNA microarray to analyse gene expression patterns in human cancer. [see comments] Nat Genet 1996; 14: 457-460.
– reference: Vokes EE, Liebowitz DN, Weichselbaum RR. Nasopharyngeal carcinoma. Lancet 1997; 350: 1087-1091.
– reference: Jones SD, van der Flier A, Sonnenberg A. Genomic organization of the human alpha integrin suburm gene. Biochem Biophys Res Commun 1998; 248 (3): 896-898.
– reference: Fearon ER, Cho KR, Nigro JM, et al. Identification of a chromosome 18q gene that is altered in colorectal cancers. Science 1990; 247 (4938): 49-56.
– reference: Hahn SA, Schutte M, Hoque AT, et al. DPC4, a candidate tumor suppressor gene at human chromosome 18q21.1. Science 1996; 271: 350-353.
– reference: Alizadeh AA, Eisen NB, Davis RE, et al. Distinct types of diffuse large B-cell lymphoma identified by gene expression profiling. Nature 2000; 403: 503-511.
– reference: Jin Y, Mertens R, Mandahl N, et al. Chromosome abnormalities in eighty-three head and neck squamous cell carcinomas: influence of culture conditions on karyotypic pattern. Cancer Res 1993; 53: 2140-2146.
– reference: Wilson M, DeRisi J, Kristensen HH, et al. Exploring drug-induced alterations in gene expression in Mycobacterium tuberculosis microarray hybridization. Proc Natl Acad Sci USA 1999; 96: 12833-12838.
– reference: Nemoto T, Ohashi K, Akashi T, Johnson JD, Hirokawa K. Overexpression of protein tyrosine kinases in human esophageal cancer. Pathobiology 1997; 65 (4): 195-203.
– reference: Piper J, Rutovitz D, Sudar D, et al. Computer image analysis of comparative genomic hybridization. Cytometry 1995; 19: 10-26.
– reference: Lusis AJ, Rajavashisth TB, Klisak I, Heinzmann C, Mohandas T, Sparkes RS. Mapping of the gene for CNBP, a finger protein, to human chromosome 3q13.3-q24 [published erratum appears in Genomics 1991 Mar;9(3):564]. Genomics, 1990; 8 (2): 411-414.
– reference: Vokes EE, Weichselbaum RR, Lippman SM, Hong WK. Head and neck cancer. N Engl J Med 1993; 328: 184-194.
– reference: Bergamo NA, Rogatto SR, Poli-Frederico RC, et al. Comparative genomic hybridization analysis detects frequent over-representation of DNA sequences at 3q, 7p, and 8q in head and neck carcinomas. Cancer Genet Cytogenet 2000; 119 (1): 48-55.
– reference: Felsher DW, Bishop JM. Transient excess of MYC activity can elicit genomic instability and tumorigenesis. Proc Natl Acad Sci USA 1999; 96 (7): 3940-3944.
– reference: Golub TR, Slonim DK, Tamayo P, et al. Molecular classification of cancer: class discovery and class prediction by gene expression monitoring. Science 1999; 286: 531-537.
– reference: Atula T, Silvoniemi P, Kurki T, Varpula M, Grenman R. The evaluation and treatment of the neck in carcinoma of the oral cavity. Acta Otolaryngol Suppl 1997; 529: 223-225.
– reference: Califano J, van der Riet P, Westra W, et al. Genetic progression model for head and neck cancer: implications for field cancerization. Cancer Res 1996; 56 (11): 2488-2492.
– reference: Rajavashisth TB, Taylor AK, Andalibi A, Svenson KL, Lusis AJ. Identification of a zinc finger protein that binds to the sterol regulatory element. Science 1989; 245 (4918): 640-643.
– reference: Johnson JD, Edman JC, Rutter WJ. A receptor tyrosine kinase found in breast carcinoma cells has an extracellular discoidin I-like domain [published erratum appears in Proc Natl Acad Sci USA 1993 Nov 15;90(22):10891. Proc Natl Acad Sci USA, 1993; 90 (12): 5677-5681.
