The Principles of Clinical Cytogenetics - Extra Materials - Springer

Cytogenetics of Hematologic Neoplasms 419
253. Diehl, V., Sextro, M., Franklin, J., et al. (1999) Clinical presentation, course, and prognostic factors in lymphocytepredominant
Hodgkin’s disease and lymphocyte-rich classical Hodgkin’s disease: report from the European Task Force
on Lymphoma Project on Lymphocyte-Predominant Hodgkin’s Disease. J. Clin. Oncol. 17, 776–783.
254. Stein, H., Diehl, V., Marafioti, T., Jox, A., Wolf, J., and Hummel, M. (1999) The nature of Reed–Sternberg cells,
lymphocytic and histiocytic cells and their molecular biology in Hodgkins’ disease. In Hodgkin’s Disease (Armitage,
M.P. and Diehl, V., eds.), Lippincott, Williams and Wilkins, Philadelphia.
255. Stein, H., Gerdes, J., Kirchner, H., Schaadt, M., and Diehl, V. (1981) Hodgkin and Sternberg–Reed cell antigen(s)
detected by an antiserum to a cell line (L428) derived from Hodgkin’s disease. Intl. J. Cancer 28, 425–429.
256. Stein, H., Uchánska-Ziegler, B., Gerdes, J., Ziegler, A., and Wernet, P. (1982) Hodgkin and Sternberg–Reed cells
contain antigens specific to late cells of granulopoiesis. Intl. J. Cancer 29, 283–290.
257. Hsu, S.M. and Jaffe, E.S. (1984) Leu M1 and peanut agglutinin stain the neoplastic cells of Hodgkin’s disease. Am. J.
Clin. Pathol. 82, 29–32.
258. Chittal, S.M., Caveriviáere, P., Schwarting, R., et al. (1988) Monoclonal antibodies in the diagnosis of Hodgkin’s
disease. The search for a rational panel. Am. J. Surg. Pathol. 12, 9–21.
259. Marafioti, T., Hummel, M., Foss, H.D., et al. (2000) Hodgkin and Reed–Sternberg cells represent an expansion of a
single clone originating from a germinal center B-cell with functional immunoglobulin gene rearrangements but defective
immunoglobulin transcription. Blood 95, 1443–1450.
260. Kanzler, H., Kèuppers, R., Hansmann, M.L., and Rajewsky, K. (1996) Hodgkin and Reed–Sternberg cells in Hodgkin’s
disease represent the outgrowth of a dominant tumor clone derived from (crippled) germinal center B-cells. J. Exp.
Med. 184, 1495–1505.
261. Taylor, A.M., Metcalfe, J.A., Thick, J., and Mak, Y.F. (1996) Leukemia and lymphoma in ataxia telangiectasia. Blood
87, 423–438.
262. Schlegelberger, B., Weber-Matthiesen, K., Himmler, A., et al. (1994) Cytogenetic findings and results of combined
immunophenotyping and karyotyping in Hodgkin’s disease. Leukemia 8, 72–80.
263. Sarris, A., Jhanwar, S., and Cabanillas, F. (1999) Cytogenetics of Hodgkin’s disease. In Hodgkin’s Disease (Mauch, P.,
Armitage, J.O., and Diehl, V., eds.), Lippincott, Williams and Wilkins, Philadelphia.
264. Joos, S., Kèupper, M., Ohl, S., et al. (2000) Genomic imbalances including amplification of the tyrosine kinase gene
JAK2 in CD30+ Hodgkin cells. Cancer Res. 60, 549–552.
265. Gravel, S., Delsol, G., and Al Saati, T. (1998) Single-cell analysis of the t(14;18)(q32;q21) chromosomal translocation
in Hodgkin’s disease demonstrates the absence of this translocation in neoplastic Hodgkin and Reed–Sternberg cells.
Blood 91, 2866–2874.
266. Waggott, W., Delsol, G., Jarret, R.F., et al. (1997) NPM-ALK gene fusion and Hodgkin’s disease. Blood 90, 1712–1713.
267. Knowles, D.M., Chamulak, G.A., Subar, M., et al. (1988) Lymphoid neoplasia associated with the acquired immunodeficiency
syndrome (AIDS). The New York University Medical Center experience with 105 patients (1981–1986). Ann.
Intern. Med. 108, 744–753.
268. Raphael, M.M., Audouin, J., Lamine, M., et al. (1994) Immunophenotypic and genotypic analysis of acquired immunodeficiency
syndrome-related non-Hodgkin’s lymphomas. Correlation with histologic features in 36 cases. French
Study Group of Pathology for HIV-Associated Tumors. Am. J. Clin. Pathol. 101, 773–782.
269. Walts, A.E., Shintaku, I.P., and Said, J.W. (1990) Diagnosis of malignant lymphoma in effusions from patients with
AIDS by gene rearrangement. Am. J. Clin. Pathol. 94, 170–175.
270. Delecluse, H.J., Hummel, M., Marafioti, T., Anagnostopoulos, I., and Stein, H. (1999) Common and HIV-related diffuse
large B-cell lymphomas differ in their immunoglobulin gene mutation pattern. J. Pathol. 188, 133–138.
271. Beylot-Barry, M., Vergier, B., Masquelier, B., et al. (1999) The spectrum of cutaneous lymphomas in HIV infection: a
study of 21 cases. Am. J. Surg. Pathol. 23, 1208–1216.
272. Burke, A.P., Andriko, J.A., and Virmani, R. (2000) Anaplastic large cell lymphoma (CD 30+), T-phenotype, in the
heart of an HIV-positive man. Cardiovasc. Pathol. 9, 49–52.
273. Ballerini, P., Gaidano, G., Gong, J.Z., Tassi, V., Saglio, G., Knowles, D.M., and Dalla-Favera, R. (1993) Multiple
genetic lesions in acquired immunodeficiency syndrome-related non-Hodgkin’s lymphoma. Blood 81, 166–176.
274. Gaidano, G., Carbone, A., Pastore, C., et al. (1997) Frequent mutation of the 5' noncoding region of the BCL-6 gene in
acquired immunodeficiency syndrome-related non-Hodgkin’s lymphomas. Blood 89, 3755–3762.
275. Gaidano, G., Lo Coco, F., Ye, B.H., et al. (1994) Rearrangements of the BCL-6 gene in acquired immunodeficiency
syndrome-associated non-Hodgkin’s lymphoma: association with diffuse large-cell subtype. Blood 84, 397–402.
276. Derringer, G.A., Thompson, L.D., Frommelt, R.A., Bijwaard, K.E., Heffess, C.S., and Abbondanzo, S.L. (2000) Malignant
lymphoma of the thyroid gland: a clinicopathologic study of 108 cases. Am. J. Surg. Pathol. 24, 623–639.
277. Longley, B.J. and Metcalfe, D.D. (2000). A proposed classification of mastocytosis incorporating molecular genetics.
Hematol./Oncol. Clin. North Am. 14, vii, 697–701.
278. Longley, B.J., Tyrrell, L., Lu, S Z., et al. (1996) Somatic c-KIT activating mutation in urticaria pigmentosa and aggressive
mastocytosis: establishment of clonality in a human mast cell neoplasm. Nature Genet. 12, 312–314.