– reference: Brzoska PM, Levin NA, Ru KK, et al. Frequent novel DNA copy number increase in squamous cell head and neck tumors. Cancer Res 1995; 55: 3055-3059.
– reference: Decker J, Goldstein JC. Risk factors in head and neck cancer. N Engl J Med 1982; 306: 1151-1151.
– reference: Worsham MJ, Wolman SR, Carey TE, Zarbo RJ, Benninger MS, Van Dyke DL. Chromosomal aberrations identified in culture of squamous carcinomas are confirmed by fluorescence in situ hybridisation. Mol Pathol 1999; 52 (1): 42-46.
– reference: Veldman T, Vignon C, Schrock E, Rowley JD, Ried T. Hidden chromosome abnormalities in haematological malignancies detected by multicolour spectral karyotyping. Nat Genet 1997; 15: 406-410.
– reference: Schraml P, Kononen J, Bubendorf L, et al. Tissue microarrays for gene amplification surveys in many different tumor types. Clin Cancer Res 1999; 5 (8): 1966-1975.
– reference: du Manoir S, Schrock E, Bentz M, et al. Quantitative analysis of comparative genomic hybridization. Cytometry 1995; 19: 27-41.
– reference: Dracopoli NC. Current protocols in human genetics. New York: John Wiley & Sons Inc, 2001.
– reference: Okami K, Wu L, Riggins G, et al. Analysis of PTEN/MMAC1 alterations in aerodigestive tract tumors. Cancer Res 1998; 58 (3): 509-511.
– reference: Ayala-Torres S, Johnson BH, Thompson EB. Oxysterol sensitive and resistant lymphoid cells: correlation with regulation of cellular nucleic acid binding protein mRNA. J Steroid Biochem Mol Biol 1994; 48 (4): 307-315.
– reference: Hong TM, Yang PC, Peck K, et al. Profiling the downstream genes of tumor suppressor PTEN in lung cancer cells by complementary DNA microarray. Am J Respir Cell Mol Biol 2000; 23 (3): 355-363.
– reference: Forozan F, Karhu R, Kononen J, Kallioniemi A, Kallioniemi O-P. Genome screening by comparative genomic hybridization. Trends Genet 1997; 13 (10): 405-409.
– reference: Alves F, Vogel W, Mossie K, Millauer B, Hofle H, Ullrich A. Distinct structural characteristics of discoidin I subfamily receptor tyrosine kinases and complementary expression in human cancer. Oncogene 1995; 10 (3): 609-618.
– reference: Bockmuhl U, Wolf G, Schmidt S, et al. Genomic alterations associated with malignancy in head and neck cancer. Head Neck 1998; 145-151.
– reference: Sambrook J, Frisch EF, Maniatis T. Molecular cloning: a laboratory manual, 2nd ed. Cold Spring Harbor: Cold Spring Harbor Laboratory Press, 1989.
– reference: Singh B, Gogineni SK, Sacks PG, Shaha AR, Stoffel A, Rao PH. Molecular Cytogenetic charactarization of head and neck squamous cell carcinoma and refinement of 3q amplification. Cancer Res 2001; 61 (11): 4506-4513.
– reference: Mai S, Fluri M, Siwarski D, Huppi K. Genomic instability in MycER-activated Rat1A-MycER cells. Chromosome Res 1996; 4 (5): 365-371.
– reference: Gillison ML, Koch WM, Shah KV. Human papillomavirus in head and neck squamous cell carcinoma: are some head and neck cancers a sexually transmitted disease? Curr Opin Oncol 1999; 11: 191-199.
– reference: DeRisi JL, Iyer VR, Brown PO. Exploring the metabolic and genetic control of gene expression on a genomic scale. Science 1997; 278 (5338): 680-686.
– reference: Van Dyke DL, Worsham MJ, Benninger MS, et al. Recurrent cytogenetic abnormalities in squamous cell carcinomas of the head and neck region. Genes Chromosome Cancer 1994; 9: 192-206.
– reference: Carey TE, Van Dyke DL, Worsham MJ. Nonrandom chromosome aberrations and clonal populations in head and neck cancer. Anticancer Res 1993; 13 (6B): 2561-2567.
– reference: Soder AI, Hopman AHN, Ramaekers PCS, Conradt C, Bosch FX. Distinct nonrandom patterns of chromosomal aberrations in the progression of squamous cell carcinomas of the head and neck. Cancer Res 1995; 55: 5030-5037.
– reference: Tumilowicz JJ, Nichols WW, Cholon JJ, Greene AE. Definition of a continuous human cell line derived from neuroblastoma. Cancer Res 1970; 30: 2110-2118.
– reference: Boring CC, Squire TS, Tong T, Montgomery S. Cancer statistics. CA Cancer J Clin 1994; 44: 7-26.
– reference: Leethanakul C, Patel V, Gillespie J, et al. Distinct pattern of expression of differentiation and growth-related genes in squamous cell carcinomas of the head and neck revealed by the use of laser capture microdissection and cDNA arrays. Oncogene 2000; 19 (28): 3220-3224.
– reference: Boring C, Squire TS, Tong T. Cancer statistics. CA Cancer J Clin 1992; 42: 19-38.
– reference: Schrock E, du Manoir S, Veldman T, et al. Multicolour spectral karyotyping of human chromosomes. Science 1996; 273: 494-497.
– reference: Fearon ER, Vogelstein BA. A genetic model for colorectal tumorigenesis. Cell 1990; 61: 759-767.
– reference: Zwijsen A, Blockx H, Van Arnhem W, et al. Characterization of a rat C6 glioma-secreted follistatin-related protein (FRP). Cloning and sequence of the human homologue. Eur J Biochem 1994; 225 (3): 937-946.
– reference: Bockmuhl U, Schluns K, Kuchler I, Petersen S, Petersen I. Genetic imbalances with impact on survival in head and neck cancer patients. Am J Pathol 2000: 157 (2): 369-375.
– reference: Speicher MR, Howe C, Crotty R, du Manoir S, Costa J, Ward D. Comparative genomic hybridization detects novel deletions and amplifications in head and neck squamous cell carcinomas. Cancer Res 1995; 55: 1010-1013.
– reference: Ah-See KW, Cooke TG, Pickford IR, Soutar D, Balmain A. An allelotype of squamous carcinoma of head and neck using microsatellite markers. Cancer Res 1994; 54: 1617-1620.
– reference: Wittes J, Friedman HP. Searching for evidence of altered gene expression: a comment on statistical analysis of microarray data. J Natl Cancer Inst 1999; 91: 400-401.
– reference: Cowan JM, Beckett MA, Weichselbaum RR. Chromosome changes characterizing in vitro response to radiation in human squamous cell carcinoma lines. Cancer Res 1993; 53: 5542-5547.
– reference: Watts SL, Brewer EE, Fry TL. Human papillomavirus DNA types in squamous cell carcinomas of the head and neck. Oral Surg Oral Med Oral Pathol 1991; 71: 701-707.
– reference: Nawroz H, Van der Riet P, Hruban RH, Koch W, Ruppert JM, Sidransky D. Alleotype of head and neck squamous cell carcinoma. Cancer Res 1994; 54: 1152-1155.
– reference: Kallioniemi A, Kallioniemi OP, Sudar D, et al. Comparative genomic hybridization for molecular cytogenetic analysis of solid tumors. Science 1992; 258: 818-821.
– reference: Lundsteen C, Maahr J, Christensen EJ, Bryndorf T, Bentz M, Lichter P, Gerdes T. Image analysis in comparative genomic hybridization. Cytometry 1995; 19: 42-50.
– volume: 350
  start-page: 1087
  year: 1997
  end-page: 1091
  article-title: Nasopharyngeal carcinoma
  publication-title: Lancet
– volume: 278
  start-page: 680
  issue: 5338
  year: 1997
  end-page: 686
  article-title: Exploring the metabolic and genetic control of gene expression on a genomic scale
  publication-title: Science
– volume: 11
  start-page: 191
  year: 1999
  end-page: 199
  article-title: Human papillomavirus in head and neck squamous cell carcinoma: are some head and neck cancers a sexually transmitted disease?
  publication-title: Curr Opin Oncol
– volume: 52
  start-page: 42
  issue: 1
  year: 1999
  end-page: 46
  article-title: Chromosomal aberrations identified in culture of squamous carcinomas are confirmed by fluorescence in situ hybridisation
  publication-title: Mol Pathol
– volume: 58
  start-page: 509
  issue: 3
  year: 1998
  end-page: 511
  article-title: Analysis of PTEN/MMAC1 alterations in aerodigestive tract tumors
  publication-title: Cancer Res
– volume: 48
  start-page: 307
  issue: 4
  year: 1994
  end-page: 315
  article-title: Oxysterol sensitive and resistant lymphoid cells: correlation with regulation of cellular nucleic acid binding protein mRNA
  publication-title: J Steroid Biochem Mol Biol
– volume: 248
  start-page: 896
  issue: 3
  year: 1998
  end-page: 898
  article-title: Genomic organization of the human alpha integrin suburm gene
  publication-title: Biochem Biophys Res Commun
– volume: 19
  start-page: 27
  year: 1995
  end-page: 41
  article-title: Quantitative analysis of comparative genomic hybridization
  publication-title: Cytometry
– volume: 245
  start-page: 640
  issue: 4918
  year: 1989
  end-page: 643
  article-title: Identification of a zinc finger protein that binds to the sterol regulatory element
  publication-title: Science
– year: 2001
– year: 1989
– volume: 403
  start-page: 503
  year: 2000
  end-page: 511
  article-title: Distinct types of diffuse large B‐cell lymphoma identified by gene expression profiling
  publication-title: Nature
– volume: 286
  start-page: 531
  year: 1999
  end-page: 537
  article-title: Molecular classification of cancer: class discovery and class prediction by gene expression monitoring
  publication-title: Science
– volume: 529
  start-page: 223
  year: 1997
  end-page: 225
  article-title: The evaluation and treatment of the neck in carcinoma of the oral cavity
  publication-title: Acta Otolaryngol Suppl
– volume: 8
  start-page: 411
  issue: 2
  year: 1990
  end-page: 414
  article-title: Mapping of the gene for CNBP, a finger protein, to human chromosome 3q13.3–q24 [published erratum appears in Genomics 1991 Mar;9(3):564]
  publication-title: Genomics
– volume: 23
  start-page: 355
  issue: 3
  year: 2000
  end-page: 363
  article-title: Profiling the downstream genes of tumor suppressor PTEN in lung cancer cells by complementary DNA microarray
  publication-title: Am J Respir Cell Mol Biol
– volume: 90
  start-page: 5677
  issue: 12
  year: 1993
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Snippet Background A combination of molecular cytogenetic and expression array analysis has been performed on head and neck squamous cell carcinoma (HNSCC) of the oral...
A combination of molecular cytogenetic and expression array analysis has been performed on head and neck squamous cell carcinoma (HNSCC) of the oral cavity and...
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SubjectTerms Carcinoma, Squamous Cell - genetics
Chromosome Aberrations
Chromosome Banding
Cytogenetic Analysis - methods
DNA, Neoplasm - genetics
Down-Regulation
Gene Expression Profiling
Head and Neck Neoplasms - genetics
Humans
Karyotyping - methods
Nucleic Acid Hybridization
Oligonucleotide Array Sequence Analysis
Pilot Projects
RNA, Neoplasm - genetics
Tongue Neoplasms - genetics
Tumor Cells, Cultured
Up-Regulation
Title Molecular cytogenetic analysis of head and neck squamous cell carcinoma: By comparative genomic hybridization, spectral karyotyping, and expression array analysis
URI https://api.istex.fr/ark:/67375/WNG-T8K2LVG3-8/fulltext.pdf
https://onlinelibrary.wiley.com/doi/abs/10.1002%2Fhed.10122
https://www.ncbi.nlm.nih.gov/pubmed/12211052
https://www.proquest.com/docview/72062088
Volume 24
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